SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4289544761> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W4289544761 abstract "Tea plant (Camellia sinensis) has very long history of cultivation and abundant germplasm resources in China. Purple bud is a characteristic variety, which has attracted the attention of breeding researchers because it accumulated a large number of anthocyanins naturally. In many species, R2R3-MYB transcription factors (TFs) were proved to be involved in the regulation of anthocyanin biosynthesis. Research on anthocyanin metabolism has been relatively clear in some species, but that needs to be further elucidated in tea plants. In this research, an R2R3-MYB transcription factor CsMYB113 related to the anthocyanin accumulation regulation was identified from tea plants. Spatial and temporal expression analysis revealed differential expression of CsMYB113 among different tissues and organs, with highest expression occurring in the roots. Subcellular localization assays showed that CsMYB113 localized in the nucleus. Ectopic expression of CsMYB113 increased pigmentation and anthocyanin contents by the upregulation of the expression levels of genes in anthocyanin biosynthesis pathway among different tissues of Arabidopsis. Moreover, transient overexpression of 35S::CsMYB113 in tea plant increased the anthocyanin contents in the leaves. Our results indicated that CsMYB113 plays important role in the anthocyanin biosynthesis regulation in tea plants. It will also provide useful candidate gene for the modification of anthocyanin metabolism by genetic engineering in plants." @default.
W4289544761 created "2022-08-03" @default.
W4289544761 creator A5015336322 @default.
W4289544761 creator A5027198804 @default.
W4289544761 creator A5037277189 @default.
W4289544761 creator A5057796196 @default.
W4289544761 creator A5065859286 @default.
W4289544761 date "2022-08-03" @default.
W4289544761 modified "2023-10-16" @default.
W4289544761 title "Characterization of the R2R3-MYB Transcription Factor CsMYB113 Regulates Anthocyanin Biosynthesis in Tea Plants (Camellia sinensis)" @default.
W4289544761 cites W1604130104 @default.
W4289544761 cites W1825519549 @default.
W4289544761 cites W1963944394 @default.
W4289544761 cites W1967847690 @default.
W4289544761 cites W1977212953 @default.
W4289544761 cites W1983580022 @default.
W4289544761 cites W1986340844 @default.
W4289544761 cites W2002712030 @default.
W4289544761 cites W2008284551 @default.
W4289544761 cites W2009409976 @default.
W4289544761 cites W2021103203 @default.
W4289544761 cites W2033863253 @default.
W4289544761 cites W2036028864 @default.
W4289544761 cites W2040075215 @default.
W4289544761 cites W2042176464 @default.
W4289544761 cites W2048771537 @default.
W4289544761 cites W2058180861 @default.
W4289544761 cites W2061136474 @default.
W4289544761 cites W2072953684 @default.
W4289544761 cites W2076133351 @default.
W4289544761 cites W2081050496 @default.
W4289544761 cites W2084399376 @default.
W4289544761 cites W2089641646 @default.
W4289544761 cites W2090663893 @default.
W4289544761 cites W2092806862 @default.
W4289544761 cites W2099808035 @default.
W4289544761 cites W2107277218 @default.
W4289544761 cites W2107558927 @default.
W4289544761 cites W2115567773 @default.
W4289544761 cites W2116122104 @default.
W4289544761 cites W2118929335 @default.
W4289544761 cites W2119749921 @default.
W4289544761 cites W2126005847 @default.
W4289544761 cites W2134235140 @default.
W4289544761 cites W2134891784 @default.
W4289544761 cites W2138518206 @default.
W4289544761 cites W2140519760 @default.
W4289544761 cites W2150630769 @default.
W4289544761 cites W2151326256 @default.
W4289544761 cites W2263431729 @default.
W4289544761 cites W2321460564 @default.
W4289544761 cites W2440541159 @default.
W4289544761 cites W2514015068 @default.
W4289544761 cites W2581567088 @default.
W4289544761 cites W2594288792 @default.
W4289544761 cites W2624827669 @default.
W4289544761 cites W2748087281 @default.
W4289544761 cites W2789423362 @default.
W4289544761 cites W2792470984 @default.
W4289544761 cites W2800563766 @default.
W4289544761 cites W2806567230 @default.
W4289544761 cites W2898638035 @default.
W4289544761 cites W2900998174 @default.
W4289544761 cites W2904074152 @default.
W4289544761 cites W2904572308 @default.
W4289544761 cites W2907912795 @default.
W4289544761 cites W2949206574 @default.
W4289544761 cites W2955650548 @default.
W4289544761 cites W3022601860 @default.
W4289544761 cites W3027323412 @default.
W4289544761 cites W3034383195 @default.
W4289544761 cites W3094663765 @default.
W4289544761 cites W3110592651 @default.
W4289544761 cites W3116319607 @default.
W4289544761 cites W3118837130 @default.
W4289544761 cites W3148548143 @default.
W4289544761 cites W861117788 @default.
W4289544761 doi "https://doi.org/10.1007/s11105-022-01348-4" @default.
W4289544761 hasPublicationYear "2022" @default.
W4289544761 type Work @default.
W4289544761 citedByCount "0" @default.
W4289544761 crossrefType "journal-article" @default.
W4289544761 hasAuthorship W4289544761A5015336322 @default.
W4289544761 hasAuthorship W4289544761A5027198804 @default.
W4289544761 hasAuthorship W4289544761A5037277189 @default.
W4289544761 hasAuthorship W4289544761A5057796196 @default.
W4289544761 hasAuthorship W4289544761A5065859286 @default.
W4289544761 hasBestOaLocation W42895447612 @default.
W4289544761 hasConcept C104317684 @default.
W4289544761 hasConcept C143065580 @default.
W4289544761 hasConcept C2778945092 @default.
W4289544761 hasConcept C2779491563 @default.
W4289544761 hasConcept C2992816389 @default.
W4289544761 hasConcept C5527404 @default.
W4289544761 hasConcept C55493867 @default.
W4289544761 hasConcept C59822182 @default.
W4289544761 hasConcept C62794011 @default.
W4289544761 hasConcept C86339819 @default.
W4289544761 hasConcept C86803240 @default.
W4289544761 hasConcept C95444343 @default.