1) Cryptochrome 2 隐花色素基因 1. The vector with Bar and soybeanCryptochrome 2gene was transformed into the explant of soybean cotyledon. 采用农杆菌介导法,以大豆无菌苗子叶节为外植体,将含有Bar基因及大豆隐花色素基因的表达载体导入大豆子叶节中,在含除草剂的筛选培养基中连续筛选,获得转化植株。
本公司经销CRY2/Cryptochrome 2,隐花色素蛋白2抗体,克隆类型为polyclonal,宿主来源是Rabbit,CRY2/Cryptochrome 2隐花色素蛋白2抗体可应用于WB、elisa、IP、IF、IHC等实验,欢迎垂询订购!详细内容 公司简介本公司经销CRY2/Cryptochrome 2,隐花色素蛋白2抗体,克隆类型为polyclonal,宿主来源是Rabbit,CRY2/Cryptochrome 2隐...
隐花色素蛋白2抗体,Anti-CRY2/Cryptochrome 2可用于免疫组化实验,WB实验,相应的标记抗体有HRP标记抗体,FITC,BIO等,产品经无数次市场验证及客户反馈,质量稳定可靠。 产品别名: cry2; CRY2_HUMAN; cryptochrome 2 (photolyase like); Cryptochrome2; Cryptochrome-2; FLJ10332; growth inhibiting protein 37; HCRY...
The cornerstone of our optogenetic tool relies on the PHR domain ofcryptochrome 2, which self-oligomerizes upon exposure to blue light. In this study, we have developed two optogenetic approaches for rapidly controlling caspase-8 activation in response to blue light in cellular systems. The first...
Here we show that Arabidopsis cryptochrome 2 (CRY2) forms photobodies with the TCP22 transcription factor in response to blue light in plant cells. We provide evidence that PPK kinases influence the characteristics of these photobodies and that together these components, along with LWD ...
小地老虎隐花色素基因cryptochrome1和cryptochrome2的克隆及mRNA表达分析 隐花色素(cryptochrome,cry)是一类广泛存在于 生物体内的蓝光和近紫外光受体,介导生物对蓝光的一系列反应并能导引生物钟.本研究利用RT-PCR和RACE方法获得了小地老虎Ag... 程鹏,徐蓬军,高希武,... - 《应用昆虫学报》 被引量: 10发表: 2012...
英文别名: Rb X Cryptochrome 2 (CRY-2) 中文名: 中文别名: CBNumber: CB65752726 分子式: 分子量: 0 MOL File: Mol file 化学性质 安全信息 用途 供应商 3 Rb X Cryptochrome 2 (CRY-2)化学性质 安全信息Rb X Cryptochrome 2 (CRY-2)性质、用途与生产工艺 Rb X Cryptochrome 2 (CRY-2) 上下游产品...
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sinuously winds around CRY2N. In this way, BIC2 not only restrains the transfer of electrons and protons from CRY2 to FAD during photoreduction but also interacts with the CRY2 oligomer to return it to the monomer form. Uncovering the mechanism of CRY2 inactivation lays a solid foundation ...
The genetic factors determining the phenotypic variation of porcine fatness phenotypes are still largely unknown. We investigated whether the polymorphism of eight genes (MIGA2, CRY2, NPAS2, CIART, ARNTL2, PER1, PER2 and PCK1), which display differential