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Adrian C Barbrook

Showing results (1-10 of 24) with videos related to

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Protist|July 9, 2024
Dinoflagellate chloroplasts as a model for extreme genome reduction and fragmentation in organelles - The COCOA principle for gene retentionChristopher J Howe, Adrian C Barbrook
Current Biology : CB|April 7, 2026
Evolution: When organelle genomes fall apartAdrian C Barbrook, Christopher J Howe
Trends in Plant Science|January 13, 2006
Why are plastid genomes retained in non-photosynthetic organisms?Adrian C Barbrook, Christopher J Howe, Saul Purton
Protist|December 10, 2013
The chloroplast genome of a Symbiodinium sp. clade C3 isolateAdrian C Barbrook, Christian R Voolstra, Christopher J Howe
Protist|April 19, 2006
Molecular diversity of dinoflagellate symbionts of Cnidaria: the psbA minicircle of SymbiodiniumAdrian C Barbrook, Shakil Visram, Angela E Douglas, et al.
Current Biology : CB|October 24, 2023
Evolution: The plasticity of plastidsChristopher J Howe, R Ellen R Nisbet, Adrian C Barbrook
Journal of Experimental Botany|March 6, 2008
The remarkable chloroplast genome of dinoflagellatesChristopher J Howe, R Ellen R Nisbet, Adrian C Barbrook
Journal of Theoretical Biology|March 25, 2004
Phylogenetics of artificial manuscriptsMatthew Spencer, Elizabeth A Davidson, Adrian C Barbrook, et al.
Gene|April 20, 2004
Novel plastid gene minicircles in the dinoflagellate Amphidinium operculatumR Ellen R Nisbet, Lila V Koumandou, Adrian C Barbrook, et al.
Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences|February 4, 2010
Organization and expression of organellar genomesAdrian C Barbrook, Christopher J Howe, Davy P Kurniawan, et al.
Pageof 3

Showing results (1-10 of 24) with videos related to

Sort By:
Pageof 3
Protist|July 9, 2024
Dinoflagellate chloroplasts as a model for extreme genome reduction and fragmentation in organelles - The COCOA principle for gene retentionChristopher J Howe, Adrian C Barbrook
Current Biology : CB|April 7, 2026
Evolution: When organelle genomes fall apartAdrian C Barbrook, Christopher J Howe
Trends in Plant Science|January 13, 2006
Why are plastid genomes retained in non-photosynthetic organisms?Adrian C Barbrook, Christopher J Howe, Saul Purton
Protist|December 10, 2013
The chloroplast genome of a Symbiodinium sp. clade C3 isolateAdrian C Barbrook, Christian R Voolstra, Christopher J Howe
Protist|April 19, 2006
Molecular diversity of dinoflagellate symbionts of Cnidaria: the psbA minicircle of SymbiodiniumAdrian C Barbrook, Shakil Visram, Angela E Douglas, et al.
Current Biology : CB|October 24, 2023
Evolution: The plasticity of plastidsChristopher J Howe, R Ellen R Nisbet, Adrian C Barbrook
Journal of Experimental Botany|March 6, 2008
The remarkable chloroplast genome of dinoflagellatesChristopher J Howe, R Ellen R Nisbet, Adrian C Barbrook
Journal of Theoretical Biology|March 25, 2004
Phylogenetics of artificial manuscriptsMatthew Spencer, Elizabeth A Davidson, Adrian C Barbrook, et al.
Gene|April 20, 2004
Novel plastid gene minicircles in the dinoflagellate Amphidinium operculatumR Ellen R Nisbet, Lila V Koumandou, Adrian C Barbrook, et al.
Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences|February 4, 2010
Organization and expression of organellar genomesAdrian C Barbrook, Christopher J Howe, Davy P Kurniawan, et al.
Pageof 3