SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3131832968> ?p ?o ?g. }

Showing items 1 to 100 of ±161 with 100 items per page.

W3131832968 endingPage "634" @default.
W3131832968 startingPage "587" @default.
W3131832968 abstract "We report here on the nanopore resistive pulse sensing (Np-RPS) method, involving pore-forming toxins as tools for polymer analytics at single molecule level. Np-RPS is an electrical method for the label-free detection of single molecules. A molecule interacting with the pore causes a change of the electrical resistance of the pore, called a resistive pulse, associated with a measurable transient current blockade. The features of the blockades, in particular their depth and duration, contain information on the molecular properties of the analyte. We first revisit the history of Np-RPS, then we discuss the effect of the configuration of the molecule/nanopore interaction on the molecular information that can be extracted from the signal, illustrated in two different regimes that either favor molecular sequencing or molecular sizing. Specifically, we focus on the sizing regime and on the use of two different pore-forming toxins, staphylococcal α-hemolysin (αHL) and aerolysin (AeL) nanopores, for the characterization of water-soluble polymers (poly-(ethylene glycol), (PEG)), homopeptides, and heteropeptides. We discuss how nanopore sizing of polymers could be envisioned as a new approach for peptide/protein sequencing." @default.
W3131832968 created "2021-03-01" @default.
W3131832968 creator A5003936492 @default.
W3131832968 creator A5009174098 @default.
W3131832968 creator A5015035453 @default.
W3131832968 creator A5044230378 @default.
W3131832968 creator A5048418308 @default.
W3131832968 creator A5051689849 @default.
W3131832968 creator A5055274770 @default.
W3131832968 creator A5056838479 @default.
W3131832968 creator A5072907609 @default.
W3131832968 creator A5084861590 @default.
W3131832968 date "2021-01-01" @default.
W3131832968 modified "2023-09-25" @default.
W3131832968 title "Pore-forming toxins as tools for polymer analytics: From sizing to sequencing" @default.
W3131832968 cites W1498846304 @default.
W3131832968 cites W1662176830 @default.
W3131832968 cites W1852537181 @default.
W3131832968 cites W1968505278 @default.
W3131832968 cites W1980032302 @default.
W3131832968 cites W1984812591 @default.
W3131832968 cites W1987148981 @default.
W3131832968 cites W1993527536 @default.
W3131832968 cites W1994173064 @default.
W3131832968 cites W2008002200 @default.
W3131832968 cites W2009025716 @default.
W3131832968 cites W2014626166 @default.
W3131832968 cites W2016867898 @default.
W3131832968 cites W2018923440 @default.
W3131832968 cites W2020002901 @default.
W3131832968 cites W2020097975 @default.
W3131832968 cites W2021639917 @default.
W3131832968 cites W2026107243 @default.
W3131832968 cites W2027415337 @default.
W3131832968 cites W2027593760 @default.
W3131832968 cites W2027697629 @default.
W3131832968 cites W2030683115 @default.
W3131832968 cites W2031452759 @default.
W3131832968 cites W2032711662 @default.
W3131832968 cites W2041695911 @default.
W3131832968 cites W2052039763 @default.
W3131832968 cites W2066509635 @default.
W3131832968 cites W2078884016 @default.
W3131832968 cites W2083307757 @default.
W3131832968 cites W2085381747 @default.
W3131832968 cites W2085532083 @default.
W3131832968 cites W2086782779 @default.
W3131832968 cites W2091941153 @default.
W3131832968 cites W2094153893 @default.
W3131832968 cites W2101282861 @default.
W3131832968 cites W2105298634 @default.
W3131832968 cites W2120659521 @default.
W3131832968 cites W2126450798 @default.
W3131832968 cites W2127407003 @default.
W3131832968 cites W2128795881 @default.
W3131832968 cites W2128944252 @default.
W3131832968 cites W2129234254 @default.
W3131832968 cites W2160186454 @default.
W3131832968 cites W2160947742 @default.
W3131832968 cites W2313547006 @default.
W3131832968 cites W2319834695 @default.
W3131832968 cites W2320480424 @default.
W3131832968 cites W2321771370 @default.
W3131832968 cites W2326656666 @default.
W3131832968 cites W2327636250 @default.
W3131832968 cites W2342925174 @default.
W3131832968 cites W2396076193 @default.
W3131832968 cites W2412446569 @default.
W3131832968 cites W2418788167 @default.
W3131832968 cites W2464737327 @default.
W3131832968 cites W2467984685 @default.
W3131832968 cites W2560276890 @default.
W3131832968 cites W2583341193 @default.
W3131832968 cites W2748287142 @default.
W3131832968 cites W2807505914 @default.
W3131832968 cites W2808769631 @default.
W3131832968 cites W2995162887 @default.
W3131832968 cites W3005010820 @default.
W3131832968 cites W3005063855 @default.
W3131832968 cites W4255168313 @default.
W3131832968 doi "https://doi.org/10.1016/bs.mie.2021.01.017" @default.
W3131832968 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33712201" @default.
W3131832968 hasPublicationYear "2021" @default.
W3131832968 type Work @default.
W3131832968 sameAs 3131832968 @default.
W3131832968 citedByCount "7" @default.
W3131832968 countsByYear W31318329682021 @default.
W3131832968 countsByYear W31318329682022 @default.
W3131832968 countsByYear W31318329682023 @default.
W3131832968 crossrefType "book-chapter" @default.
W3131832968 hasAuthorship W3131832968A5003936492 @default.
W3131832968 hasAuthorship W3131832968A5009174098 @default.
W3131832968 hasAuthorship W3131832968A5015035453 @default.
W3131832968 hasAuthorship W3131832968A5044230378 @default.
W3131832968 hasAuthorship W3131832968A5048418308 @default.
W3131832968 hasAuthorship W3131832968A5051689849 @default.
W3131832968 hasAuthorship W3131832968A5055274770 @default.
W3131832968 hasAuthorship W3131832968A5056838479 @default.