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Medicago truncatula, Sorghum bicolor, Vitis vinifera and Oryza sativa Using Comparative Genomics Approach]]>

机译:<![CDATA [CDATA [GENOPORALURONASES-LIKE的(PGL)基因的<强调=“斜体”> MEDENCO TRUNCATULAULAS ,<重点型=“斜体”>高粱双色,<重点 键入=“斜体”> vitis Vinifera 和<重点类型=“斜体”>使用比较基因组学方法的Oryza sativa ]]]>

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摘要

The polygalacturonases (PG) is one of the important members of pectin-degrading glycoside hydrolases of the family GH28. In plants, PG represents multigene families associated with diverse processes. In the present study, an attempt has been made to investigate the diversity of PG genes among monocots and dicots with respect to phylogeny, gene duplication and subcellular localization to get an insight into the evolutionary and functional attributes. The genome-wide assessment of Medicago truncatula , Vitis vinifera Sorghum bicolor , and Oryza sativa L. ssp. japonica genomes revealed 53, 49, 38 and 35 PG-like ( PGL ) genes, respectively. The predominance of glyco_hydro_28 domain, hydrophilic nature and genes with multiple introns were uniformly observed. The subcellular localization showed the presence of signal sequences targeting the secretory pathways. The phylogenetic tree constructed marked uniformity with three distinct clusters for each plant irrespective of the variability in the genome sizes. The site-specific selection pressure analysis based on K ~(a)/ K ~(s)values showed predominance of purifying selection pressures among different groups identified in these plants. The functional divergence analysis revealed significant site-specific selective constraints. Results of site-specific selective pressure analysis throw light on the functional diversity of PGs in various plant processes and hence its constitutive nature. These findings are further strengthened by functional divergence analysis which reveals functionally diverse groups in all the four species representing monocots and dicots. The outcome of the present work could be utilized for deciphering the novel functions of PGs in plants.
机译:多糖抑制酶(PG)是家庭GH28的果胶降解糖苷水解酶的重要成员之一。在植物中,PG代表与不同过程相关的多烯家族。在本研究中,已经尝试研究单像和脱斑素在系统发生,基因重复和亚细胞定位中的PG基因的多样性,以了解进化和功能属性。 Medicago Truncatula,血管血管高粱双子和奥氏苜蓿L. SSP的基因组评估。粳稻基因组分别显示53,49,38和35 pg样(PGL)基因。均匀地观察到甘油_羟基_28结构域,亲水性质和具有多个内含子的基因的优势。亚细胞定位显示靶向分泌途径的信号序列存在。系统发育树构造出明显的均匀性,对于每种植物的三种不同的簇,无论基因组大小的可变性如何。基于K〜(a)/ k〜(s)值的位点特异性选择压力分析显示出纯化这些植物中鉴定的不同基团的选择压力。功能性分析显示出现了显着的位点特异性选择性约束。现场特异性选择性压力分析结果抛光各种植物过程中PGS功能多样性,因此其组成型性质。通过功能性分析进一步加强了这些发现,该结果揭示了代表单码和双斑点的四种物种中功能多样的群体。本作者的结果可用于解密PGS在植物中的新功能。

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