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W4281780765 abstract "Ethylene plays a pivotal role in plant stress resistance and 1-aminocyclopropane-1-carboxylic acid synthase (ACS) is the rate-limiting enzyme in ethylene biosynthesis. Upland cotton (Gossypium hirsutum L.) is the most important natural fiber crop, but the function of ACS in response to abiotic stress has rarely been reported in this plant. We identified 18 GaACS, 18 GrACS, and 35 GhACS genes in Gossypiumarboreum, Gossypium raimondii and Gossypiumhirsutum, respectively, that were classified as types I, II, III, or IV. Collinearity analysis showed that the GhACS genes were expanded from diploid cotton by the whole-genome-duplication. Multiple alignments showed that the C-terminals of the GhACS proteins were conserved, whereas the N-terminals of GhACS10 and GhACS12 were different from the N-terminals of AtACS10 and AtACS12, probably diverging during evolution. Most type II ACS genes were hardly expressed, whereas GhACS10/GhACS12 were expressed in many tissues and in response to abiotic stress; for example, they were highly and hardly expressed at the early stages of cold and heat exposure, respectively. The GhACS genes showed different expression profiles in response to cold, heat, drought, and salt stress by quantitative PCR analysis, which indicate the potential roles of them when encountering the various adverse conditions, and provide insights into GhACS functions in cotton’s adaptation to abiotic stress." @default.
W4281780765 created "2022-06-13" @default.
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W4281780765 date "2022-06-06" @default.
W4281780765 modified "2023-10-16" @default.
W4281780765 title "Potential Roles of 1-Aminocyclopropane-1-carboxylic Acid Synthase Genes in the Response of Gossypium Species to Abiotic Stress by Genome-Wide Identification and Expression Analysis" @default.
W4281780765 cites W1507285061 @default.
W4281780765 cites W1801763317 @default.
W4281780765 cites W1897989406 @default.
W4281780765 cites W1965990796 @default.
W4281780765 cites W1966627732 @default.
W4281780765 cites W1968663182 @default.
W4281780765 cites W1988599982 @default.
W4281780765 cites W1990135624 @default.
W4281780765 cites W2004149738 @default.
W4281780765 cites W2011491690 @default.
W4281780765 cites W2019229910 @default.
W4281780765 cites W2019398301 @default.
W4281780765 cites W2024505941 @default.
W4281780765 cites W2031841608 @default.
W4281780765 cites W2033611197 @default.
W4281780765 cites W2052062809 @default.
W4281780765 cites W2055929345 @default.
W4281780765 cites W2056962482 @default.
W4281780765 cites W2068645003 @default.
W4281780765 cites W2075496725 @default.
W4281780765 cites W2085415453 @default.
W4281780765 cites W2102278945 @default.
W4281780765 cites W2118381923 @default.
W4281780765 cites W2119205648 @default.
W4281780765 cites W2126393500 @default.
W4281780765 cites W2140315817 @default.
W4281780765 cites W2143922328 @default.
W4281780765 cites W2145091349 @default.
W4281780765 cites W2151833429 @default.
W4281780765 cites W2152207030 @default.
W4281780765 cites W2158582211 @default.
W4281780765 cites W2167737093 @default.
W4281780765 cites W2171776177 @default.
W4281780765 cites W2174475512 @default.
W4281780765 cites W2207064766 @default.
W4281780765 cites W2224056471 @default.
W4281780765 cites W2346228535 @default.
W4281780765 cites W2389266997 @default.
W4281780765 cites W2510875395 @default.
W4281780765 cites W2604599101 @default.
W4281780765 cites W2783897752 @default.
W4281780765 cites W2790321978 @default.
W4281780765 cites W2894588979 @default.
W4281780765 cites W2897161137 @default.
W4281780765 cites W2921474111 @default.
W4281780765 cites W2947977796 @default.
W4281780765 cites W2957809884 @default.
W4281780765 cites W2964849163 @default.
W4281780765 cites W2971304113 @default.
W4281780765 cites W3003011408 @default.
W4281780765 cites W3005060739 @default.
W4281780765 cites W3007177440 @default.
W4281780765 cites W3017051562 @default.
W4281780765 cites W3036319615 @default.
W4281780765 cites W3042802706 @default.
W4281780765 cites W3045139919 @default.
W4281780765 cites W3048720534 @default.
W4281780765 cites W3093484960 @default.
W4281780765 cites W3094450900 @default.
W4281780765 cites W3190356641 @default.
W4281780765 cites W3195310578 @default.
W4281780765 cites W3203731767 @default.
W4281780765 cites W4200024168 @default.
W4281780765 cites W4210425156 @default.
W4281780765 cites W4245845764 @default.
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W4281780765 doi "https://doi.org/10.3390/plants11111524" @default.
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