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Chlamydophilia psittaci 4-spot Substrate Slide
广州健仑生物科技有限公司
主要用途:用于检测人/猫血清中的鹦鹉热衣原体抗体
产品规格:12 孔/张,10 张/盒
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【公司名称】 广州健仑生物科技有限公司
【】 杨永汉
【】
【腾讯 】 2042552662
【公司地址】 广州清华科技园创新基地番禺石楼镇创启路63号二期2幢101-3室
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但令人意外的是,图西和伦德布拉德发现在端粒酶复合体充分组合后,它会迅速分解形成一个非活跃的“分解”复合体——事实上就是将开关调至“关闭”状态。他们推测这种解体过程可以提供一种方式,让端粒酶在细胞内保持极低的浓度。尽管正常细胞内不断磨损的端粒酶会导致衰老,但癌症细胞却依赖提粒酶浓度,确保无节制的细胞增长。图西和伦德布拉德发现的这个“关闭”开关可能有助于让端粒酶的活跃度低于这一限度。
癌症,虽然总是带着危险的,但真正对生命造成威胁的是当癌细胞开始扩散到不同的领域和遍及全身时。现在,美国密苏里大学(MU)的研究人员发现,由细菌用作通讯系统的一个分子可以被操纵来阻止癌细胞扩散。MU兽医医学院比较肿瘤学和表观遗传学实验室的助理研究教授和副主任Senthil Kumar说,这个通讯系统可用于“告诉”癌细胞如何行动,甚至是死亡的命令。
“在感染期间,细菌会释放出分子,使得它们能够彼此‘交谈’,” Kumar说,他了这项研究。“所述信号根据释放分子的类型,告诉其他细菌繁殖,逃避免疫系统甚至停止蔓延。我们发现,如果我们将‘停止蔓延’的细菌分子引入癌细胞中,这些细胞不但会停止扩散,而且它们也将会开始死亡。”
Surprisingly, however, Tutsi and Lund Brad found that after the omerase complex has been fully assembled, it rapidly breaks down into an inactive "break down" complex - in effect switching the switch to " Disabled. They speculate that this disintegration process can provide a way for omerase to remain at very low concentrations in the cell. Although omerase, which is constantly abraded in normal cells, can cause aging, cancer cells rely on increasing omerase concentration to ensure uncontrolled cell growth. This "switch-off" switch, discovered by Tucci and Lund Brad, may help to keep omerase activity below this limit.
Cancer, while always dangerous, is a real threat to life as cancer cells begin to spread to different areas and spread throughout the body. Now researchers at the University of Missouri (MU) find that a molecule that bacteria use as a communication system can be manipulated to stop cancer cells from spreading. Senthil Kumar, professor and deputy director of assistant research at the MU Veterinary Medical School's Comparative Oncology and Epigenetics Laboratory, said the communication system can be used to "l" how cancerous cells act or even die.
"During infection, bacteria release molecules so they can talk to each other," Kumar said, who led the study. "The signal ls other bacteria to breed, escape the immune system, or even stop spreading, depending on the type of molecule released, and we found that if we introduce 'stop-going' bacterial molecules into cancer cells, they not only stop spreading, but they also It will start to die. "