Nuclear genome sequence of the plastid-lacking cryptomonad Goniomonas avonlea provides insights into the evolution of secondary plastids

Ugo Cenci; Shannon J. Sibbald; Bruce A. Curtis; Ryoma Kamikawa; Laura Eme; Daniel Moog; Bernard Henrissat; Eric Maréchal; Malika Chabi; Christophe Djemiel; Eunsoo Kim; John M. Archibald

doi:https://doi.org/10.1186/s12915-018-0593-5

doi.org/10.1186/s12915-018-0593-5

Nuclear genome sequence of the plastid-lacking cryptomonad Goniomonas avonlea provides insights into the evolution of secondary plastids

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..., John M. Archibald

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BMC Biology5.40

Volume: 16, Issue: 1

Published: Nov 28, 2018

Abstract

The evolution of photosynthesis has been a major driver in eukaryotic diversification. Eukaryotes have acquired plastids (chloroplasts) either directly via the engulfment and integration of a photosynthetic cyanobacterium (primary endosymbiosis) or indirectly by engulfing a photosynthetic eukaryote (secondary or tertiary endosymbiosis). The timing and frequency of secondary endosymbiosis during eukaryotic evolution is currently unclear but may...

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Paper Details

Title

Nuclear genome sequence of the plastid-lacking cryptomonad Goniomonas avonlea provides insights into the evolution of secondary plastids

DOI

doi.org/10.1186/s12915-018-0593-5

Published Date

Nov 28, 2018

Journal

BMC Biology

Volume

16

Issue

1

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