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卵磷脂视黄醇酰基转移酶是一个新酶家族的创始成员。

Lecithin retinol acyltransferase is a founder member of a novel family of enzymes.

作者信息

Jahng Wan Jin, Xue Linlong, Rando Robert R

机构信息

Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, 45 Shattuck Street, Boston, Massachusetts 02115, USA.

出版信息

Biochemistry. 2003 Nov 11;42(44):12805-12. doi: 10.1021/bi035370p.

DOI:10.1021/bi035370p
PMID:14596594
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5511752/
Abstract

Lecithin retinol acyltransferase (LRAT) catalyzes the reversible esterification of vitamin A using lecithin as the acyl donor. LRAT is the founder member of a new class of enzymes, which include class II tumor suppressors, proteins essential for development, and putative proteases. All of these proteins possess Cys and His residues homologous to C161 and H60 of LRAT. These two residues are shown here to be essential for LRAT activity and are part of a catalytic dyad reminiscent of that found in thiol proteases. However, the local primary sequence contexts of C161 and H60 of LRAT and family are not at all homologous to those found in the approximately 20 thiol protease families. Moreover, LRAT shows pKs of 8.3 and 10.8, compared to approximately 4.0 and 8.5 observed in the thiol proteases. LRAT also contains Gln177 and Asp67 residues, which are largely conserved in the homologues. However, neither of these residues is essential for catalysis. Thiol proteases often contain catalytically essential Asp or Gln residues. It is concluded that LRAT is the founder member of a new class of Cys-His enzymes with diverse functions.

摘要

卵磷脂视黄醇酰基转移酶(LRAT)以卵磷脂作为酰基供体,催化维生素A的可逆酯化反应。LRAT是一类新酶的首个成员,这类酶包括II类肿瘤抑制因子、发育所必需的蛋白质以及假定的蛋白酶。所有这些蛋白质都具有与LRAT的C161和H60同源的半胱氨酸(Cys)和组氨酸(His)残基。此处显示这两个残基对LRAT活性至关重要,并且是一个催化二元组的一部分,这让人联想到在硫醇蛋白酶中发现的催化二元组。然而,LRAT及其家族的C161和H60的局部一级序列背景与大约20个硫醇蛋白酶家族中发现的序列背景完全不同源。此外,LRAT的pK值为8.3和10.8,而硫醇蛋白酶中观察到的pK值约为4.0和8.5。LRAT还含有Gln177和Asp67残基,这些残基在同源物中基本保守。然而,这两个残基对于催化都不是必需的。硫醇蛋白酶通常含有催化必需的天冬氨酸(Asp)或谷氨酰胺(Gln)残基。得出的结论是,LRAT是一类具有多种功能的新型半胱氨酸 - 组氨酸酶的首个成员。

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