Wilton A N, Laurie-Ahlberg C C, Emigh T H, Curtsinger J W
Genetics. 1982 Oct;102(2):207-21. doi: 10.1093/genetics/102.2.207.
This report describes an investigation of the specificities of the genetic effects, caused by whole chromosome substitution, on the activities of 23 enzymes in Drosophila melanogaster. Two types of correlation estimates are examined, the product-moment correlation over the chromosome substitution line means and the corresponding correlation of line effects, which is a standardized covariance component estimate. The two types of correlations give very similar results. Although there is ample evidence for specific line effects on individual enzyme activities, there are extensive intercorrelations among many of the enzymes for both second- and third-chromosome substitution lines. The pattern of correlations with respect to the metabolic functions or other properties of the enzymes is difficult to visualize by inspection of the correlation matrix, so a multivariate graphical technique, the biplot (GABRIEL 1971), was employed to obtain a two-dimensional view of relationships among the enzyme activities. The second and third chromosome lines show similar patterns. Four of the five mitochondrial enzymes form one highly intercorrelated group whereas another highly intercorrelated group contains several cytosolic enzymes. Within the cytosolic group, particularly high correlations are observed between enzymes that have glucose 6-phosphate as a substrate or product and between enzymes that are NADP-dependent. Although the pattern of intercorrelations is not clearly explicable in terms of metabolic relationships among the enzymes, there is some tendency for enzymes that catalyze sequential reactions or share a substrate or product to have correlated activity levels.
本报告描述了一项关于全染色体置换对黑腹果蝇23种酶活性所产生的遗传效应特异性的研究。研究了两种类型的相关性估计值,即染色体置换系均值的积矩相关性以及系效应的相应相关性,后者是一个标准化协方差分量估计值。这两种类型的相关性得出了非常相似的结果。尽管有充分证据表明存在对个体酶活性的特定系效应,但对于第二和第三染色体置换系而言,许多酶之间存在广泛的相互关联。通过检查相关矩阵很难直观地看出与酶的代谢功能或其他特性相关的相关性模式,因此采用了一种多元图形技术——双标图(加布里埃尔,1971年),以获得酶活性之间关系的二维视图。第二和第三染色体系呈现出相似的模式。五种线粒体酶中的四种形成一个高度相互关联的组,而另一个高度相互关联的组包含几种胞质酶。在胞质酶组内,以6 - 磷酸葡萄糖作为底物或产物的酶之间以及依赖于NADP的酶之间观察到特别高的相关性。尽管相互关联的模式无法根据酶之间的代谢关系清晰地解释,但催化连续反应或共享底物或产物的酶往往具有相关的活性水平。