Daniel Potter scite author profile

SummaryToc75 is postulated to form the protein translocation channel in the chloroplastic outer envelope membrane. Proteins homologous to Toc75 are present in a wide range of organisms, with the closest homologs occurring in cyanobacteria. Therefore, an endosymbiotic origin of Toc75 has been postulated. Recently, a gene encoding a paralog to Toc75 was identified in Arabidopsis and its product was named atToc75-V. In the present study, we characterized this new Toc75 paralog, and investigated extensively the relationships among Toc75 homologs from higher plants and bacteria in order to gain insights into the evolutionary origin of the chloroplastic protein translocation channel. First, we found that the native molecular weight of atToc75-V is 80 kDa and renamed it (AtOEP80) Arabidopsis thaliana outer envelope protein of 80 kDa. Second, we found that AtOEP80 and Toc75 utilize different mechanisms for their targeting to the chloroplastic envelope. Toc75 is directed with a cleavable bipartite transit peptide partly via the general import pathway, whereas AtOEP80 contains the targeting information within its mature sequence, and its targeting is independent of the general pathway. Third, we undertook phylogenetic analyses of Toc75 homologs from various organisms, and found that Toc75 and OEP80 represent two independent gene families that are most likely derived from cyanobacterial sequences. Our results suggest that Toc75 and OEP80 diverged early in the evolution of plastids from their common ancestor with modern cyanobacteria.

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Phylogenetic relationships of the ‘golden algae’ (haptophytes, heterokont chromophytes) and their plastids

Medlin¹,

Kooistra²,

Potter³

et al. 1997

121

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Phylogenetic relationships in tribe Spiraeeae (Rosaceae) inferred from nucleotide sequence data

et al. 2007

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Phylogenetic analysis of morphology in Prunus reveals extensive homoplasy

2006

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Daniel Potter

Phylogeny and classification of Rosaceae

Identification of the Worldwide Olive Germplasm Bank of Córdoba (Spain) using SSR and morphological markers

Multiple Models for Rosaceae Genomics

Diversification of almonds, peaches, plums and cherries – Molecular systematics and biogeographic history of Prunus (Rosaceae)

The chloroplastic protein translocation channel Toc75 and its paralog OEP80 represent two distinct protein families and are targeted to the chloroplastic outer envelope by different mechanisms

Phylogenetic relationships of the ‘golden algae’ (haptophytes, heterokont chromophytes) and their plastids

Phylogenetic relationships in tribe Spiraeeae (Rosaceae) inferred from nucleotide sequence data

Phylogenetic analysis of morphology in Prunus reveals extensive homoplasy

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