SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3115659764> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W3115659764 abstract "Abstract Background Domain of unknown function 668 (DUF668) may play a crucial role in the plant growth and developmental response to adverse stress. However, our knowledge of the function of the DUF668 gene family is limited. Results Our study was conducted based on the DUF668 gene family identified from cotton genome sequencing. Phylogenetic analysis showed that the DUF668 family genes can be classified into four subgroups in cotton. We identified 32 DUF668 genes, which are distributed on 17 chromosomes and most of them located in the nucleus of Gossypium hirsutum. Gene structure and motif analyses revealed that the members of the DUF668 gene family can be clustered in G. hirsutum into two broad groups, which are relatively evolutionarily conserved. Transcriptome data analysis showed that the GhDUF668 genes are differentially expressed in different tissues under various stresses (cold, heat, drought, salt, and Verticillium dahliae ), and expression is generally increased in roots and stems. Promoter and expression analyses indicated that Gh_DUF668–05, Gh_DUF668–08, Gh_DUF668–11, Gh_DUF668–23 and Gh_DUF668–28 in G. hirsutum might have evolved resistance to adverse stress. Additionally, qRT-PCR revealed that these 5 genes in four cotton lines, KK1543 (drought resistant), Xinluzao 26 (drought sensitive), Zhongzhimian 2 (disease resistant) and Simian 3 (susceptible), under drought and Verticillium wilt stress were all significantly induced. Roots had the highest expression of these 5 genes before and after the treatment. Among them, the expression levels of Gh_DUF668–08 and Gh_DUF668–23 increased sharply at 6 h and reached a maximum at 12 h under biotic and abiotic stress, which showed that they might be involved in the process of adverse stress resistance in cotton. Conclusion The significant changes in GhDUF668 expression in the roots after adverse stress indicate that GhDUF668 is likely to increase plant resistance to stress. This study provides an important theoretical basis for further research on the function of the DUF668 gene family and the molecular mechanism of adverse stress resistance in cotton." @default.
W3115659764 created "2021-01-05" @default.
W3115659764 creator A5048050496 @default.
W3115659764 creator A5049078993 @default.
W3115659764 creator A5057866869 @default.
W3115659764 creator A5061534935 @default.
W3115659764 creator A5062620367 @default.
W3115659764 creator A5063654057 @default.
W3115659764 creator A5065195216 @default.
W3115659764 creator A5067911069 @default.
W3115659764 creator A5076296503 @default.
W3115659764 creator A5081125085 @default.
W3115659764 date "2021-05-27" @default.
W3115659764 modified "2023-10-16" @default.
W3115659764 title "Genome-wide identification of the DUF668 gene family in cotton and expression profiling analysis of GhDUF668 in Gossypium hirsutum under adverse stress" @default.
W3115659764 cites W1516345438 @default.
W3115659764 cites W1908375572 @default.
W3115659764 cites W1938883714 @default.
W3115659764 cites W1972598615 @default.
W3115659764 cites W1974680754 @default.
W3115659764 cites W1980486913 @default.
W3115659764 cites W2004149738 @default.
W3115659764 cites W2013277487 @default.
W3115659764 cites W2023358602 @default.
W3115659764 cites W2024708232 @default.
W3115659764 cites W2035908878 @default.
W3115659764 cites W2037013592 @default.
W3115659764 cites W2038574100 @default.
W3115659764 cites W2042789470 @default.
W3115659764 cites W2053503400 @default.
W3115659764 cites W2114900530 @default.
W3115659764 cites W2136975468 @default.
W3115659764 cites W2138207763 @default.
W3115659764 cites W2157009395 @default.
W3115659764 cites W2163522597 @default.
W3115659764 cites W2167737093 @default.
W3115659764 cites W2169274959 @default.
W3115659764 cites W2199469755 @default.
W3115659764 cites W2311203695 @default.
W3115659764 cites W2319787530 @default.
W3115659764 cites W2331415696 @default.
W3115659764 cites W2341861303 @default.
W3115659764 cites W2389144624 @default.
W3115659764 cites W2557495149 @default.
W3115659764 cites W2727176899 @default.
W3115659764 cites W2748655008 @default.
W3115659764 cites W2773020072 @default.
W3115659764 cites W2790251212 @default.
W3115659764 cites W2791534539 @default.
W3115659764 cites W2800524954 @default.
W3115659764 cites W2800921920 @default.
W3115659764 cites W2807452401 @default.
W3115659764 cites W2885150814 @default.
W3115659764 cites W2886564046 @default.
W3115659764 cites W2890757526 @default.
W3115659764 cites W2898402099 @default.
W3115659764 cites W2902012935 @default.
W3115659764 cites W2903009885 @default.
W3115659764 cites W2907851961 @default.
W3115659764 cites W2908735198 @default.
W3115659764 cites W2913381161 @default.
W3115659764 cites W2918063357 @default.
W3115659764 cites W2921474111 @default.
W3115659764 cites W2942193614 @default.
W3115659764 cites W2946717857 @default.
W3115659764 cites W2951912016 @default.
W3115659764 cites W2955373486 @default.
W3115659764 cites W2964849163 @default.
W3115659764 cites W2970534831 @default.
W3115659764 cites W2972558390 @default.
W3115659764 cites W2984842456 @default.
W3115659764 cites W2989871178 @default.
W3115659764 cites W2991012415 @default.
W3115659764 cites W2997264435 @default.
W3115659764 cites W3036319615 @default.
W3115659764 cites W3084658769 @default.
W3115659764 cites W3094748598 @default.
W3115659764 cites W4253109781 @default.
W3115659764 doi "https://doi.org/10.1186/s12864-021-07716-w" @default.
W3115659764 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8162019" @default.
W3115659764 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34044774" @default.
W3115659764 hasPublicationYear "2021" @default.
W3115659764 type Work @default.
W3115659764 sameAs 3115659764 @default.
W3115659764 citedByCount "16" @default.
W3115659764 countsByYear W31156597642021 @default.
W3115659764 countsByYear W31156597642022 @default.
W3115659764 countsByYear W31156597642023 @default.
W3115659764 crossrefType "journal-article" @default.
W3115659764 hasAuthorship W3115659764A5048050496 @default.
W3115659764 hasAuthorship W3115659764A5049078993 @default.
W3115659764 hasAuthorship W3115659764A5057866869 @default.
W3115659764 hasAuthorship W3115659764A5061534935 @default.
W3115659764 hasAuthorship W3115659764A5062620367 @default.
W3115659764 hasAuthorship W3115659764A5063654057 @default.
W3115659764 hasAuthorship W3115659764A5065195216 @default.
W3115659764 hasAuthorship W3115659764A5067911069 @default.
W3115659764 hasAuthorship W3115659764A5076296503 @default.
W3115659764 hasAuthorship W3115659764A5081125085 @default.
W3115659764 hasBestOaLocation W31156597641 @default.