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1979From extracellular to intracellular: the establishment of mitochondria and chloroplastsProc. R. Soc. Lond. B.204165–187http://doi.org/10.1098/rspb.1979.0020

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From extracellular to intracellular: the establishment of mitochondria and chloroplasts

Jean M. Whatley

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P. John

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Frederick Robert Whatley

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Jean M. Whatley

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P. John

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Frederick Robert Whatley

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Published:11 April 1979https://doi.org/10.1098/rspb.1979.0020

Abstract

Paracoccus and Rhodopseudomonas are unusual among bacteria in having a majority of the biochemical features of mitochondria; blue-green algae have many of the features of chloroplasts. The theory of serial endo-symbiosis proposes that a primitive eukaryote successively took up bacteria and blue-green algae to yield mitochondria and chloroplasts respectively. Possible characteristics of transitional forms are indicated both by the primitive amoeba, Pelomyxa, which lacks mitochondria but contains a permanent population of endosymbiotic bacteria, and by several anomalous eukaryotic algae, e. g. Cyanophora, which contain cyanelles instead of chloroplasts. Blue-green algae appear to be obvious precursors of red algal chloroplasts but the ancestry of other chloroplasts is less certain, though the epizoic symbiont, Prochloron, may resemble the ancestral green algal chloroplast. We speculate that the chloroplasts of the remaining algae may have had a eukaryotic origin. The evolution of organelles from endosymbiotic precursors would involve their integration with the host cell biochemically, structurally and numerically.

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This Issue

11 April 1979

Volume 204Issue 1155

Article Information

DOI:https://doi.org/10.1098/rspb.1979.0020
PubMed:36620
Published by:Royal Society
Print ISSN:0080-4649
Online ISSN:2053-9193

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Published online01/01/1997
Published in print11/04/1979

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From extracellular to intracellular: the establishment of mitochondria and chloroplasts

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