Department of Biological Chemistry, University of Michigan Medical Center, Ann Arbor, MI 48109-5606, USA.
Curr Opin Chem Biol. 2009 Oct;13(4):484-91. doi: 10.1016/j.cbpa.2009.07.007. Epub 2009 Aug 7.
The recognition of eight discrete genetic complementation groups among patients with inherited cobalamin disorders provided early insights into the complexity of a cofactor-processing pathway that supports only two known B(12)-dependent enzymes in mammals. With the identification of all eight genes now completed, biochemical interrogations of their functions have started and are providing novel insights into a trafficking pathway involving porters that tinker with and tailor the active cofactor forms and editors that ensure the fidelity of the cofactor loading process. The principles of sequestration and escorted delivery of a rare and reactive organometallic cofactor that are emerging from studies on B(12) might be of general relevance to other cofactor trafficking pathways.
在遗传性钴胺素代谢紊乱患者中,有 8 个不同的遗传互补群被识别,这为支持哺乳动物中仅两种已知的钴胺素依赖酶的辅助因子加工途径的复杂性提供了早期认识。随着对所有 8 个基因的鉴定的完成,对其功能的生化研究已经开始,并为涉及搬运工的运输途径提供了新的见解,这些搬运工可以调整和定制活性辅助因子形式,以及确保辅助因子加载过程保真度的编辑者。从钴胺素研究中涌现出的稀有反应性有机金属辅助因子的隔离和护送递呈原则可能与其他辅助因子运输途径具有普遍相关性。