FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2011809723> ?p ?o ?g. }

• W2011809723 endingPage "108" @default.
• W2011809723 startingPage "98" @default.
• W2011809723 abstract "The color change of electroporated intact immunoglobulin G receptor− (FcγR−) mouse B cells (line IIA1.6) after direct electroporative transfer of the dye SERVA blue G (Mr 854) into the cell interior is shown to be dominantly due to diffusion of the dye after the electric field pulse. Hence the dye transport is described by Fick's first law, where, as a novelty, time-integrated flow coefficients are introduced. The chemical-kinetic analysis uses three different pore states (P) in the reaction cascade (C ⇄P1 ⇄ P2 ⇄ P3), to model the sigmoid kinetics of pore formation as well as the biphasic pore resealing. The rate coefficient for pore formation kp is dependent on the external electric field strength E and pulse duration tE. At E = 2.1 kV cm−1 and tE = 200 μs, kp = (2.4 ± 0.2) × 103 s−1 at T = 293 K; the respective (field-dependent) flow coefficient and permeability coefficient are kf0 = (1.0 ± 0.1) × 10−2 s−1 and P0 = 2 cm s−1, respectively. The maximum value of the fractional surface area of the dye-conductive pores is 0.035 ± 0.003%, and the maximum pore number is Np = (1.5 ± 0.1) × 105 per average cell. The diffusion coefficient for SERVA blue G, D = 10−6 cm2 s−1, is slightly smaller than that of free dye diffusion, indicating transient interaction of the dye with the pore lipids during translocation. The mean radii of the three pore states are r¯(P1)=0.7±0.1nm, r¯(P2)=1.0±0.1nm, and r¯(P3)=1.2±0.1nm, respectively. The resealing rate coefficients are k−2 = (4.0 ± 0.5) × 10−2 s−1 and k−3 = (4.5 ± 0.5) × 10−3 s−1, independent of E. At zero field, the equilibrium constant of the pore states (P) relative to closed membrane states (C) is Kp0 = [(P)]/[C] = 0.02 ± 0.002, indicating 2.0 ± 0.2% water associated with the lipid membrane. Finally, the results of SERVA blue G cell coloring and the new analytical framework may also serve as a guideline for the optimization of the electroporative delivery of drugs that are similar in structure to SERVA blue G, for instance, bleomycin, which has been used successfully in the new discipline of electrochemotherapy." @default.
• W2011809723 created "2016-06-24" @default.
• W2011809723 creator A5043853633 @default.
• W2011809723 creator A5045846851 @default.
• W2011809723 creator A5066614481 @default.
• W2011809723 creator A5080180864 @default.
• W2011809723 creator A5091430260 @default.
• W2011809723 date "1998-01-01" @default.
• W2011809723 modified "2023-10-14" @default.
• W2011809723 title "Mechanism of Electroporative Dye Uptake by Mouse B Cells" @default.
• W2011809723 cites W1490324405 @default.
• W2011809723 cites W1963876991 @default.
• W2011809723 cites W1966300087 @default.
• W2011809723 cites W1970128240 @default.
• W2011809723 cites W1973142530 @default.
• W2011809723 cites W1976339696 @default.
• W2011809723 cites W1981579055 @default.
• W2011809723 cites W1984215847 @default.
• W2011809723 cites W1990451546 @default.
• W2011809723 cites W1998958973 @default.
• W2011809723 cites W1999525762 @default.
• W2011809723 cites W2002232406 @default.
• W2011809723 cites W2008800998 @default.
• W2011809723 cites W2010571100 @default.
• W2011809723 cites W2015707217 @default.
• W2011809723 cites W2064858944 @default.
• W2011809723 cites W2071747332 @default.
• W2011809723 cites W2072397057 @default.
• W2011809723 cites W2075127196 @default.
• W2011809723 cites W2081361234 @default.
• W2011809723 cites W2082781273 @default.
• W2011809723 cites W2084640738 @default.
• W2011809723 cites W2085797204 @default.
• W2011809723 cites W2089491008 @default.
• W2011809723 cites W2091443281 @default.
• W2011809723 cites W2097400197 @default.
• W2011809723 cites W2100820352 @default.
• W2011809723 cites W2122403963 @default.
• W2011809723 cites W2128635872 @default.
• W2011809723 cites W2298438842 @default.
• W2011809723 cites W4235171961 @default.
• W2011809723 cites W4243218694 @default.
• W2011809723 cites W4293247451 @default.
• W2011809723 cites W4760336 @default.
• W2011809723 doi "https://doi.org/10.1016/s0006-3495(98)77771-9" @default.
• W2011809723 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/1299366" @default.
• W2011809723 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/9449314" @default.
• W2011809723 hasPublicationYear "1998" @default.
• W2011809723 type Work @default.
• W2011809723 sameAs 2011809723 @default.
• W2011809723 citedByCount "135" @default.
• W2011809723 countsByYear W20118097232012 @default.
• W2011809723 countsByYear W20118097232013 @default.
• W2011809723 countsByYear W20118097232014 @default.
• W2011809723 countsByYear W20118097232015 @default.
• W2011809723 countsByYear W20118097232016 @default.
• W2011809723 countsByYear W20118097232017 @default.
• W2011809723 countsByYear W20118097232018 @default.
• W2011809723 countsByYear W20118097232019 @default.
• W2011809723 countsByYear W20118097232020 @default.
• W2011809723 countsByYear W20118097232021 @default.
• W2011809723 countsByYear W20118097232022 @default.
• W2011809723 countsByYear W20118097232023 @default.
• W2011809723 crossrefType "journal-article" @default.
• W2011809723 hasAuthorship W2011809723A5043853633 @default.
• W2011809723 hasAuthorship W2011809723A5045846851 @default.
• W2011809723 hasAuthorship W2011809723A5066614481 @default.
• W2011809723 hasAuthorship W2011809723A5080180864 @default.
• W2011809723 hasAuthorship W2011809723A5091430260 @default.
• W2011809723 hasBestOaLocation W20118097231 @default.
• W2011809723 hasConcept C113196181 @default.
• W2011809723 hasConcept C121332964 @default.
• W2011809723 hasConcept C148898269 @default.
• W2011809723 hasConcept C185592680 @default.
• W2011809723 hasConcept C43617362 @default.
• W2011809723 hasConcept C60799052 @default.
• W2011809723 hasConcept C62520636 @default.
• W2011809723 hasConcept C69357855 @default.
• W2011809723 hasConcept C97355855 @default.
• W2011809723 hasConceptScore W2011809723C113196181 @default.
• W2011809723 hasConceptScore W2011809723C121332964 @default.
• W2011809723 hasConceptScore W2011809723C148898269 @default.
• W2011809723 hasConceptScore W2011809723C185592680 @default.
• W2011809723 hasConceptScore W2011809723C43617362 @default.
• W2011809723 hasConceptScore W2011809723C60799052 @default.
• W2011809723 hasConceptScore W2011809723C62520636 @default.
• W2011809723 hasConceptScore W2011809723C69357855 @default.
• W2011809723 hasConceptScore W2011809723C97355855 @default.
• W2011809723 hasIssue "1" @default.
• W2011809723 hasLocation W20118097231 @default.
• W2011809723 hasLocation W20118097232 @default.
• W2011809723 hasLocation W20118097233 @default.
• W2011809723 hasLocation W20118097234 @default.
• W2011809723 hasOpenAccess W2011809723 @default.
• W2011809723 hasPrimaryLocation W20118097231 @default.
• W2011809723 hasRelatedWork W1531601525 @default.
• W2011809723 hasRelatedWork W2319480705 @default.
• W2011809723 hasRelatedWork W2384464875 @default.

• next