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Items: 1 to 20 of 108

1.

Functional analysis of flavonoid 3'-hydroxylase and flavonoid 3',5'-hydroxylases from tea plant (Camellia sinensis), involved in the B-ring hydroxylation of flavonoids.

Guo L, Gao L, Ma X, Guo F, Ruan H, Bao Y, Xia T, Wang Y.

Gene. 2019 Oct 30;717:144046. doi: 10.1016/j.gene.2019.144046. Epub 2019 Aug 18.

PMID:
31434006
2.

Cloning and Characterization of a Flavonoid 3'-Hydroxylase Gene from Tea Plant (Camellia sinensis).

Zhou TS, Zhou R, Yu YB, Xiao Y, Li DH, Xiao B, Yu O, Yang YJ.

Int J Mol Sci. 2016 Feb 22;17(2):261. doi: 10.3390/ijms17020261.

3.

Functional analysis of flavonoid 3',5'-hydroxylase from tea plant (Camellia sinensis): critical role in the accumulation of catechins.

Wang YS, Xu YJ, Gao LP, Yu O, Wang XZ, He XJ, Jiang XL, Liu YJ, Xia T.

BMC Plant Biol. 2014 Dec 10;14:347. doi: 10.1186/s12870-014-0347-7.

4.

[Engineering of a flavonoid 3'-hydroxylase from tea plant (Camellia sinensis) for biosynthesis of B-3',4'-dihydroxylated flavones].

Zhou T, Yu Y, Xiao B, Bao L, Gao Y.

Wei Sheng Wu Xue Bao. 2017 Mar 4;57(3):447-58. Chinese.

PMID:
29756698
5.

Transcriptome Analysis Reveals Key Flavonoid 3'-Hydroxylase and Flavonoid 3',5'-Hydroxylase Genes in Affecting the Ratio of Dihydroxylated to Trihydroxylated Catechins in Camellia sinensis.

Wei K, Wang L, Zhang C, Wu L, Li H, Zhang F, Cheng H.

PLoS One. 2015 Sep 14;10(9):e0137925. doi: 10.1371/journal.pone.0137925. eCollection 2015.

6.
7.

Flower colour and cytochromes P450.

Tanaka Y, Brugliera F.

Philos Trans R Soc Lond B Biol Sci. 2013 Jan 6;368(1612):20120432. doi: 10.1098/rstb.2012.0432. Print 2013 Feb 19. Review.

8.

Isolation and functional analysis of a homolog of flavonoid 3',5'-hydroxylase gene from Pericallis × hybrida.

Sun Y, Huang H, Meng L, Hu K, Dai SL.

Physiol Plant. 2013 Oct;149(2):151-9. doi: 10.1111/ppl.12034. Epub 2013 Apr 9.

PMID:
23397982
10.

The B-ring hydroxylation pattern of anthocyanins can be determined through activity of the flavonoid 3'-hydroxylase on leucoanthocyanidins.

Schwinn K, Miosic S, Davies K, Thill J, Gotame TP, Stich K, Halbwirth H.

Planta. 2014 Nov;240(5):1003-10. doi: 10.1007/s00425-014-2166-3. Epub 2014 Oct 2.

PMID:
25269395
11.
12.

Functional natural allelic variants of flavonoid 3',5'-hydroxylase gene governing catechin traits in tea plant and its relatives.

Jin JQ, Ma JQ, Yao MZ, Ma CL, Chen L.

Planta. 2017 Mar;245(3):523-538. doi: 10.1007/s00425-016-2620-5. Epub 2016 Nov 28.

PMID:
27896431
13.

Insight into Catechins Metabolic Pathways of Camellia sinensis Based on Genome and Transcriptome Analysis.

Wang W, Zhou Y, Wu Y, Dai X, Liu Y, Qian Y, Li M, Jiang X, Wang Y, Gao L, Xia T.

J Agric Food Chem. 2018 Apr 25;66(16):4281-4293. doi: 10.1021/acs.jafc.8b00946. Epub 2018 Apr 10.

PMID:
29606002
14.

Two MYB transcription factors (CsMYB2 and CsMYB26) are involved in flavonoid biosynthesis in tea plant [Camellia sinensis (L.) O. Kuntze].

Wang WL, Wang YX, Li H, Liu ZW, Cui X, Zhuang J.

BMC Plant Biol. 2018 Nov 20;18(1):288. doi: 10.1186/s12870-018-1502-3. Erratum in: BMC Plant Biol. 2019 Jan 21;19(1):36.

15.
16.

Identification of the flavonoid hydroxylases from grapevine and their regulation during fruit development.

Bogs J, Ebadi A, McDavid D, Robinson SP.

Plant Physiol. 2006 Jan;140(1):279-91. Epub 2005 Dec 23.

17.

Functional characterization of flavonoid 3'-hydroxylase, CsF3'H, from Crocus sativus L: Insights into substrate specificity and role in abiotic stress.

Baba SA, Ashraf N.

Arch Biochem Biophys. 2019 May 30;667:70-78. doi: 10.1016/j.abb.2019.04.012. Epub 2019 May 2.

PMID:
31054842
18.

Evolutionary dynamic analyses on monocot flavonoid 3'-hydroxylase gene family reveal evidence of plant-environment interaction.

Jia Y, Li B, Zhang Y, Zhang X, Xu Y, Li C.

BMC Plant Biol. 2019 Aug 8;19(1):347. doi: 10.1186/s12870-019-1947-z.

19.
20.

Multiple evolution of flavonoid 3',5'-hydroxylase.

Seitz C, Ameres S, Schlangen K, Forkmann G, Halbwirth H.

Planta. 2015 Sep;242(3):561-73. doi: 10.1007/s00425-015-2293-5. Epub 2015 Apr 28.

PMID:
25916309

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