SE160:/S1
From Metabolonote
Sample Set Information
| ID | TSE1319 |
|---|---|
| Title | Two glycosyltransferases involved in anthocyanin modification delineated by transcriptome independent component analysis in Arabidopsis thaliana. |
| Description | To identify candidate genes involved in Arabidopsis flavonoid biosynthesis, we applied transcriptome coexpression analysis and independent component analyses with 1388 microarray data from publicly available databases. Two glycosyltransferases, UGT79B1 and UGT84A2 were found to cluster with anthocyanin biosynthetic genes. Anthocyanin was drastically reduced in ugt79b1 knockout mutants. Recombinant UGT79B1 protein converted cyanidin 3-O-glucoside to cyanidin 3-O-xylosyl(1→2)glucoside. UGT79B1 recognized 3-O-glucosylated anthocyanidins/flavonols and uridine diphosphate (UDP)-xylose, but not 3,5-O-diglucosylated anthocyanidins, indicating that UGT79B1 encodes anthocyanin 3-O-glucoside: 2''-O-xylosyltransferase. UGT84A2 is known to encode sinapic acid: UDP-glucosyltransferase. In ugt84a2 knockout mutants, a major sinapoylated anthocyanin was drastically reduced. A comparison of anthocyanin profiles in ugt84a knockout mutants indicated that UGT84A2 plays a major role in sinapoylation of anthocyanin, and that other UGT84As contribute the production of 1-O-sinapoylglucose to a lesser extent. These data suggest major routes from cyanidin 3-O-glucoside to the most highly modified cyanidin in the potential intricate anthocyanin modification pathways in Arabidopsis. |
| Authors | Yonekura-Sakakibara K, Fukushima A, Nakabayashi R, Hanada K, Matsuda F, Sugawara S, Inoue E, Kuromori T, Ito T, Shinozaki K, Wangwattana B, Yamazaki M, Saito K. |
| Reference | Plant J. 2012 Jan;69(1):154-67. doi: 10.1111/j.1365-313X.2011.04779.x. Epub 2011 Oct 14. |
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Sample Information
| ID | S1 |
|---|---|
| Title | Arabidopsis thaliana |
| Organism - Scientific Name | Arabidopsis thaliana |
| Organism - ID | NCBI taxonomy:3702 |
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| Preparation | A. thaliana accession Columbia-0 (Lehle Seeds), or accession Nossen (Fedoroff and Smith, 1993)] were used as wild-types in this study. The mutant brt1-1 (ugt84a2-2) was described previously (Sinlapadech et al., 2007). The Arabidopsis transposon-tagged lines Ds53-4592-1 and Ds54-1263-1 for UGT79B1 (ugt79b1-1 and ugt79b1-2, respectively), and Ds11-5836-1 for UGT84A2 (ugt84a2-1) were obtained from RIKEN Bioresource Center. The T-DNA-insertion mutant GABI_765F10 for UGT84A1 (ugt84a1-1) was obtained from the Arabidopsis Biological Resource Center. Homozygous knockout lines were screened by PCR using specific primers for UGT79B1, UGT84A1, UGT84A2, Ds transposon and T-DNA: UGT79B1f, UGT79B1r, UGT84A1f, UGT84A1r, UGT84A2f, UGT84A2r, Ds5-2a, Ds3-2a, o8409, o3144. PCR products were sequenced to determine the exact insertion points. For analyses of anthocyanin accumulation, plants were cultured on one-half-strength MS-agar medium containing 1% sucrose (Valvekens et al., 1988) in a growth chamber at 22°C with 16 h/8 h light and dark cycles for 14 days with a light intensity of 40 μmol of photons m−2 s−1, then transferred on one-half-strength MS-agar medium containing 12% sucrose for 3 days with a light intensity of 80 μmol of photons m−2 s−1. Plants were harvested, immediately frozen with liquid nitrogen, and stored at −80°C until use. At least three biological replicates were used for anthocyanin analysis. |
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