Martina Maerz scite author profile

Martina Maerz

5Publications

39Citation Statements Received

30Citation Statements Given

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Institut für biologische Forschung, University of Freiburg

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Twintrons are not unique to the Euglena chloroplast genome: structure and evolution of a plastome cpn60 gene from a cryptomonad

Maier¹,

Rensing²,

Igloi³

et al. 1995

Molec. Gen. Genet.

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Introns within introns (twintrons) are known only from the Euglena chloroplast genome. Twintrons are group II or III introns, into which another group II or III intron has been transposed. In this paper we describe a non-Euglena twintron structure within a plastid-encoded chaperone gene (cpn60) of the cryptomonad alga Pyrenomonas salina. In addition, the evolutionary relationships between members of the Cpn60 protein family are determined. Our findings permit the inclusion of cryptomonad plastomes in phylogenetic studies of intron evolution and present further evidence for the origin of modern plastids from a cyanobacterial ancestor.

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Plastid DNA from Pyrenomonas salina (Cryptophyceae): physical map, genes, and evolutionary implications

et al. 1992

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Cryptomonads are thought to have arisen from a symbiotic association between a eukaryotic flagellated host and a eukaryotic algal symbiont, presumably related to red algae. As organellar DNAs have proven to be useful tools in elucidating phylogenetic relationships, the plastid (pt) DNA of the cryptomonad alga Pyrenomonas salina has been characterized in some detail. A restriction map of the circular 127 kb ptDNA from Pyrenomonas salina was established. An inverted repeat (IR) region of about 5 kb separates two single-copy regions of 15 and 102 kb, respectively. It contains the genes for the small and large subunit of rRNA. Ten protein genes, coding for the large subunit of ribulose-1,5-bisphosphate carboxylase, the 47 kDa, 43 kDa and 32 kDa proteins of photosystem II, the ribosomal proteins L2, S7 and S11, the elongation factor Tu, as well as the alpha- and beta-subunits of ATP synthase, have been localized on the restriction map either by hybridization of heterologous gene probes or by sequence homologies. The gene for the plastidal small subunit (SSUr) RNA has been sequenced and compared to homologous SSU regions from the cyanobacterium Anacystis nidulans and plastids from rhodophytes, chromophytes, euglenoids, chlorophytes, and land plants. A phylogenetic tree constructed with the neighborliness method and indicating a relationship of cryptomonad plastids with those of red algae is presented.

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Cytosymbiosis

Hansmann

Maerz

Sitte

1989

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Evolutionary analysis of the plastid-encoded gene for the ? subunit of the DNA-dependent RNA polymerase of Pyrenomonas salina (cryptophyceae)

Maerz¹,

Rensing²,

Igloi³

et al. 1992

Curr Genet

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Isolation, physical map and gene map of mitochondrial DNA from the cryptomonad Pyrenomonas salina

Maerz¹,

Sitte²

1991

Plant Mol Biol

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Mitochondrial DNA (mtDNA) from the cryptomonad Pyrenomonas salina was isolated by CsCl-buoyant density centrifugation of whole-cell DNA in the presence of Hoechst dye 33258. mtDNA consists of circular molecules about 47 kb in size as estimated from restriction enzyme analysis. A physical map for six restriction enzymes (Bam HI, Bge I, Eco RI, Pst I, Sac I and Sal I) has been constructed. Genes coding for the small subunit of rRNA, cytochrome oxidase subunits I and II, and apocytochrome b were localized on this map using Southern blot hybridization with heterologous gene probes from Oenothera. Genes for 5S rRNA and NADH dehydrogenase subunit 5 are absent from P. salina mtDNA. The mitochondrial genome, being the first analysed to this extent in chromophytic algae, should be valuable for taxonomic and phylogenetic studies.

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Martina Maerz

Twintrons are not unique to the Euglena chloroplast genome: structure and evolution of a plastome cpn60 gene from a cryptomonad

Plastid DNA from Pyrenomonas salina (Cryptophyceae): physical map, genes, and evolutionary implications

Cytosymbiosis

Evolutionary analysis of the plastid-encoded gene for the ? subunit of the DNA-dependent RNA polymerase of Pyrenomonas salina (cryptophyceae)

Isolation, physical map and gene map of mitochondrial DNA from the cryptomonad Pyrenomonas salina

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