Results 271 to 280 of about 1,046,063 (309)

Ins and outs of plastid genome evolution

Current Opinion in Genetics & Development, 1991
Recent findings have established cracks in the straight-laced image of the plastid genome as a molecule whose sole function is photosynthesis and whose gene content is highly conserved. Genes for numerous non-photosynthetic functions have been identified.
K H, Wolfe, C W, Morden, J D, Palmer
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Engineering the plastid genome of higher plants

Current Opinion in Plant Biology, 2002
The plastid genome of higher plants is an attractive target for engineering because it provides readily obtainable high protein levels, the feasibility of expressing multiple proteins from polycistronic mRNAs and gene containment through the lack of pollen transmission.
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Regulatory Interactions Between Nuclear And Plastid Genomes

Annual Review of Plant Physiology and Plant Molecular Biology, 1989
Article de synthese sur les interactions entre les genomes nucleaires et plastidiques chez les vegetaux comprenant la regulation nucleaire des genes de developpement des plastes et le controle chloroplastique de l'expression des genes ...
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From Plastid to Cyanobacterial Genomes

1999
Non-Mendelian inheritance was found based on studies of variegation in higher plants early in this century. Further analysis of variegation revealed that the genetic determinants for these characters were associated with plastids. The demonstration of unique DNA molecules in chloroplasts, half a century later, has led to intensive studies of both the ...
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From chloroplasts to “cryptic” plastids: evolution of plastid genomes in parasitic plants

Current Genetics, 2008
To date, more than 130 plastid genomes (plastomes) have been completely sequenced. Of those, 12 are strongly reduced plastid genomes from heterotrophic plants or plant-related species that exhibit a parasitic lifestyle. Half of these species are land plants while the other half consists of unicellular species that have evolved from photosynthetic algae.
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Extranuclear Inheritance: Plastid Genetics: Manipulation of Plastid Genomes and Biotechnological Applications

2000
When Erwin Baur, at the beginning of this century, proposed that the non-Mendelian inheritance of leaf variegations can be explained with the assumption that chloroplasts (plastids) contain their own genetic information (Baur 1909, 1910), he found himself confronted with the sheer disbelief of many of his colleagues (Hagemann 1999).
Bock, R., Hagemann, R.
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Organization and Expression of Plastid Genomes

1982
A green plant contains at least three types of organelles - nucleus, mitochondrion and plastid - which replicate, transcribe and express their genetic information in a coordinated way. The existence of DNA in plastids might have been inferred already from the genetic studies of Baur (1909) and Correns (1909), provided that the DNA-chromosome-gene ...
H. J. Bohnert, E. J. Crouse, J. M. Schmitt   +2 more
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Plastid Genomes

2007
R. M. Maier, C. Schmitz-Linneweber
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Plastid genome structure and phylogenomics of Nymphaeales: conserved gene order and new insights into relationships

Plant Systematics and Evolution, 2017
Michael Gruenstaeudl, Lars Nauheimer, T. Borsch   +2 more
semanticscholar   +1 more source

Evolution of the Plastid Genome in Green Algae

, 2018
M. Turmel, C. Lemieux
semanticscholar   +1 more source