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卵磷脂视黄醇酰基转移酶跨膜结构域缺失形式的纯化与鉴定

Purification and characterization of a transmembrane domain-deleted form of lecithin retinol acyltransferase.

作者信息

Bok Dean, Ruiz Alberto, Yaron Orna, Jahng Wan Jin, Ray Arghya, Xue Linlong, Rando Robert R

机构信息

Department of Neurobiology, Jules Stein Eye Institute, and Brain Research Institute, University of California, Los Angeles 90095, USA.

出版信息

Biochemistry. 2003 May 27;42(20):6090-8. doi: 10.1021/bi0342416.

DOI:10.1021/bi0342416
PMID:12755610
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5507194/
Abstract

Lecithin retinol acyltransferase (LRAT) catalyzes the esterification of all-trans-retinol into all-trans-retinyl ester, an essential reaction in the vertebrate visual cycle. Since all-trans-retinyl esters are the substrates for the isomerization reaction that generates 11-cis-retinoids, this esterification reaction is essential in the operation of the visual cycle. In addition, LRAT is the founder member of a series of proteins, which are of novel sequence and have unknown functions. Native LRAT is an integral membrane protein and has never been purified. To obtain a pure LRAT, the N- and C-transmembrane termini were deleted and replaced with a poly His tag for the purpose of purification. This truncated form of LRAT, referred to as tLRAT, has been expressed in bacteria and fully purified. tLRAT is catalytically active and processes all-trans-retinol at least 10-fold more efficiently than 11-cis-retinol, the precursor to the visual chromophore. While tLRAT can be robustly expressed in bacteria, it requires detergent for extraction, as the enzyme still contains hydrophobic domains, which may interact. Indeed, tLRAT can oligomerize and forms dimers. Native LRAT also forms functional homodimers. These studies pave the way for the preparation of large-scale amounts of pure tLRAT for further mechanistic and structural studies.

摘要

卵磷脂视黄醇酰基转移酶(LRAT)催化全反式视黄醇酯化生成全反式视黄酯,这是脊椎动物视觉循环中的一个关键反应。由于全反式视黄酯是生成11-顺式视黄醛类物质的异构化反应的底物,因此该酯化反应在视觉循环的运作中至关重要。此外,LRAT是一系列蛋白质的创始成员,这些蛋白质具有新颖的序列且功能未知。天然LRAT是一种整合膜蛋白,从未被纯化过。为了获得纯的LRAT,删除了其N端和C端跨膜区域并用多聚组氨酸标签取代,以便于纯化。这种截短形式的LRAT,称为tLRAT,已在细菌中表达并完全纯化。tLRAT具有催化活性,处理全反式视黄醇的效率至少比视觉发色团的前体11-顺式视黄醇高10倍。虽然tLRAT可以在细菌中高效表达,但由于该酶仍含有可能相互作用的疏水结构域,提取时需要使用去污剂。实际上,tLRAT可以寡聚化并形成二聚体。天然LRAT也形成功能性同源二聚体。这些研究为大规模制备纯tLRAT以进行进一步的机制和结构研究铺平了道路。

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