Meléndez R, Meléndez-Hevia E, Cascante M
Universitat de Barcelona, Departament de Bioquimica i Biologia Molecular, Facultat de Quimica, Spain.
J Mol Evol. 1997 Oct;45(4):446-55. doi: 10.1007/pl00006249.
Optimization of molecular design in cellular metabolism is a necessary condition for guaranteeing a good structure-function relationship. We have studied this feature in the design of glycogen by means of the mathematical model previously presented that describes glycogen structure and its optimization function [Meléndez-Hevia et al. (1993), Biochem J 295: 477-483]. Our results demonstrate that the structure of cellular glycogen is in good agreement with these principles. Because the stored glucose in glycogen must be ready to be used at any phase of its synthesis or degradation, the full optimization of glycogen structure must also imply the optimization of every intermediate stage in its formation. This case can be viewed as a molecular instance of the eye problem, a classical paradigm of natural selection which states that every step in the evolutionary formation of a functional structure must be functional. The glycogen molecule has a highly optimized structure for its metabolic function, but the optimization of the full molecule has meaning and can be understood only by taking into account the optimization of each intermediate stage in its formation.
细胞代谢中分子设计的优化是保证良好结构 - 功能关系的必要条件。我们通过先前提出的描述糖原结构及其优化功能的数学模型,研究了糖原设计中的这一特征[梅伦德斯 - 埃维亚等人(1993年),《生物化学杂志》295: 477 - 483]。我们的结果表明,细胞糖原的结构与这些原则高度一致。由于糖原中储存的葡萄糖必须随时准备在其合成或降解的任何阶段被利用,糖原结构的完全优化必然也意味着其形成过程中每个中间阶段的优化。这种情况可以看作是眼睛问题的分子实例,眼睛问题是自然选择的经典范例,它表明功能结构进化形成过程中的每一步都必须是有功能的。糖原分子具有针对其代谢功能高度优化的结构,但整个分子的优化只有在考虑到其形成过程中每个中间阶段的优化时才有意义且能够被理解。