Department of Biological Sciences, Wright State University, Dayton, OH 45435, USA.
J Mol Evol. 2011 Jun;72(5-6):466-73. doi: 10.1007/s00239-011-9445-4. Epub 2011 May 22.
Protein products of highly expressed genes tend to favor amino acids that have lower average biosynthetic costs (i.e., they exhibit metabolic efficiency). While this trend has been observed in several studies, the specific sites where cost-reducing substitutions accumulate have not been well characterized. Toward that end, weighted costs in conserved and variable positions were evaluated across a total of 9,119 homologous proteins in four mammalian orders (primate, carnivore, rodent, and artiodactyls), which together contain a total of 20,457,072 amino acids. Degree of conservation at homologous positions in these mammalian proteins and average-weighted cost across all positions within a single protein are significantly correlated. Dividing human genes into two classes (those with and those without CpG islands in their promoters) suggests that humans also preferentially utilize less costly amino acids in highly expressed genes. In contrast to the intuitive expectation that the relatively weak selective force associated with metabolic efficiency would be a selection pressure in complex multicellular organisms, the overall level of selective constraint within the variable regions of mammalian proteins allows the metabolic efficiency to derive a reduction of overall biosynthetic cost, particularly in genes with the highest levels of expression.
高度表达的基因的蛋白质产物往往倾向于选择具有较低平均生物合成成本的氨基酸(即,它们表现出代谢效率)。尽管在几项研究中已经观察到这种趋势,但降低成本的取代在特定位置的积累情况尚未得到很好的描述。为此,在四个哺乳动物目(灵长类、食肉目、啮齿目和偶蹄目)的总共 9119 个同源蛋白中评估了保守和可变位置的加权成本,这些蛋白总共包含 20457022 个氨基酸。这些哺乳动物蛋白中同源位置的保守程度与单个蛋白中所有位置的平均加权成本显著相关。将人类基因分为两类(其启动子中具有和不具有 CpG 岛的基因)表明,人类也优先在高度表达的基因中使用成本较低的氨基酸。与代谢效率相关的相对较弱的选择力将成为复杂多细胞生物的选择压力的直观预期相反,哺乳动物蛋白可变区的整体选择约束水平允许代谢效率降低整体生物合成成本,特别是在表达水平最高的基因中。
