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W1993859096 endingPage "18766" @default.
W1993859096 startingPage "18747" @default.
W1993859096 abstract "Higher plants can produce a wide variety of anthocyanin molecules through modification of the six common anthocyanin aglycons that they present. Thus, hydrophilic anthocyanin molecules can be formed and stabilized by glycosylation and acylation. Two types of glycosyltransferase (GT) and acyltransferase (AT) have been identified, namely cytoplasmic GT and AT and vacuolar GT and AT. Cytoplasmic GT and AT utilize UDP-sugar and acyl-CoA as donor molecules, respectively, whereas both vacuolar GT and AT use acyl-glucoses as donor molecules. In carnation plants, vacuolar GT uses aromatic acyl-glucoses as the glucose donor in vivo; independently, vacuolar AT uses malylglucose, an aliphatic acyl-glucose, as the acyl-donor. In delphinium and Arabidopsis, p-hydroxybenzoylglucose and sinapoylglucose are used in vivo as bi-functional donor molecules by vacuolar GT and AT, respectively. The evolution of these enzymes has allowed delphinium and Arabidopsis to utilize unique donor molecules for production of highly modified anthocyanins." @default.
W1993859096 created "2016-06-24" @default.
W1993859096 creator A5019229607 @default.
W1993859096 creator A5057882189 @default.
W1993859096 creator A5060253251 @default.
W1993859096 creator A5072659387 @default.
W1993859096 date "2014-11-14" @default.
W1993859096 modified "2023-10-11" @default.
W1993859096 title "The Role of Acyl-Glucose in Anthocyanin Modifications" @default.
W1993859096 cites W1553943686 @default.
W1993859096 cites W1585759024 @default.
W1993859096 cites W1954249517 @default.
W1993859096 cites W1965699875 @default.
W1993859096 cites W1969335119 @default.
W1993859096 cites W1972548303 @default.
W1993859096 cites W1973609293 @default.
W1993859096 cites W1973877510 @default.
W1993859096 cites W1983027159 @default.
W1993859096 cites W1988416548 @default.
W1993859096 cites W1994170944 @default.
W1993859096 cites W1996151999 @default.
W1993859096 cites W1997613651 @default.
W1993859096 cites W1999571773 @default.
W1993859096 cites W2006246534 @default.
W1993859096 cites W2006882227 @default.
W1993859096 cites W2008386279 @default.
W1993859096 cites W2014035737 @default.
W1993859096 cites W2015522755 @default.
W1993859096 cites W2015577624 @default.
W1993859096 cites W2020298502 @default.
W1993859096 cites W2021651631 @default.
W1993859096 cites W2022965367 @default.
W1993859096 cites W2029955987 @default.
W1993859096 cites W2034085081 @default.
W1993859096 cites W2035888287 @default.
W1993859096 cites W2057094114 @default.
W1993859096 cites W2058430864 @default.
W1993859096 cites W2059389664 @default.
W1993859096 cites W2059533794 @default.
W1993859096 cites W2060229948 @default.
W1993859096 cites W2065657952 @default.
W1993859096 cites W2069649651 @default.
W1993859096 cites W2073051705 @default.
W1993859096 cites W2077603133 @default.
W1993859096 cites W2083003041 @default.
W1993859096 cites W2085650790 @default.
W1993859096 cites W2091525621 @default.
W1993859096 cites W2092411965 @default.
W1993859096 cites W2100137946 @default.
W1993859096 cites W2102288397 @default.
W1993859096 cites W2104859889 @default.
W1993859096 cites W2108650147 @default.
W1993859096 cites W2111311001 @default.
W1993859096 cites W2111588690 @default.
W1993859096 cites W2113002821 @default.
W1993859096 cites W2115831900 @default.
W1993859096 cites W2119757919 @default.
W1993859096 cites W2120263424 @default.
W1993859096 cites W2125647971 @default.
W1993859096 cites W2126452412 @default.
W1993859096 cites W2128406883 @default.
W1993859096 cites W2129231109 @default.
W1993859096 cites W2130111617 @default.
W1993859096 cites W2133611895 @default.
W1993859096 cites W2134466962 @default.
W1993859096 cites W2140172549 @default.
W1993859096 cites W2147126600 @default.
W1993859096 cites W2147241419 @default.
W1993859096 cites W2150144155 @default.
W1993859096 cites W2154893327 @default.
W1993859096 cites W2160410423 @default.
W1993859096 cites W2161952812 @default.
W1993859096 cites W2162381034 @default.
W1993859096 cites W2164643580 @default.
W1993859096 cites W2164968870 @default.
W1993859096 cites W2314721472 @default.
W1993859096 cites W2335467217 @default.
W1993859096 cites W2400043655 @default.
W1993859096 cites W2949598284 @default.
W1993859096 doi "https://doi.org/10.3390/molecules191118747" @default.
W1993859096 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6271837" @default.
W1993859096 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25405291" @default.
W1993859096 hasPublicationYear "2014" @default.
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