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液泡H⁺-ATP酶的进化:对真核生物起源的启示

Evolution of the vacuolar H+-ATPase: implications for the origin of eukaryotes.

作者信息

Gogarten J P, Kibak H, Dittrich P, Taiz L, Bowman E J, Bowman B J, Manolson M F, Poole R J, Date T, Oshima T, Konishi J, Denda K, Yoshida M

机构信息

Department of Biology, University of California-Santa Cruz 95064.

出版信息

Proc Natl Acad Sci U S A. 1989 Sep;86(17):6661-5. doi: 10.1073/pnas.86.17.6661.

DOI:10.1073/pnas.86.17.6661
PMID:2528146
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC297905/
Abstract

Active transport across the vacuolar components of the eukaryotic endomembrane system is energized by a specific vacuolar H+-ATPase. The amino acid sequences of the 70- and 60-kDa subunits of the vacuolar H+-ATPase are approximately equal to 25% identical to the beta and alpha subunits, respectively, of the eubacterial-type F0F1-ATPases. We now report that the same vacuolar H+-ATPase subunits are approximately equal to 50% identical to the alpha and beta subunits, respectively, of the sulfur-metabolizing Sulfolobus acidocaldarius, an archaebacterium (Archaeobacterium). Moreover, the homologue of an 88-amino acid stretch near the amino-terminal end of the 70-kDa subunit is absent from the F0F1-ATPase beta subunit but is present in the alpha subunit of Sulfolobus. Since the two types of subunits (alpha and beta subunits; 60- and 70-kDa subunits) are homologous to each other, they must have arisen by a gene duplication that occurred prior to the last common ancestor of the eubacteria, eukaryotes, and Sulfolobus. Thus, the phylogenetic tree of the subunits can be rooted at the site where the gene duplication occurred. The inferred evolutionary tree contains two main branches: a eubacterial branch and an eocyte branch that gave rise to Sulfolobus and the eukaryotic host cell. The implication is that the vacuolar H+-ATPase of eukaryotes arose by the internalization of the plasma membrane H+-ATPase of an archaebacterial-like ancestral cell.

摘要

真核内膜系统液泡成分的主动运输由一种特定的液泡H⁺-ATP酶提供能量。液泡H⁺-ATP酶70 kDa和60 kDa亚基的氨基酸序列分别与真细菌型F₀F₁-ATP酶的β亚基和α亚基约25%相同。我们现在报告,相同的液泡H⁺-ATP酶亚基分别与嗜热栖热菌(一种古细菌)的α亚基和β亚基约50%相同。此外,在70 kDa亚基氨基末端附近的一个88个氨基酸片段的同源物在F₀F₁-ATP酶β亚基中不存在,但存在于嗜热栖热菌的α亚基中。由于这两种亚基(α亚基和β亚基;60 kDa和70 kDa亚基)彼此同源,它们必定是由在真细菌、真核生物和嗜热栖热菌的最后共同祖先之前发生的基因复制产生的。因此,亚基的系统发育树可以在基因复制发生的位置生根。推断的进化树包含两个主要分支:一个真细菌分支和一个产生嗜热栖热菌和真核宿主细胞的初核细胞分支。这意味着真核生物的液泡H⁺-ATP酶是由类似古细菌的祖先细胞质膜H⁺-ATP酶内化产生的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9feb/297905/e739310b9e67/pnas00284-0230-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9feb/297905/e739310b9e67/pnas00284-0230-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9feb/297905/e739310b9e67/pnas00284-0230-a.jpg

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