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1
Signal and membrane anchor functions overlap in the type II membrane protein I gamma CAT.信号和膜锚定功能在II型膜蛋白IγCAT中重叠。
J Cell Biol. 1988 Jun;106(6):1813-20. doi: 10.1083/jcb.106.6.1813.
2
Residues flanking the COOH-terminal C-region of a model eukaryotic signal peptide influence the site of its cleavage by signal peptidase and the extent of coupling of its co-translational translocation and proteolytic processing in vitro.一个典型真核信号肽COOH末端C区域两侧的残基,在体外会影响其被信号肽酶切割的位点,以及其共翻译转运与蛋白水解加工的偶联程度。
J Biol Chem. 1990 Dec 15;265(35):21797-803.
3
The membrane-spanning segment of invariant chain (I gamma) contains a potentially cleavable signal sequence.恒定链(Iγ)的跨膜区段包含一个潜在可切割的信号序列。
Cell. 1986 Sep 26;46(7):1103-12. doi: 10.1016/0092-8674(86)90710-5.
4
A tripartite structure of the signals that determine protein insertion into the endoplasmic reticulum membrane.决定蛋白质插入内质网膜的信号的三方结构。
J Cell Biol. 1989 Apr;108(4):1227-36. doi: 10.1083/jcb.108.4.1227.
5
Parallel effects of signal peptide hydrophobic core modifications on co-translational translocation and post-translational cleavage by purified signal peptidase.信号肽疏水核心修饰对通过纯化信号肽酶进行的共翻译转运和翻译后切割的平行效应。
J Biol Chem. 1989 Sep 5;264(25):15052-8.
6
Processing of human cytomegalovirus UL37 mutant glycoproteins in the endoplasmic reticulum lumen prior to mitochondrial importation.人巨细胞病毒UL37突变糖蛋白在线粒体导入之前在内质网腔中的加工过程。
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7
Transformation of the signal peptide/membrane anchor domain of a type II transmembrane protein into a cleavable signal peptide.将II型跨膜蛋白的信号肽/膜锚定结构域转化为可裂解的信号肽。
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8
Eukaryotic signal peptide structure/function relationships. Identification of conformational features which influence the site and efficiency of co-translational proteolytic processing by site-directed mutagenesis of human pre(delta pro)apolipoprotein A-II.真核信号肽的结构/功能关系。通过对人前(δ原)载脂蛋白A-II进行定点诱变,鉴定影响共翻译蛋白水解加工位点和效率的构象特征。
J Biol Chem. 1989 Mar 5;264(7):3979-87.
9
Structural features in the NH2-terminal region of a model eukaryotic signal peptide influence the site of its cleavage by signal peptidase.一种真核生物信号肽模型氨基末端区域的结构特征会影响信号肽酶对其的切割位点。
J Biol Chem. 1990 Oct 5;265(28):17202-8.
10
A nonfunctional sequence converted to a signal for glycophosphatidylinositol membrane anchor attachment.一个无功能序列转变为糖基磷脂酰肌醇膜锚定附着的信号。
J Cell Biol. 1991 Oct;115(2):329-36. doi: 10.1083/jcb.115.2.329.

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1
Ebola virus glycoprotein counteracts BST-2/Tetherin restriction in a sequence-independent manner that does not require tetherin surface removal.埃博拉病毒糖蛋白以不依赖于 tetherin 表面去除的序列非依赖性方式拮抗 BST-2/Tetherin 的限制。
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Biogenesis of CFTR and other polytopic membrane proteins: new roles for the ribosome-translocon complex.囊性纤维化跨膜传导调节因子(CFTR)及其他多跨膜蛋白的生物合成:核糖体 - 易位子复合体的新作用
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Sec61p is adjacent to nascent type I and type II signal-anchor proteins during their membrane insertion.Sec61p在新生的I型和II型信号锚定蛋白插入膜的过程中与其相邻。
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The v-sis protein retains biological activity as a type II membrane protein when anchored by various signal-anchor domains, including the hydrophobic domain of the bovine papilloma virus E5 oncoprotein.当通过各种信号锚定结构域(包括牛乳头瘤病毒E5癌蛋白的疏水结构域)锚定时,v-sis蛋白作为II型膜蛋白保留生物活性。
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5
Structural requirements for membrane assembly of proteins spanning the membrane several times.多次跨膜蛋白的膜组装结构要求。
J Cell Biol. 1989 Nov;109(5):2013-22. doi: 10.1083/jcb.109.5.2013.
6
A tripartite structure of the signals that determine protein insertion into the endoplasmic reticulum membrane.决定蛋白质插入内质网膜的信号的三方结构。
J Cell Biol. 1989 Apr;108(4):1227-36. doi: 10.1083/jcb.108.4.1227.
7
Targeting and processing of glycophorins in murine erythroleukemia cells: use of brefeldin A as a perturbant of intracellular traffic.小鼠红白血病细胞中血型糖蛋白的靶向与加工:使用布雷菲德菌素A作为细胞内运输的干扰剂
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8
Insertion of proteins into bacterial membranes: mechanism, characteristics, and comparisons with the eucaryotic process.蛋白质插入细菌膜的过程:机制、特点及其与真核生物过程的比较。
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9
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10
Positively charged amino acid residues can act as topogenic determinants in membrane proteins.带正电荷的氨基酸残基可作为膜蛋白中的拓扑结构决定因素。
Proc Natl Acad Sci U S A. 1989 Dec;86(23):9446-50. doi: 10.1073/pnas.86.23.9446.

本文引用的文献

1
Isolation of intracellular membranes by means of sodium carbonate treatment: application to endoplasmic reticulum.通过碳酸钠处理分离细胞内膜:应用于内质网
J Cell Biol. 1982 Apr;93(1):97-102. doi: 10.1083/jcb.93.1.97.
2
Purification of a membrane-associated protein complex required for protein translocation across the endoplasmic reticulum.内质网蛋白质转运所需的膜相关蛋白质复合物的纯化。
Proc Natl Acad Sci U S A. 1980 Dec;77(12):7112-6. doi: 10.1073/pnas.77.12.7112.
3
Charge clusters and the orientation of membrane proteins.电荷簇与膜蛋白的取向
J Membr Biol. 1982;66(3):203-12. doi: 10.1007/BF01868495.
4
A signal sequence is not sufficient to lead beta-galactosidase out of the cytoplasm.信号序列不足以引导β-半乳糖苷酶离开细胞质。
Nature. 1980 Jul 24;286(5771):356-9. doi: 10.1038/286356a0.
5
Glycosylation and surface expression of the influenza virus neuraminidase requires the N-terminal hydrophobic region.流感病毒神经氨酸酶的糖基化和表面表达需要N端疏水区域。
Mol Cell Biol. 1984 Jan;4(1):8-16. doi: 10.1128/mcb.4.1.8-16.1984.
6
Substrate recognition by oligosaccharyl transferase. Inhibition of co-translational glycosylation by acceptor peptides.寡糖基转移酶对底物的识别。受体肽对共翻译糖基化的抑制作用。
J Biol Chem. 1983 Dec 25;258(24):15255-60.
7
The complete sequence of the mRNA for the HLA-DR-associated invariant chain reveals a polypeptide with an unusual transmembrane polarity.与HLA - DR相关的恒定链的mRNA完整序列揭示了一种具有异常跨膜极性的多肽。
EMBO J. 1984 Apr;3(4):869-72. doi: 10.1002/j.1460-2075.1984.tb01898.x.
8
A novel in vitro transcription-translation system: accurate and efficient synthesis of single proteins from cloned DNA sequences.一种新型体外转录-翻译系统:从克隆的DNA序列中准确高效地合成单一蛋白质。
EMBO J. 1984 Dec 20;3(13):3143-8. doi: 10.1002/j.1460-2075.1984.tb02271.x.
9
NH2-terminal hydrophobic region of influenza virus neuraminidase provides the signal function in translocation.流感病毒神经氨酸酶的氨基末端疏水区域在转运过程中发挥信号功能。
Proc Natl Acad Sci U S A. 1984 Apr;81(8):2327-31. doi: 10.1073/pnas.81.8.2327.
10
cDNA clone for the human invariant gamma chain of class II histocompatibility antigens and its implications for the protein structure.人类Ⅱ类组织相容性抗原恒定γ链的cDNA克隆及其对蛋白质结构的意义。
Proc Natl Acad Sci U S A. 1983 Dec;80(24):7395-9. doi: 10.1073/pnas.80.24.7395.

信号和膜锚定功能在II型膜蛋白IγCAT中重叠。

Signal and membrane anchor functions overlap in the type II membrane protein I gamma CAT.

作者信息

Lipp J, Dobberstein B

机构信息

European Molecular Biology Laboratory, Heidelberg, Federal Republic of Germany.

出版信息

J Cell Biol. 1988 Jun;106(6):1813-20. doi: 10.1083/jcb.106.6.1813.

DOI:10.1083/jcb.106.6.1813
PMID:3290220
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2115136/
Abstract

I gamma CAT is a hybrid protein that inserts into the membrane of the endoplasmic reticulum as a type II membrane protein. These proteins span the membrane once and expose the NH2-terminal end on the cytoplasmic side and the COOH terminus on the exoplasmic side. I gamma CAT has a single hydrophobic segment of 30 amino acid residues that functions as a signal for membrane insertion and anchoring. The signal-anchor region in I gamma CAT was analyzed by deletion mutagenesis from its COOH-terminal end (delta C mutants). The results show that the 13 amino acid residues on the amino-terminal side of the hydrophobic segment are not sufficient for membrane insertion and translocation. Mutant proteins with at least 16 of the hydrophobic residues are inserted into the membrane, glycosylated, and partially proteolytically processed by a microsomal protease (signal peptidase). The degree of processing varies between different delta C mutants. Mutant proteins retaining 20 or more of the hydrophobic amino acid residues can span the membrane like the parent I gamma CAT protein and are not proteolytically processed. Our data suggest that in the type II membrane protein I gamma CAT, the signals for membrane insertion and anchoring are overlapping and that hydrophilic amino acid residues at the COOH-terminal end of the hydrophobic segment can influence cleavage by signal peptidase. From this and previous work, we conclude that the function of the signal-anchor sequence in I gamma CAT is determined by three segments: a positively charged NH2 terminus, a hydrophobic core of at least 16 amino acid residues, and the COOH-terminal flanking hydrophilic segment.

摘要

IγCAT是一种杂合蛋白,作为II型膜蛋白插入内质网膜。这些蛋白跨膜一次,将NH2末端暴露于细胞质一侧,COOH末端暴露于外质一侧。IγCAT有一个由30个氨基酸残基组成的单一疏水片段,其作用是作为膜插入和锚定的信号。通过从其COOH末端进行缺失诱变(δC突变体)来分析IγCAT中的信号锚定区域。结果表明,疏水片段氨基末端一侧的13个氨基酸残基不足以进行膜插入和转运。具有至少16个疏水残基的突变蛋白被插入膜中,进行糖基化,并被微粒体蛋白酶(信号肽酶)部分进行蛋白水解加工。不同δC突变体之间的加工程度有所不同。保留20个或更多疏水氨基酸残基的突变蛋白可以像亲本IγCAT蛋白一样跨膜,并且不被蛋白水解加工。我们的数据表明,在II型膜蛋白IγCAT中,膜插入和锚定信号是重叠的,并且疏水片段COOH末端的亲水氨基酸残基可以影响信号肽酶的切割。基于此及之前的工作,我们得出结论,IγCAT中信号锚定序列的功能由三个部分决定:带正电荷的NH2末端、至少16个氨基酸残基的疏水核心以及COOH末端侧翼亲水片段。