极端条件下的脂质糖载体:古菌用于 N-糖基化的磷酸多萜醇。
Lipid sugar carriers at the extremes: The phosphodolichols Archaea use in N-glycosylation.
机构信息
Department of Life Sciences, Ben Gurion University of the Negev, Beersheva 84105, Israel.
Department of Biochemistry, Duke University Medical Center, Durham, NC 27710, USA.
出版信息
Biochim Biophys Acta Mol Cell Biol Lipids. 2017 Jun;1862(6):589-599. doi: 10.1016/j.bbalip.2017.03.005. Epub 2017 Mar 19.
Abstract
N-glycosylation, a post-translational modification whereby glycans are covalently linked to select Asn residues of target proteins, occurs in all three domains of life. Across evolution, the N-linked glycans are initially assembled on phosphorylated cytoplasmically-oriented polyisoprenoids, with polyprenol (mainly C undecaprenol) fulfilling this role in Bacteria and dolichol assuming this function in Eukarya and Archaea. The eukaryal and archaeal versions of dolichol can, however, be distinguished on the basis of their length, degree of saturation and by other traits. As is true for many facets of their biology, Archaea, best known in their capacity as extremophiles, present unique approaches for synthesizing phosphodolichols. At the same time, general insight into the assembly and processing of glycan-bearing phosphodolichols has come from studies of the archaeal enzymes responsible. In this review, these and other aspects of archaeal phosphodolichol biology are addressed.
摘要
N-糖基化是一种翻译后修饰过程,其中聚糖通过共价键连接到靶蛋白的选定 Asn 残基上,发生在所有三个生命领域。在进化过程中,N-连接的聚糖最初在磷酸化的细胞质多萜醇上组装,其中多萜醇(主要是 C11 十一碳烯醇)在细菌中起此作用,而在真核生物和古菌中则由 dolichol 承担此功能。然而,真核生物和古菌版本的 dolichol 可以根据其长度、饱和度和其他特征来区分。正如它们生物学的许多方面一样,以极端微生物而闻名的古菌为合成磷酸多萜醇呈现出独特的方法。同时,对负责糖基化磷酸多萜醇组装和加工的古菌酶的研究为我们提供了对这一过程的全面了解。在这篇综述中,我们将讨论古菌磷酸多萜醇生物学的这些和其他方面。
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