酵母糖酵解途径酶的动力学常数与氨基酸组成的关系。

Peteris Zikmanis, Inara Kampenusa
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引用次数: 9

摘要

代谢途径的动力学模型在代谢通量和酶动力学方面代表了一个生化反应系统。因此,代谢通量的明显差异可能反映了所用酶的独特动力学特征以及序列依赖性特性。本研究旨在检验酿酒酵母糖酵解途径中酶的动力学常数与氨基酸(AA)组成(AAC)之间的可能联系。米氏常数(KM)、周转数(kcat)和特异性常数(ksp)的值 = kcat/KM)和UniProtKB的9种酶(HXK、GADH、PGK、PGM、ENO、PK、PDC、TIM和PYC)的蛋白质序列。AAC和序列性质通过ExPASy/ProtParam工具计算,数据通过传统的多元统计方法处理。kcat的对数值之间存在多重线性回归(3个模型,85.74%
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Relationships between kinetic constants and the amino acid composition of enzymes from the yeast Saccharomyces cerevisiae glycolysis pathway.

The kinetic models of metabolic pathways represent a system of biochemical reactions in terms of metabolic fluxes and enzyme kinetics. Therefore, the apparent differences of metabolic fluxes might reflect distinctive kinetic characteristics, as well as sequence-dependent properties of the employed enzymes. This study aims to examine possible linkages between kinetic constants and the amino acid (AA) composition (AAC) for enzymes from the yeast Saccharomyces cerevisiae glycolytic pathway. The values of Michaelis-Menten constant (KM), turnover number (kcat), and specificity constant (ksp = kcat/KM) were taken from BRENDA (15, 17, and 16 values, respectively) and protein sequences of nine enzymes (HXK, GADH, PGK, PGM, ENO, PK, PDC, TIM, and PYC) from UniProtKB. The AAC and sequence properties were computed by ExPASy/ProtParam tool and data processed by conventional methods of multivariate statistics. Multiple linear regressions were found between the log-values of kcat (3 models, 85.74% < Radj.2 <94.11%, p < 0.00001), KM (1 model, Radj.2 = 96.70%, p < 0.00001), ksp (3 models, 96.15% < Radj.2 < 96.50%, p < 0.00001), and the sets of AA frequencies (four to six for each model) selected from enzyme sequences while assessing the potential multicollinearity between variables. It was also found that the selection of independent variables in multiple regression models may reflect certain advantages for definite AA physicochemical and structural propensities, which could affect the properties of sequences. The results support the view on the actual interdependence of catalytic, binding, and structural residues to ensure the efficiency of biocatalysts, since the kinetic constants of the yeast enzymes appear as closely related to the overall AAC of sequences.

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