SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2154100516> ?p ?o ?g. }

Showing items 1 to 100 of ±204 with 100 items per page.

W2154100516 endingPage "1385" @default.
W2154100516 startingPage "1368" @default.
W2154100516 abstract "Abstract Suppression of seed germination at supraoptimal high temperature (thermoinhibiton) during summer is crucial for Arabidopsis (Arabidopsis thaliana) to establish vegetative and reproductive growth in appropriate seasons. Abscisic acid (ABA) and gibberellins (GAs) are well known to be involved in germination control, but it remains unknown how these hormone actions (metabolism and responsiveness) are altered at high temperature. Here, we show that ABA levels in imbibed seeds are elevated at high temperature and that this increase is correlated with up-regulation of the zeaxanthin epoxidase gene ABA1/ZEP and three 9-cis-epoxycarotenoid dioxygenase genes, NCED2, NCED5, and NCED9. Reverse-genetic studies show that NCED9 plays a major and NCED5 and NCED2 play relatively minor roles in high temperature-induced ABA synthesis and germination inhibition. We also show that bioactive GAs stay at low levels at high temperature, presumably through suppression of GA 20-oxidase genes, GA20ox1, GA20ox2, and GA20ox3, and GA 3-oxidase genes, GA3ox1 and GA3ox2. Thermoinhibition-tolerant germination of loss-of-function mutants of GA negative regulators, SPINDLY (SPY) and RGL2, suggests that repression of GA signaling is required for thermoinibition. Interestingly, ABA-deficient aba2-2 mutant seeds show significant expression of GA synthesis genes and repression of SPY expression even at high temperature. In addition, the thermoinhibition-resistant germination phenotype of aba2-1 seeds is suppressed by a GA biosynthesis inhibitor, paclobutrazol. We conclude that high temperature stimulates ABA synthesis and represses GA synthesis and signaling through the action of ABA in Arabidopsis seeds." @default.
W2154100516 created "2016-06-24" @default.
W2154100516 creator A5003220950 @default.
W2154100516 creator A5004279124 @default.
W2154100516 creator A5007788413 @default.
W2154100516 creator A5014537021 @default.
W2154100516 creator A5019119458 @default.
W2154100516 creator A5023493629 @default.
W2154100516 creator A5033421501 @default.
W2154100516 creator A5039533304 @default.
W2154100516 creator A5043855397 @default.
W2154100516 creator A5049411059 @default.
W2154100516 creator A5054686439 @default.
W2154100516 creator A5061237838 @default.
W2154100516 creator A5071035389 @default.
W2154100516 creator A5074376676 @default.
W2154100516 creator A5082184541 @default.
W2154100516 creator A5088141635 @default.
W2154100516 date "2008-03-01" @default.
W2154100516 modified "2023-10-01" @default.
W2154100516 title "High Temperature-Induced Abscisic Acid Biosynthesis and Its Role in the Inhibition of Gibberellin Action in Arabidopsis Seeds " @default.
W2154100516 cites W13725583 @default.
W2154100516 cites W1497594722 @default.
W2154100516 cites W1904214194 @default.
W2154100516 cites W1938468208 @default.
W2154100516 cites W1942286409 @default.
W2154100516 cites W1942872828 @default.
W2154100516 cites W1966222838 @default.
W2154100516 cites W1975448451 @default.
W2154100516 cites W1979622868 @default.
W2154100516 cites W1988977599 @default.
W2154100516 cites W1989047466 @default.
W2154100516 cites W1991377186 @default.
W2154100516 cites W2006111530 @default.
W2154100516 cites W2009225577 @default.
W2154100516 cites W2010440816 @default.
W2154100516 cites W2017385109 @default.
W2154100516 cites W2019015325 @default.
W2154100516 cites W2031698682 @default.
W2154100516 cites W2033407764 @default.
W2154100516 cites W2037333220 @default.
W2154100516 cites W2038721410 @default.
W2154100516 cites W2044246194 @default.
W2154100516 cites W2044923609 @default.
W2154100516 cites W2045031735 @default.
W2154100516 cites W204670681 @default.
W2154100516 cites W2046873421 @default.
W2154100516 cites W2051052734 @default.
W2154100516 cites W2058395685 @default.
W2154100516 cites W2059489540 @default.
W2154100516 cites W2061170595 @default.
W2154100516 cites W2062125737 @default.
W2154100516 cites W2064486549 @default.
W2154100516 cites W2070721758 @default.
W2154100516 cites W2070928368 @default.
W2154100516 cites W2084263402 @default.
W2154100516 cites W2098115340 @default.
W2154100516 cites W2101218969 @default.
W2154100516 cites W2101872939 @default.
W2154100516 cites W2102182963 @default.
W2154100516 cites W2102924901 @default.
W2154100516 cites W2103200005 @default.
W2154100516 cites W2103422741 @default.
W2154100516 cites W2103467395 @default.
W2154100516 cites W2108156799 @default.
W2154100516 cites W2109516718 @default.
W2154100516 cites W2110805436 @default.
W2154100516 cites W2111909065 @default.
W2154100516 cites W2112491865 @default.
W2154100516 cites W2112698467 @default.
W2154100516 cites W2113090446 @default.
W2154100516 cites W2114657088 @default.
W2154100516 cites W2118433890 @default.
W2154100516 cites W2119005045 @default.
W2154100516 cites W2119830445 @default.
W2154100516 cites W2120878924 @default.
W2154100516 cites W2122032389 @default.
W2154100516 cites W2123181065 @default.
W2154100516 cites W2127969131 @default.
W2154100516 cites W2128056199 @default.
W2154100516 cites W2128585722 @default.
W2154100516 cites W2131868308 @default.
W2154100516 cites W2133819357 @default.
W2154100516 cites W2133823890 @default.
W2154100516 cites W2134587879 @default.
W2154100516 cites W2138393603 @default.
W2154100516 cites W2141105436 @default.
W2154100516 cites W2141256113 @default.
W2154100516 cites W2142329123 @default.
W2154100516 cites W2142759988 @default.
W2154100516 cites W2145373381 @default.
W2154100516 cites W2150178246 @default.
W2154100516 cites W2151230845 @default.
W2154100516 cites W2154486866 @default.
W2154100516 cites W2158046293 @default.
W2154100516 cites W2161138822 @default.
W2154100516 cites W2161303709 @default.
W2154100516 cites W2161736228 @default.