SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2046126409> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W2046126409 endingPage "80" @default.
W2046126409 startingPage "65" @default.
W2046126409 abstract "The majority of drugs associated with QT interval prolongation share an ability to inhibit ionic currents passed by HERG potassium channels. One method of screening new chemical entities (NCEs) for QT prolonging potential is therefore to use heterologous systems expressing HERG channels. Such systems are also of value in the understanding of the function, kinetics, sorting, pharmacological sensitivities, and important molecular determinants of the HERG potassium channel. The methods for incorporating the HERG potassium channel into cells and measuring the consequent current are a mixture of techniques that are standard (for heterologous expression of most ion channels) and individualised to HERG. This review presents a selection of the most commonly used methods for examining heterologous HERG currents, as well as introducing some of the technical problems that may be encountered and their solutions. In mammalian cell lines, problems such as fragile membranes, high leak currents, inability to form a gigaseal, diminished HERG current, endogenous transient outward current, altered kinetics, and even occasional run down can interfere with measurements. In Xenopus oocytes, endogenous chloride currents, insufficient superfusate flow, diminished HERG current and HERG current 'run up' may create difficulties." @default.
W2046126409 created "2016-06-24" @default.
W2046126409 creator A5033294327 @default.
W2046126409 creator A5037737415 @default.
W2046126409 creator A5043507909 @default.
W2046126409 creator A5074434206 @default.
W2046126409 date "2002-09-01" @default.
W2046126409 modified "2023-09-30" @default.
W2046126409 title "Troubleshooting problems with in vitro screening of drugs for QT interval prolongation using HERG K+ channels expressed in mammalian cell lines and Xenopus oocytes" @default.
W2046126409 cites W1545751589 @default.
W2046126409 cites W1546712321 @default.
W2046126409 cites W1587779505 @default.
W2046126409 cites W1640055584 @default.
W2046126409 cites W1964294340 @default.
W2046126409 cites W1968098810 @default.
W2046126409 cites W1968371524 @default.
W2046126409 cites W1973237368 @default.
W2046126409 cites W1981460409 @default.
W2046126409 cites W1983137097 @default.
W2046126409 cites W1987388257 @default.
W2046126409 cites W1991514105 @default.
W2046126409 cites W1993944008 @default.
W2046126409 cites W1994147156 @default.
W2046126409 cites W1997206770 @default.
W2046126409 cites W2002422701 @default.
W2046126409 cites W2003676394 @default.
W2046126409 cites W2004030503 @default.
W2046126409 cites W2018987751 @default.
W2046126409 cites W2019973925 @default.
W2046126409 cites W2021438486 @default.
W2046126409 cites W2023481121 @default.
W2046126409 cites W2024400361 @default.
W2046126409 cites W2030002696 @default.
W2046126409 cites W2030541138 @default.
W2046126409 cites W2031544722 @default.
W2046126409 cites W2032734987 @default.
W2046126409 cites W2036038468 @default.
W2046126409 cites W2036860058 @default.
W2046126409 cites W2044863070 @default.
W2046126409 cites W2045626047 @default.
W2046126409 cites W2052445226 @default.
W2046126409 cites W2053351731 @default.
W2046126409 cites W2063862772 @default.
W2046126409 cites W2078925334 @default.
W2046126409 cites W2080352510 @default.
W2046126409 cites W2080355249 @default.
W2046126409 cites W2084756418 @default.
W2046126409 cites W2085048839 @default.
W2046126409 cites W2088143209 @default.
W2046126409 cites W2088774665 @default.
W2046126409 cites W2093638125 @default.
W2046126409 cites W2096067413 @default.
W2046126409 cites W2102650234 @default.
W2046126409 cites W2107763854 @default.
W2046126409 cites W2113927644 @default.
W2046126409 cites W2113976354 @default.
W2046126409 cites W2116111996 @default.
W2046126409 cites W2138266550 @default.
W2046126409 cites W2147580778 @default.
W2046126409 cites W2155409176 @default.
W2046126409 cites W2155422485 @default.
W2046126409 cites W2158013260 @default.
W2046126409 cites W2161414255 @default.
W2046126409 cites W2168806904 @default.
W2046126409 cites W2174038367 @default.
W2046126409 cites W2188604818 @default.
W2046126409 cites W4245417432 @default.
W2046126409 doi "https://doi.org/10.1016/s1056-8719(03)00041-8" @default.
W2046126409 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/14565563" @default.
W2046126409 hasPublicationYear "2002" @default.
W2046126409 type Work @default.
W2046126409 sameAs 2046126409 @default.
W2046126409 citedByCount "109" @default.
W2046126409 countsByYear W20461264092012 @default.
W2046126409 countsByYear W20461264092013 @default.
W2046126409 countsByYear W20461264092014 @default.
W2046126409 countsByYear W20461264092015 @default.
W2046126409 countsByYear W20461264092016 @default.
W2046126409 countsByYear W20461264092017 @default.
W2046126409 countsByYear W20461264092018 @default.
W2046126409 countsByYear W20461264092019 @default.
W2046126409 countsByYear W20461264092020 @default.
W2046126409 countsByYear W20461264092021 @default.
W2046126409 countsByYear W20461264092022 @default.
W2046126409 countsByYear W20461264092023 @default.
W2046126409 crossrefType "journal-article" @default.
W2046126409 hasAuthorship W2046126409A5033294327 @default.
W2046126409 hasAuthorship W2046126409A5037737415 @default.
W2046126409 hasAuthorship W2046126409A5043507909 @default.
W2046126409 hasAuthorship W2046126409A5074434206 @default.
W2046126409 hasConcept C104317684 @default.
W2046126409 hasConcept C108305142 @default.
W2046126409 hasConcept C118441451 @default.
W2046126409 hasConcept C12554922 @default.
W2046126409 hasConcept C126322002 @default.
W2046126409 hasConcept C170493617 @default.
W2046126409 hasConcept C185592680 @default.
W2046126409 hasConcept C2778457506 @default.