B. Wang, S. Memon, M. F. Li, Z. D. Gao, Y. Lu, J. Y. Hong, J. Wu, D. M. Xi, Y. Q. Chong
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引用次数: 0
Abstract
Nested within the vast genetic landscape of the major histocompatibility complex (MHC), a cluster of genes assumes a pivotal role in pathogen recognition and orchestrating mechanisms for disease resistance. This investigation successfully cloned and sequenced the complete 786 bp cDNA entity corresponding to the MHC-DQB gene in yaks. A comprehensive analysis of the sequence unveiled distinct features, including highly conserved peptide binding sites (PBS) spanning 8 amino acids and specific nucleotide-binding regions at designated positions (–1, –28, 2, 3, 29, 64, 93, and 108). The pronounced uniformity and remarkable preservation demonstrated by the yak MHC-DQB gene underscore its potential in providing protection against pathogens and the inherent stability within the DQB genetic framework. Moreover, a comparison across six distinct domains of the Yak-DQB gene revealed notable similarities with closely related species. Particularly significant is the identification of a conserved peptide-binding region consisting of 16 amino acids, alongside the detection of multiple conserved nucleotide-binding regions. When conducting a comparative analysis of amino acid lengths in the Yak-DQB orthologous sequence, a substantial homology with cattle was observed, registering at 91.2%. Interestingly, however, the DQB gene in yaks exhibited discrepancies in 23 amino acids compared to the bovine sequence. Specifically, a detailed examination revealed that 15 of these variable amino acids were clustered within the Beta 1 (в1) domain. These insights provide valuable information about the distinct characteristics of the MHC gene in both ruminant and non-ruminant species, unraveling the complexities of their comparative molecular genetics.
期刊介绍:
Russian Journal of Genetics is a journal intended to make significant contribution to the development of genetics. The journal publishes reviews and experimental papers in the areas of theoretical and applied genetics. It presents fundamental research on genetic processes at molecular, cell, organism, and population levels, including problems of the conservation and rational management of genetic resources and the functional genomics, evolutionary genomics and medical genetics.
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