Publications
"DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). 
supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "DNA sequence and methylation prescribe the inside-out conformational dynamics and bending energetics of DNA minicircles." Nucleic Acids Res 49:11459-11475 (2021). supporting_information.pdf (17.16 MB)
supporting_information.pdf (17.16 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB) "Multiple rereads of single proteins at single–amino acid resolution using nanopores." Science 374:1509-1513 (2021). si.pdf (33.12 MB)
si.pdf (33.12 MB) "Membrane Activity of a DNA-Based Ion Channel Depends on the Stability of Its Double-Stranded Structure." Nano Letters 21:9789-9796 (2021). si.pdf (1.54 MB)
si.pdf (1.54 MB)