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    • 7. 发明授权
    • Methods and microorganisms for production of panto-compounds
    • 泛化合物生产方法和微生物
    • US08232081B2
    • 2012-07-31
    • US10984449
    • 2004-11-08
    • R. Rogers YocumThomas A. PattersonTheron HermannJanice G. Pero
    • R. Rogers YocumThomas A. PattersonTheron HermannJanice G. Pero
    • C12P13/04C12P13/02C12P7/42C12P7/18
    • C12P17/04C12N15/52C12P13/02
    • The present invention features methods of producing panto-compounds (e.g., pantothenate) using microorganisms in which the pantothenate biosynthetic pathway and/or the isoleucine-valine biosynthetic pathway and/or the coenzymeA biosynthetic pathway has been manipulated. Methods featuring ketopantoate reductase overexpressing microorganisms as well as aspartate α-decarboxylase overexpressing microorganisms are provided. Methods of producing panto-compounds in a precursor-independent manner and in high yield are described. Recombinant microorganisms, vectors, isolated nucleic acid molecules, genes and gene products useful in practicing the above methodologies are also provided. The present invention also features a previously unidentified microbial pantothenate kinase gene, coaX, as well as methods of producing panto-compounds utilizing microorganisms having modified pantothenate kinase activity. Recombinant microorganisms, vectors, isolated coaX nucleic acid molecules and purified CoaX proteins are featured. Also featured are methods for identifying pantothenate kinase modulators utilizing the recombinant microorganisms and/or purified CoaX proteins of the present invention.
    • 本发明的特征在于使用其中泛酸生物合成途径和/或异亮氨酸 - 缬氨酸生物合成途径和/或辅酶A生物合成途径已经被操纵的微生物来生产泛化合物(例如泛酸盐)的方法。 提供了酮过氧还原酶过表达微生物以及天冬氨酸α-脱羧酶过表达微生物的方法。 描述了以前体非依赖性方式和高产率生产泛化合物的方法。 还提供了用于实践上述方法的重组微生物,载体,分离的核酸分子,基因和基因产物。 本发明还具有以前未鉴定的微生物泛酸激酶基因coaX,以及利用具有改良的泛酸激酶活性的微生物产生泛化合物的方法。 重组微生物,载体,分离的coaX核酸分子和纯化的CoaX蛋白。 还特征在于利用本发明的重组微生物和/或纯化的CoaX蛋白鉴定泛酸激酶调节剂的方法。