Hyperphotomorphogenic
WebThe hyperphotomorphogenic phenotype caused by the over-expression of a mutant HY5, which lacks the COP1-interactive domain, supports the regulatory role of HY5-COP1 … Web1 jan. 2013 · CAM7 overexpression caused hyperphotomorphogenic growth and an increase in the expression of light-inducible genes. Mutations in CAM7 produce no visible effects on photomorphogenic growth, indicating likely redundant gene functions.
Hyperphotomorphogenic
Did you know?
Web29 apr. 2024 · Cryptochromes are flavin-containing blue light photoreceptors, present in most kingdoms, including archaea, bacteria, plants, animals and fungi. They are … WebThe hyperphotomorphogenic phenotype caused by the over-expression of a mutant HY5, which lacks the COP1-interactive domain, supports the regulatory role of HY5-COP1 …
http://repository.ias.ac.in/112112/1/1036.full.pdf WebThe hyperphotomorphogenic phenotype caused by the over-expression of a mutant HY5, which lacks the COP1-interactive domain, supports the regulatory role of HY5-COP1 interaction. Further, HY5 is capable of directly interacting with the CHS1 minimal promoter and is essential for its light activation.
WebMutation of HY5 Restores the Hyperphotomorphogenic Phenotypes of BBX21 Overexpressors in the Light. To obtain genetic evidence supporting the role of HY5 as a pivotal target of BBX21, we introduced the hy5-215 mutation into the YFP-BBX21 bbx21-1 transgenic plants by genetic crossing. WebThe hyperphotomorphogenic phenotype caused by the over-expression of a mutant HY5, which lacks the COP1-interactive domain, supports the regulatory role of HY5-COP1 interaction. Further, HY5 is capable of directly interacting with the CHS1 minimal promoter and is essential for its light activation.
WebHere, we show that one of the four Arabidopsis thaliana CaM isoforms, CAM7, is a transcriptional regulator that directly interacts with the promoters of light-inducible genes …
Webaddition to expected hyperphotomorphogenic phenotypes [16,17]. Brassica napus harbours a single CRY1 member, involved in photomorphogenesis, hormone and stress … crofts hardwareWeb1 jul. 1999 · One of the key characteristics of AtCOP1 is its light-dependent subcellular localization. We examined whether m/hCOP1 is also light responsive when expressed … crofts glossopWebIn contrast to its loss-of-function mutant phenotype, overexpression of FIN219 results in a far-red-specific hyperphotomorphogenic response . Jasmonate response locus JAR1 … croft shifa health centre rochdale addressWeb18 nov. 2014 · The transduction of a Ca 2+ signal can be viewed as a two-step process involving an initial activation of CaM (or any CBP) by the ionic signal, followed by binding … crofts grocery mayo flWebfour transgenic lines that overexpressed HY5-DN77 also segregated seedlings with hyperphotomorphogenic phenotype: wild-type in a Recombinant Plasmids 3:1 (279:93) ratio among their T2 progeny. Furthermore, an exact DNA fragments were subcloned into pEG202 and pJG4.5 (Ausubel cosegregation of the mutant phenotype with transgene … buff info cu boulderWeb30 apr. 2024 · Furthermore, the physiological functions of CaM are largely unknown in plants. Here, we show that one of the four Arabidopsis thaliana CaM isoforms, CAM7, is a transcriptional regulator that directly interacts with the promoters of light-inducible genes and promotes photomorphogenesis. CAM7 overexpression causes … buffin funeral homeWeb2 jun. 2010 · Ca 2+ signals are a core regulator of plant cell physiology and cellular responses to the environment. The channels, pumps, and carriers that underlie Ca 2+ homeostasis provide the mechanistic basis for generation of Ca 2+ signals by regulating movement of Ca 2+ ions between subcellular compartments and between the cell and its … crofts grimsby