Anti-BMAL1抗体- ChIP Grade (ab3350)

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ab3350 被引用在 19 文献中.

  • Rakshit K  et al. Circadian variation of the pancreatic islet transcriptome. Physiol Genomics 48:677-87 (2016). PubMed: 27495157
  • Bellet MM  et al. Histone Deacetylase SIRT1 Controls Proliferation, Circadian Rhythm, and Lipid Metabolism during Liver Regeneration in Mice. J Biol Chem 291:23318-23329 (2016). Mouse . PubMed: 27634039
  • Tamayo AG  et al. Histone monoubiquitination by Clock-Bmal1 complex marks Per1 and Per2 genes for circadian feedback. Nat Struct Mol Biol 22:759-66 (2015). IP, ChIP ; Mouse . PubMed: 26323038
  • Muter J  et al. The clock protein period 2 synchronizes mitotic expansion and decidual transformation of human endometrial stromal cells. FASEB J 29:1603-14 (2015). WB . PubMed: 25573754
  • Wang Q  et al. Changes in the daily rhythm of lipid metabolism in the diabetic retina. PLoS One 9:e95028 (2014). IHC-P ; Rat . PubMed: 24736612
  • Kyoko OO  et al. Expressions of tight junction proteins Occludin and Claudin-1 are under the circadian control in the mouse large intestine: implications in intestinal permeability and susceptibility to colitis. PLoS One 9:e98016 (2014). WB, ChIP ; Mouse . PubMed: 24845399
  • Lebailly B  et al. Linking the circadian rhythm gene Arntl2 to interleukin 21 expression in type 1 diabetes. Diabetes 63:2148-57 (2014). PubMed: 24520124
  • Podobed PS  et al. Circadian regulation of myocardial sarcomeric Titin-cap (Tcap, telethonin): identification of cardiac clock-controlled genes using open access bioinformatics data. PLoS One 9:e104907 (2014). ChIP ; Mouse . PubMed: 25121604
  • Lee J  et al. Bmal1 and ß-cell clock are required for adaptation to circadian disruption, and their loss of function leads to oxidative stress-induced ß-cell failure in mice. Mol Cell Biol 33:2327-38 (2013). WB, IP ; Mouse . PubMed: 23547261
  • Shende VR  et al. Role of miR-142-3p in the post-transcriptional regulation of the clock gene Bmal1 in the mouse SCN. PLoS One 8:e65300 (2013). WB ; Mouse . PubMed: 23755214
  • Miki T  et al. p53 regulates Period2 expression and the circadian clock. Nat Commun 4:2444 (2013). PubMed: 24051492
  • Zhang X  et al. A non-canonical E-box within the MyoD core enhancer is necessary for circadian expression in skeletal muscle. Nucleic Acids Res 40:3419-30 (2012). Mouse . PubMed: 22210883
  • Scoma HD  et al. The De-Ubiquitinylating Enzyme, USP2, Is Associated with the Circadian Clockwork and Regulates Its Sensitivity to Light. PLoS One 6:e25382 (2011). WB ; Mouse . PubMed: 21966515
  • Mongrain V  et al. Sleep Loss Reduces the DNA-Binding of BMAL1, CLOCK, and NPAS2 to Specific Clock Genes in the Mouse Cerebral Cortex. PLoS One 6:e26622 (2011). ChIP ; Mouse . PubMed: 22039518
  • Wang X  et al. Interaction of MAGED1 with nuclear receptors affects circadian clock function. EMBO J 29:1389-400 (2010). WB ; Mouse . PubMed: 20300063
  • Guillaumond F  et al. Kruppel-like factor KLF10 is a link between the circadian clock and metabolism in liver. Mol Cell Biol 30:3059-70 (2010). ChIP ; Mouse . PubMed: 20385766
  • Torres-Farfan C  et al. Cryptochrome 2 expression level is critical for adrenocorticotropin stimulation of cortisol production in the capuchin monkey adrenal. Endocrinology 150:2717-22 (2009). PubMed: 19246533
  • Cai W  et al. Expression levels of estrogen receptor beta are modulated by components of the molecular clock. Mol Cell Biol 28:784-93 (2008). ChIP ; Mouse . PubMed: 18039858
  • Li H  et al. Circadian expression of clock genes and angiotensin II type 1 receptors in suprachiasmatic nuclei of sinoaortic-denervated rats. Acta Pharmacol Sin 28:484-92 (2007). WB ; Rat . PubMed: 17376287