Webdivergence in chilling tolerance of rice cultivars. We further demonstrate that a single-nucleotide mutation at COLD1 con-fers adaptation of japonica rice to chilling and … WebJul 15, 2024 · An example of such a sensor is CHILLING-TOLERANCE DIVERGENCE 1 (COLD1) protein found in rice, which is localised in plasma membrane and endoplasmatic reticulum (Ma et al. 2015 ). COLD1 encodes a G-protein signalling regulator (RGS) which interacts with the α-subunit of the G protein and leads to activation of calcium channels …
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WebMay 6, 2024 · With decades of efforts, remarkable achievements have been made in dissecting the key genes regulating rice cold stress tolerance, such as CHILLING-TOLERANCE DIVERGENCE 1 (COLD1) ( Ma et al., 2015 ), HAN1 (“han” termed “chilling” in Chinese) ( Mao et al., 2024 ), basic leucine zipper 73 (bZIP73) ( Liu et al., 2024 ), cold … WebJun 1, 2024 · Recently, Chong Kang and colleagues used the differences in cold tolerance between japonica and indica rice to construct a near-isogenic line (Ma et al., 2015) from which the COLD1 (chilling-tolerance divergence 1) gene was successfully cloned using QTL fine genetic localization (G.T. Huang et al., 2012; Xu et al., 2012). i must be high lyrics
Full-length transcriptome sequencing reveals the low-temperature ...
WebChilling tolerance is a complex agricultural trait controlled by multiple genes (Guo et al., 2024). The diverged japonica-indica chilling tolerance, therefore, is unlikely to be … WebFeb 14, 2024 · The CHILLING TOLERANCE DIVERGENCE 1 (COLD1) is one of the currently identified cold sensors in rice, which could mediate the chilling tolerance of rice by regulating calcium channels and OsCBF1 gene expression (Ma et al., 2015). It deserved to further investigate whether the function of COLD1 gene is conservative in tea or other … WebSep 19, 2024 · A number of defense-signaling mechanisms underlying cold tolerance have been elucidated in plants, involving the Ca 2+ -induced kinase pathway, ICE1 and SIZ1-mediated sumoylation pathway, and HOS1-mediated ubiquitination and proteosomal degradation pathways (Ding et al ., 2015; J. H. Park et al ., 2024 ). dutch competition authority