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anti-Human CRY1 Anticorps:
anti-Mouse (Murine) CRY1 Anticorps:
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Cow (Bovine) Polyclonal CRY1 Primary Antibody pour IHC, WB - ABIN2788200
Currie, Doherty, Sillar: Deep-brain photoreception links luminance detection to motor output in Xenopus frog tadpoles. dans Proceedings of the National Academy of Sciences of the United States of America 2016
CRYs' C termini are essential for nuclear localization but not necessary for the suppression of CLOCK/BMAL1 (Montrer ARNTL Anticorps) activation
we investigated the structure/function relationships of Xenopus laevis CRY1 (xCRY1) and xCRY2 (Montrer CRY2 Anticorps) in cultured cells
Cry1 is expressed in the olfactory bulb of newborn and juvenile rabbits.
Study confirms the prognostic role of CRY1 in chronic lymphocytic leukemia, as its aberrant methylation and expression is associated with high risk of treatment initiation and survival.
CRY1 SNP rs714359 showed nominally significant association with the problematicity of seasonal variations (problematic vs. no variation) of mood disorder. The set-based analysis did not support these associations. However, the CRY1 haplotype TAG including rs714359 showed nominally significant association with the problematicity of seasonal variations in mood disorder.
CRY1 variants were not associated with major depressive disorder.
Our findings suggest that CLOCK and CRY1 polymorphisms might be involved in individual susceptibility to abdominal obesity in Chinese Han population.
Knockout-rescue embryonic stem cell-derived mouse reveals that CRY1 determines circadian period through both its degradation-dependent and -independent pathways.
The present study identified USP7 (Montrer USP7 Anticorps) and TDP-43 (Montrer TARDBP Anticorps) as the regulators of CRY1 and CRY2 (Montrer CRY2 Anticorps), underscoring the significance of the stability control process of CRY (Montrer CRY2 Anticorps) proteins for period determination in the mammalian circadian clockwork.
Altered CRY1 and CRY2 (Montrer CRY2 Anticorps) expression patterns and the interplay with the genetic landscape in colon cancer cells may underlie phenotypic divergence.
possible circadian rhythm in full-term placental expression
Given the distinct characteristics of the C-terminal tails of the CRY1 and CRY2 (Montrer CRY2 Anticorps) proteins, our study addresses a long-standing hypothesis that the ratio of these two CRY (Montrer CRY2 Anticorps) molecules affects the clock period.
Overexpression of CRY1 protects against the development of atherosclerosis via the TLR/NFkappaB pathway
Data show that CRY1 binds directly to the PAS (Montrer PASK Anticorps) domain core of CLOCK:BMAL1, driven primarily by interaction with the CLOCK PAS (Montrer PASK Anticorps)-B domain.
CRY1/2 seem to repress a distinct subset of PPAR delta (Montrer PPARD Anticorps) target genes in muscle compared to the co-repressor NCOR1 (Montrer NCOR1 Anticorps). In vivo, genetic disruption of Cry1 and Cry2 (Montrer CRY2 Anticorps) enhances sprint exercise performance in mice.
hnRNP Q (Montrer SYNCRIP Anticorps) binds to mCry1 mRNA via the 5'UTR (Montrer UTS2R Anticorps). Furthermore, hnRNP Q (Montrer SYNCRIP Anticorps) inhibits the translation of mCry1 mRNA, leading to altered rhythmicity in the mCRY1 protein profile.
In vivo knockdown of Rfk (Montrer RFK Anticorps), Riboflavin (vitamin B2) kinase essential for FAD (Montrer FANCD2 Anticorps) synthesis, altered the expression rhythms of CRY1, CRY2 (Montrer CRY2 Anticorps), and PER1 (Montrer PER1 Anticorps)
Cryptochrome 1 in retinal cone photoreceptors suggests a novel functional role in mammals.
polyamines control the circadian period in cultured cells and animals by regulating the interaction between the core clock repressors PER2 (Montrer PER2 Anticorps) and CRY1
Data show that cryptochrome Cry1 and Cry2 (Montrer CRY2 Anticorps) expression must be circadian and appropriately phased to support rhythms, and arginine vasopressin (AVP (Montrer AVP Anticorps)) receptor signaling is required to impose circuit-level circadian function.
Exposure to blue light is required for an in vivo-association of CRY1 and CRY2 (Montrer CRY2 Anticorps) with COP1.
Data suggest that cry1 mutation L407F exhibits hyperactivity which is not related to a higher FADH occupancy of the photoreceptor but is caused by a structural alteration close to the ATP-binding site.
Nitrogen signaling functions as a modulator of nuclear CRY1 protein abundance, as well as the input signal for the central circadian clock to interfere with the normal flowering process.
Data show that the effect of 3-bromo-7-nitroindazole (3B7N) treatment on gene expression in cryptochromes cry1cry2 is considerably smaller than that in the wild type, indicating that 3B7N specifically interrupts cryptochrome function in the control of seedling development in a light-dependent manner.
These data illustrate that in vivo modulation by metabolites in the cellular environment may play an important role in cryptochrome signaling.
For growth under a canopy, where blue light is diminished, CRY1 and CRY2 perceive this change and respond by directly contacting two bHLH transcription factors, PIF4 and PIF5.
CRY1 represses auxin biosynthesis in response to elevated temperature through PIF4.
CRY1 inhibits hypocotyl elongation in blue light through CNT1 (Montrer SLC28A1 Anticorps)-mediated repression of the auxin/BR/GAresponsive gene expression.
Reactive oxygen species formation results from cry1 activation and induces cell death in insect cell cultures.
The study shows that ATP binding and aspartate protonation enhance photoinduced electron transfer in plant CRY1.
This gene encodes a flavin adenine dinucleotide-binding protein that is a key component of the circadian core oscillator complex, which regulates the circadian clock. The encoded protein is widely conserved across plants and animals. Loss of the related gene in mouse results in a shortened circadian cycle in complete darkness.
cryptochrome 1 (photolyase-like)
, cryptochrome 2 (photolyase-like)
, cryptochrome 1