Results 281 to 290 of about 52,499 (293)
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Intervening sequences in chloroplast genomes
Cell, 1984Chloroplast DNAs from the green algae Euglena gracilis and from broad beans (Vicia faba) were hybridized with homologous chloroplast RNA. The hybrids were analyzed by electron microscopy. Almost all transcribed regions of the Euglena genome, except for the rRNA genes, contain intervening sequences.
Barbara Koller, Hajo Delius
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The chloroplast genome of Carthamus tinctorius
Molecular and Cellular Biochemistry, 1985A physical map of safflower (Carthamus tinctorius L.) chloroplast DNA has been generated using SalI, PstI, KpnI and HindIII restriction endonucleases. Southern blots to single and double digests by these enzymes were hybridized with 32P-dCTP nick-translated KpnI probes, which were individually isolated from agarose gels. The plastid genome was found to
Cheng Ma, Marvin A. Smith
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2019
In the last years, the availability of chloroplast genomes for plants and algae is increasing. These data can be useful both in the biotechnological area and in the evolutionary field, for the analysis of phylogenetic relationships among groups of organisms.
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In the last years, the availability of chloroplast genomes for plants and algae is increasing. These data can be useful both in the biotechnological area and in the evolutionary field, for the analysis of phylogenetic relationships among groups of organisms.
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Nicotiana chloroplast genome III. Chloroplast DNA evolution
Theoretical and Applied Genetics, 1982Nicotiana chloroplast genomes exhibit a high degree of diversity and a general similarity as revealed by restriction enzyme analysis. This property can be measured accurately by restriction enzymes which generate over 20 fragments. However, the restriction enzymes which generate a small number (about 10) of fragments are extremely useful not only in ...
G. F. Shen, Y. S. Zhu, S. D. Kung
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Chloroplast research in the genomic age
Trends in Genetics, 2003Chloroplast research takes significant advantage of genomics and genome sequencing, and a new picture is emerging of how the chloroplast functions and communicates with other cellular compartments. In terms of evolution, it is now known that only a fraction of the many proteins of cyanobacterial origin were rerouted to higher plant plastids.
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Organization of chloroplast genomes
Advances in Biophysics, 1986Masahiro Sugiura, Kazuo Shinozaki
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The chloroplast genome and the biogenesis of the chloroplast thylakoid membrane
Biochemical Society Transactions, 1988John C. Gray +8 more
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COMPARATIVE ORGANIZATION OF CHLOROPLAST GENOMES
Annual Review of Genetics, 1985openaire +3 more sources
Nicotiana chloroplast genome [PDF]
Molecular and General Genetics MGG, 1981 S. D. Kung, Y. S. Zhu, P. R. Rhodes
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