SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1496830289> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W1496830289 endingPage "328" @default.
W1496830289 startingPage "311" @default.
W1496830289 abstract "The determination of accurate oxygen-binding curves for heme-containing proteins is a demanding task. In fact, great care is required in the (i) preparation of accurate gas mixtures at defined oxygen partial pressures, (ii) precise measurement of changes in protein absorbance, (iii) calculation of the fraction of oxygen-containing sites, and (iv) analysis of the dependence of fractional saturation on oxygen pressure using phenomenological or model-dependent equations. Over the years, methods have been developed for the determination of oxygen-binding curves based either on discrete steps in oxygen partial pressure (static method) or on continuous variations (dynamic method). This work presents a novel, versatile setup that allows one to determine oxygen-binding curves for heme and nonheme proteins in solution, encapsulated in wet, nanoporous silica gels, in the crystalline state, and for hemoglobin within single red blood cells. The apparatus is composed of a tandem of high-precision gas mixture generators and either an equilibration chamber coupled to a spectrophotometer cuvette or a gas-tight flow cell, placed on the stage of a microspectrophotometer, for immobilized samples down to a few micrometers in size." @default.
W1496830289 created "2016-06-24" @default.
W1496830289 creator A5045312828 @default.
W1496830289 creator A5045346677 @default.
W1496830289 creator A5053290665 @default.
W1496830289 creator A5063994789 @default.
W1496830289 creator A5066901937 @default.
W1496830289 date "2008-01-01" @default.
W1496830289 modified "2023-10-16" @default.
W1496830289 title "Oxygen Binding to Heme Proteins in Solution, Encapsulated in Silica Gels, and in the Crystalline State" @default.
W1496830289 cites W1556562359 @default.
W1496830289 cites W1572783132 @default.
W1496830289 cites W1615932296 @default.
W1496830289 cites W1620326518 @default.
W1496830289 cites W1692953736 @default.
W1496830289 cites W1736571473 @default.
W1496830289 cites W1967871661 @default.
W1496830289 cites W1969361812 @default.
W1496830289 cites W1974139041 @default.
W1496830289 cites W1979675908 @default.
W1496830289 cites W1991027810 @default.
W1496830289 cites W1994878383 @default.
W1496830289 cites W1997440251 @default.
W1496830289 cites W1998093640 @default.
W1496830289 cites W1998876039 @default.
W1496830289 cites W2006060079 @default.
W1496830289 cites W2007214870 @default.
W1496830289 cites W2008645916 @default.
W1496830289 cites W2010258492 @default.
W1496830289 cites W2014898375 @default.
W1496830289 cites W2016433025 @default.
W1496830289 cites W2017943437 @default.
W1496830289 cites W2018252877 @default.
W1496830289 cites W2018930134 @default.
W1496830289 cites W2023724879 @default.
W1496830289 cites W2029235042 @default.
W1496830289 cites W2043882632 @default.
W1496830289 cites W2044466209 @default.
W1496830289 cites W2044468923 @default.
W1496830289 cites W2045845803 @default.
W1496830289 cites W2049843026 @default.
W1496830289 cites W2052868059 @default.
W1496830289 cites W2057293867 @default.
W1496830289 cites W2057296190 @default.
W1496830289 cites W2059686384 @default.
W1496830289 cites W2065730495 @default.
W1496830289 cites W2073368881 @default.
W1496830289 cites W2075179290 @default.
W1496830289 cites W2080102647 @default.
W1496830289 cites W2109356155 @default.
W1496830289 cites W2116695133 @default.
W1496830289 cites W2125348879 @default.
W1496830289 cites W2129488384 @default.
W1496830289 cites W2162120617 @default.
W1496830289 cites W2178232874 @default.
W1496830289 cites W2242472648 @default.
W1496830289 cites W2328195003 @default.
W1496830289 cites W966671179 @default.
W1496830289 cites W988504453 @default.
W1496830289 doi "https://doi.org/10.1016/s0076-6879(07)37016-x" @default.
W1496830289 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18433635" @default.
W1496830289 hasPublicationYear "2008" @default.
W1496830289 type Work @default.
W1496830289 sameAs 1496830289 @default.
W1496830289 citedByCount "29" @default.
W1496830289 countsByYear W14968302892012 @default.
W1496830289 countsByYear W14968302892013 @default.
W1496830289 countsByYear W14968302892014 @default.
W1496830289 countsByYear W14968302892015 @default.
W1496830289 countsByYear W14968302892016 @default.
W1496830289 countsByYear W14968302892017 @default.
W1496830289 countsByYear W14968302892018 @default.
W1496830289 countsByYear W14968302892019 @default.
W1496830289 countsByYear W14968302892020 @default.
W1496830289 countsByYear W14968302892022 @default.
W1496830289 countsByYear W14968302892023 @default.
W1496830289 crossrefType "book-chapter" @default.
W1496830289 hasAuthorship W1496830289A5045312828 @default.
W1496830289 hasAuthorship W1496830289A5045346677 @default.
W1496830289 hasAuthorship W1496830289A5053290665 @default.
W1496830289 hasAuthorship W1496830289A5063994789 @default.
W1496830289 hasAuthorship W1496830289A5066901937 @default.
W1496830289 hasConcept C113196181 @default.
W1496830289 hasConcept C121332964 @default.
W1496830289 hasConcept C178790620 @default.
W1496830289 hasConcept C181199279 @default.
W1496830289 hasConcept C185592680 @default.
W1496830289 hasConcept C2776217839 @default.
W1496830289 hasConcept C2778917026 @default.
W1496830289 hasConcept C37160838 @default.
W1496830289 hasConcept C43617362 @default.
W1496830289 hasConcept C48940184 @default.
W1496830289 hasConcept C540031477 @default.
W1496830289 hasConcept C62520636 @default.
W1496830289 hasConcept C68463220 @default.
W1496830289 hasConcept C98015330 @default.
W1496830289 hasConceptScore W1496830289C113196181 @default.
W1496830289 hasConceptScore W1496830289C121332964 @default.