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转运RNA与血红素和叶绿素前体5-氨基乙酰丙酸的形成

Transfer RNA and the formation of the heme and chlorophyll precursor, 5-aminolevulinic acid.

作者信息

O'Neill G P, Söll D

机构信息

Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, CT 06511.

出版信息

Biofactors. 1990 Oct;2(4):227-35.

PMID:2282139
Abstract

5-Aminolevulinic acid is the first committed precursor for the synthesis of porphyrins such as hemes and chlorophylls. In many organisms aminolevulinate is synthesized from glutamate in a three-step pathway (C5 pathway). The key step in this conversion is a tRNA-mediated reduction of glutamate to glutamate-1-semialdehyde. tRNA is a specific cofactor for an NADPH-dependent enzyme, Glu-tRNA reductase, which is capable of sequence-specific recognition of Glu-tRNA(Glu). tRNA(Glu) is a dual-function molecule; it participates both in protein and in aminolevulinate biosynthesis. This reduction reaction represents a novel role for tRNA where it participates in a metabolic conversion of its amino acid into a low molecular weight metabolite which is subsequently not used in peptide bond synthesis.

摘要

5-氨基乙酰丙酸是合成血红素和叶绿素等卟啉的首个特定前体。在许多生物体中,氨基乙酰丙酸通过三步途径(C5途径)由谷氨酸合成。这一转化过程的关键步骤是tRNA介导的谷氨酸还原为谷氨酸-1-半醛。tRNA是一种依赖NADPH的酶即谷氨酸-tRNA还原酶的特异性辅因子,该酶能够对谷氨酸-tRNA(Glu)进行序列特异性识别。tRNA(Glu)是一种具有双重功能的分子;它既参与蛋白质生物合成,也参与氨基乙酰丙酸生物合成。这种还原反应代表了tRNA的一种新作用,即它参与将其氨基酸代谢转化为一种低分子量代谢物,而该代谢物随后并不用于肽键合成。

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