SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3148548143> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W3148548143 endingPage "1578" @default.
W3148548143 startingPage "1565" @default.
W3148548143 abstract "MYB transcription factors play essential roles in many biological processes and environmental stimuli. However, the functions of the MYB transcription factor family in tea plants have not been elucidated. Here, a total of 122 CsR2R3-MYB genes were identified from the chromosome level genome of tea plant (Camellia sinensis). The CsR2R3-MYB genes were phylogenetically classified into 25 groups. Results from the structure analysis of the gene, conserved motifs, and chromosomal distribution supported the relative conservation of the R2R3-MYB genes family in the tea plant. Synteny analysis indicated that 122, 34, and 112 CsR2R3-MYB genes were orthologous to Arabidopsis thaliana, Oryza sativa and C. sinensis var. 'huangdan' (HD), respectively. Tissue-specific expression showed that all CsR2R3-MYB genes had different expression patterns in the tea plant tissues, indicating that these genes may perform diverse functions. The expression patterns of representative R2R3-MYB genes and the regulatory network of the main anthocyanin components were analyzed, which suggested that CsMYB17 may played a key role in the regulation of cya-3-O-gal, del-3-O-gal, cya-3-O-glu and pel-3-O-glu. Results from the qRT-PCR validation of selected genes suggested that CsR2R3-MYB genes were induced in response to drought, cold, GA, and ABA treatments. Overall, this study provides comprehensive and systematic information for research on the function of R2R3-MYB genes in tea plants." @default.
W3148548143 created "2021-04-13" @default.
W3148548143 creator A5031622594 @default.
W3148548143 creator A5039711749 @default.
W3148548143 creator A5042408196 @default.
W3148548143 creator A5055845600 @default.
W3148548143 creator A5056848609 @default.
W3148548143 creator A5057721383 @default.
W3148548143 creator A5073274032 @default.
W3148548143 creator A5088031350 @default.
W3148548143 creator A5089991006 @default.
W3148548143 date "2021-05-01" @default.
W3148548143 modified "2023-10-14" @default.
W3148548143 title "R2R3-MYB transcription factor family in tea plant (Camellia sinensis): Genome-wide characterization, phylogeny, chromosome location, structure and expression patterns" @default.
W3148548143 cites W1604130104 @default.
W3148548143 cites W1944597845 @default.
W3148548143 cites W1965172979 @default.
W3148548143 cites W1965514968 @default.
W3148548143 cites W1968816051 @default.
W3148548143 cites W1980111781 @default.
W3148548143 cites W2000831316 @default.
W3148548143 cites W2012683495 @default.
W3148548143 cites W2019727923 @default.
W3148548143 cites W2024215796 @default.
W3148548143 cites W2034138170 @default.
W3148548143 cites W2035908878 @default.
W3148548143 cites W2038747714 @default.
W3148548143 cites W2050868083 @default.
W3148548143 cites W2054141518 @default.
W3148548143 cites W2065310427 @default.
W3148548143 cites W2092806862 @default.
W3148548143 cites W2107277218 @default.
W3148548143 cites W2118578832 @default.
W3148548143 cites W2119082311 @default.
W3148548143 cites W2133316034 @default.
W3148548143 cites W2147533449 @default.
W3148548143 cites W2152972832 @default.
W3148548143 cites W2157009395 @default.
W3148548143 cites W2158173168 @default.
W3148548143 cites W2319338047 @default.
W3148548143 cites W2467349712 @default.
W3148548143 cites W2527889170 @default.
W3148548143 cites W2527891094 @default.
W3148548143 cites W2544376285 @default.
W3148548143 cites W2583735774 @default.
W3148548143 cites W2613124360 @default.
W3148548143 cites W2724733055 @default.
W3148548143 cites W2761688050 @default.
W3148548143 cites W2799524357 @default.
W3148548143 cites W2883030905 @default.
W3148548143 cites W2891135587 @default.
W3148548143 cites W2899234186 @default.
W3148548143 cites W2901418949 @default.
W3148548143 cites W2918063357 @default.
W3148548143 cites W2938653315 @default.
W3148548143 cites W2945068199 @default.
W3148548143 cites W2946717857 @default.
W3148548143 cites W2966244757 @default.
W3148548143 cites W2967392465 @default.
W3148548143 cites W2969032468 @default.
W3148548143 cites W2974553137 @default.
W3148548143 cites W2980729496 @default.
W3148548143 cites W2980892398 @default.
W3148548143 cites W2981278069 @default.
W3148548143 cites W2987590851 @default.
W3148548143 cites W2996040680 @default.
W3148548143 cites W2996133813 @default.
W3148548143 cites W2998033287 @default.
W3148548143 cites W3006136674 @default.
W3148548143 cites W3015363306 @default.
W3148548143 cites W3020839247 @default.
W3148548143 cites W3023538914 @default.
W3148548143 cites W3028194724 @default.
W3148548143 cites W3028814955 @default.
W3148548143 cites W3032143849 @default.
W3148548143 cites W3033443443 @default.
W3148548143 cites W3034915880 @default.
W3148548143 cites W3036319615 @default.
W3148548143 cites W3037227331 @default.
W3148548143 cites W3044626583 @default.
W3148548143 cites W3048963608 @default.
W3148548143 cites W3082389303 @default.
W3148548143 cites W3157793504 @default.
W3148548143 cites W3159831038 @default.
W3148548143 doi "https://doi.org/10.1016/j.ygeno.2021.03.033" @default.
W3148548143 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33819564" @default.
W3148548143 hasPublicationYear "2021" @default.
W3148548143 type Work @default.
W3148548143 sameAs 3148548143 @default.
W3148548143 citedByCount "43" @default.
W3148548143 countsByYear W31485481432021 @default.
W3148548143 countsByYear W31485481432022 @default.
W3148548143 countsByYear W31485481432023 @default.
W3148548143 crossrefType "journal-article" @default.
W3148548143 hasAuthorship W3148548143A5031622594 @default.
W3148548143 hasAuthorship W3148548143A5039711749 @default.
W3148548143 hasAuthorship W3148548143A5042408196 @default.
W3148548143 hasAuthorship W3148548143A5055845600 @default.