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兼职蛋白:聚焦酶类

Moonlighting proteins: putting the spotlight on enzymes.

作者信息

Abolhassani Rad Sara, Clayton Emily J, Cornelius Emily J, Howes Travis R, Kohalmi Susanne E

机构信息

a Department of Biology , Western University , London , Canada.

出版信息

Plant Signal Behav. 2018;13(10):e1517075. doi: 10.1080/15592324.2018.1517075. Epub 2018 Sep 25.

DOI:10.1080/15592324.2018.1517075
PMID:30252596
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6204816/
Abstract

AROGENATE DEHAYDRATASE2 (ADT2) is a member of the Arabidopsis thaliana ADT family. All members of this family act as arogenate dehydratases in phenylalanine biosynthesis, decarboxylating/dehydrating arogenate to phenylalanine. ADT2 is detected in stromules, and as a ring around the equatorial plane of dividing chloroplasts, indicating it has a second, non-enzymatic function in chloroplast division. Here, we provide further evidence for this alternative role of ADT2. First, we demonstrate that ADT2 and FtsZ co-localize around the equatorial plane at the same time. Second, FtsZ expression in an adt2 mutant was analyzed, as well as ADT2 expression in three Arabidopsis chloroplast division mutants, ACCUMULATION AND REPLICATION OF CHLOROPLASTS3 (ARC3), ARC5 and ARC6. In arc3 and arc6 mutants, ADT2 is misexpressed and resembles the expression of FtsZ in the same mutants. However, in the arc5 mutant, ADT2 ring positioning is observed at constriction points indicating proper relative timing. ADT2 expression in the arc mutants shows that the role of ADT2 in chloroplast division occurs prior to ARC5, but is dependent on ARC3 and ARC6. Abbreviations used: ADT: arogenate dehydratase, ARC: accumulation and replication of chloroplasts, CFP: cyan fluorescent protein, dpi: days post infiltration, FtsZ: filamentous temperature sensitive Z, PD: plastid division, Phe: phenylalanine, YFP: yellow fluorescent protein.

摘要

莽草酸脱水酶2(ADT2)是拟南芥ADT家族的成员。该家族的所有成员在苯丙氨酸生物合成中都作为莽草酸脱水酶,将莽草酸脱羧/脱水生成苯丙氨酸。在叶绿体基质小管中可检测到ADT2,并且在分裂叶绿体的赤道平面周围呈环状,这表明它在叶绿体分裂中具有第二种非酶功能。在这里,我们为ADT2的这种替代作用提供了进一步的证据。首先,我们证明ADT2和FtsZ同时在赤道平面周围共定位。其次,分析了adt2突变体中FtsZ的表达,以及三个拟南芥叶绿体分裂突变体(叶绿体累积与复制3(ARC3)、ARC5和ARC6)中ADT2的表达。在arc3和arc6突变体中,ADT2表达错误,类似于同一突变体中FtsZ的表达。然而,在arc5突变体中,在缢缩点观察到ADT2环定位,表明相对时间合适。ADT2在arc突变体中的表达表明,ADT2在叶绿体分裂中的作用发生在ARC5之前,但依赖于ARC3和ARC6。使用的缩写:ADT:莽草酸脱水酶,ARC:叶绿体累积与复制,CFP:青色荧光蛋白,dpi:浸润后天数,FtsZ:丝状温度敏感Z,PD:质体分裂,Phe:苯丙氨酸,YFP:黄色荧光蛋白。

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J Exp Bot. 2017 Mar 1;68(7):1425-1440. doi: 10.1093/jxb/erx024.
3
Moonlighting chaperone-like activity of the universal regulatory 14-3-3 proteins.通用调节蛋白 14-3-3 的兼职伴护样活性。
FEBS J. 2017 May;284(9):1279-1295. doi: 10.1111/febs.13986. Epub 2017 Jan 6.
4
Metabolic Enzymes Moonlighting in the Nucleus: Metabolic Regulation of Gene Transcription.代谢酶在核内兼职:代谢对基因转录的调控。
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Identification of a small protein domain present in all plant lineages that confers high prephenate dehydratase activity.鉴定出存在于所有植物谱系中的一个小蛋白质结构域,其具有高预苯酸脱水酶活性。
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7
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Protein species and moonlighting proteins: Very small changes in a protein's covalent structure can change its biochemical function.蛋白质种类与兼职蛋白:蛋白质共价结构中非常微小的变化都可能改变其生化功能。
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Microsc Microanal. 2015 Apr;21(2):313-23. doi: 10.1017/S1431927615000082. Epub 2015 Mar 3.

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