E. Sergeeva, M. Fadeeva, I. Khavronyuk, A. Mamontov, A. Ershov, A. Kuznetsov
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引用次数: 1
摘要
栉虫是有机世界发展进化树上古老而独立的分支。它们主要生活在上层海洋,并表现出惊人的适应环境的机制。随着DNA测序技术的发展,从理论上和实验上对生物对象进行研究已成为可能。采用生物信息学方法对栉水母leidyi A. Agassiz 1865的视蛋白进行了研究。分别对视蛋白1、2、3、AFK83788.1、AFK83789.1和AFK83790.1进行附加注释。他们建立了三维模型,并确定了视网膜在蛋白质分子中的定位。研究了视蛋白的蛋白质环境,并对其一级和二级邻接蛋白进行了表征。蛋白质-蛋白质相互作用网络的结构被证明类似于感知器,因此,执行识别来自外部信号模式的功能。从胞吞作用到Wnt信号通路的多任务信号通路已被揭示,表明视蛋白参与了广泛的遗传和生理过程。
OPSINS OF THE CTENOPHORE MNEMIOPSIS LEIDYI AND A NETWORK OF PROTEIN-PROTEIN INTERACTIONS
Ctenophora are ancient and separate branch of evolutionary tree of the organic world development. They inhabit mostly epipelagic seas and demonstrate amazing mechanisms of adaptation to the environment. It is now possible with the potential technique of DNA sequencing to study biological objects not only experimentally but also theoretically. We studied opsins of the ctenophore Mnemiopsis leidyi A. Agassiz 1865 using bioinformatics methods. Additional annotation of opsins 1, 2, and 3, AFK83788.1, AFK83789.1, and AFK83790.1, respectively, was performed. Their 3D models were constructed and the localization of retinal within the protein molecules was determined. The protein environment of opsins was studied, and the first- and second-level protein neighbors were characterized. The structure of the protein-protein interaction network was shown to resemble a perceptron and, therefore, to perform the function of recognizing the patterns of the signals coming from outside. The multitasking of signaling pathways from endocytosis to Wnt signaling has been revealed, indicating the involvement of Ctenophora opsins in a wide range of genetic and physiological processes.
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