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2008    
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Vadim Cherezov, Wei Liu, Jeremy P. Derrick, Binquan Luan, Aleksei Aksimentiev, Vsevolod Katritch, and Martin Caffrey. "In meso crystal structure and docking simulations suggest an alternative proteoglycan binding site in the OpcA outer membrane adhesin." Proteins 71:24-34 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).
Aleksei Aksimentiev, Robert Brunner, Jordi Cohen, Jeffrey Comer, Eduardo Cruz-Chú, David Hardy, Aruna Rajan, Amy Y. Shih, G Sigalov, Ying Yin, and Klaus Schulten. "Computer modeling in biotechnology: a partner in development." Methods Mol Biol 474:181-234 (2008).

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