SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1566556189> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W1566556189 endingPage "325" @default.
W1566556189 startingPage "297" @default.
W1566556189 abstract "This chapter focuses on the development and use of protein chimeras (derived from proteins naturally present in the medusa, aequorea victoria) that are specifically targeted to the mitochondria, either to the matrix or to the intermembrane space, and can be used to monitor calcium and pH. Aequorin, the pioneer of the targeted recombinant probes, is a Ca2+-sensitive photoprotein that emits light on binding of Ca2+ to its three high affinities Ca2+-binding sites. The chapter describes the use of mutants of green fluorescent protein as Ca2+ and pH probes. Genetically encoded biosensors (chimeric proteins) are intracellular probes of physiological parameters endowed with unique advantages. The advantages include the ability to measure intracellular parameters (such as Ca2+and pH) at specific intracellular sites, with little background signal and no probe leakage. Additionally, the use of biosensors is not associated with the toxicity observes with many chemical probes nor with the need of invasive loading procedures. Furthermore, an ideal intracellular probe should be stable, have high parameter sensitivity and specificity, rapid signal response to parameter changes, and good luminescent/optical properties." @default.
W1566556189 created "2016-06-24" @default.
W1566556189 creator A5015723692 @default.
W1566556189 creator A5027748782 @default.
W1566556189 creator A5063492199 @default.
W1566556189 creator A5066587506 @default.
W1566556189 creator A5070894673 @default.
W1566556189 date "2007-01-01" @default.
W1566556189 modified "2023-10-04" @default.
W1566556189 title "Biosensors for the Detection of Calcium and pH" @default.
W1566556189 cites W1485297825 @default.
W1566556189 cites W1529296018 @default.
W1566556189 cites W1542263802 @default.
W1566556189 cites W1546500238 @default.
W1566556189 cites W1550247880 @default.
W1566556189 cites W1551064372 @default.
W1566556189 cites W1573314270 @default.
W1566556189 cites W1594829953 @default.
W1566556189 cites W1598802541 @default.
W1566556189 cites W1599277155 @default.
W1566556189 cites W1600993549 @default.
W1566556189 cites W1920479129 @default.
W1566556189 cites W1939705865 @default.
W1566556189 cites W1963791094 @default.
W1566556189 cites W1963943602 @default.
W1566556189 cites W1963957340 @default.
W1566556189 cites W1965270044 @default.
W1566556189 cites W1967375771 @default.
W1566556189 cites W1972063745 @default.
W1566556189 cites W1972733192 @default.
W1566556189 cites W1979717194 @default.
W1566556189 cites W1980726951 @default.
W1566556189 cites W1985730861 @default.
W1566556189 cites W1986124091 @default.
W1566556189 cites W1986568749 @default.
W1566556189 cites W1994021407 @default.
W1566556189 cites W1996744375 @default.
W1566556189 cites W2000558048 @default.
W1566556189 cites W2001915797 @default.
W1566556189 cites W2002360833 @default.
W1566556189 cites W2006685379 @default.
W1566556189 cites W2013151879 @default.
W1566556189 cites W2013412105 @default.
W1566556189 cites W2018014993 @default.
W1566556189 cites W2028459220 @default.
W1566556189 cites W2032579724 @default.
W1566556189 cites W2032781637 @default.
W1566556189 cites W2034862605 @default.
W1566556189 cites W2036515173 @default.
W1566556189 cites W2037693401 @default.
W1566556189 cites W2038756774 @default.
W1566556189 cites W2039168518 @default.
W1566556189 cites W2046016490 @default.
W1566556189 cites W2046196975 @default.
W1566556189 cites W2046353863 @default.
W1566556189 cites W2046954014 @default.
W1566556189 cites W2048649216 @default.
W1566556189 cites W2053921060 @default.
W1566556189 cites W2057315336 @default.
W1566556189 cites W2062521990 @default.
W1566556189 cites W2062919057 @default.
W1566556189 cites W2073706613 @default.
W1566556189 cites W2077835601 @default.
W1566556189 cites W2080312195 @default.
W1566556189 cites W2084312697 @default.
W1566556189 cites W2084918846 @default.
W1566556189 cites W2086101155 @default.
W1566556189 cites W2086486507 @default.
W1566556189 cites W2087701360 @default.
W1566556189 cites W2090425674 @default.
W1566556189 cites W2092510248 @default.
W1566556189 cites W2094247127 @default.
W1566556189 cites W2115322996 @default.
W1566556189 cites W2117631539 @default.
W1566556189 cites W2127730547 @default.
W1566556189 cites W2128270335 @default.
W1566556189 cites W2141000153 @default.
W1566556189 cites W2141188578 @default.
W1566556189 cites W2153609006 @default.
W1566556189 cites W2157199084 @default.
W1566556189 cites W2161687969 @default.
W1566556189 cites W2161996750 @default.
W1566556189 cites W2171183626 @default.
W1566556189 cites W2176061808 @default.
W1566556189 cites W4236962085 @default.
W1566556189 cites W4238605098 @default.
W1566556189 cites W66362777 @default.
W1566556189 doi "https://doi.org/10.1016/s0091-679x(06)80015-4" @default.
W1566556189 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/17445701" @default.
W1566556189 hasPublicationYear "2007" @default.
W1566556189 type Work @default.
W1566556189 sameAs 1566556189 @default.
W1566556189 citedByCount "81" @default.
W1566556189 countsByYear W15665561892012 @default.
W1566556189 countsByYear W15665561892013 @default.
W1566556189 countsByYear W15665561892014 @default.
W1566556189 countsByYear W15665561892015 @default.
W1566556189 countsByYear W15665561892016 @default.