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Restriction endonuclease cleavage site map of chloroplast DNA from Oenothera parviflora (Euoenothera plastome IV) (1981)

Gordon, K. H. J. ; Crouse, E. J. ; Bohnert, H. J. ; [et al.]

Springer

Theoretical and applied genetics 59 (1981), S. 281-296

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ISSN: 1432-2242

Keywords: Oenothera ; Chloroplast DNA fragments ; Reciprocal digestion ; Southern transfers ; Chloroplast rRNA hybridization

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary 1) More than 50 cleavage sites produced by the restriction endonucleases Sal I, Pst I, Kpn I, Sma I and Eco RI have been physically mapped on the 47 μm circular DNA molecule of the Euoenothera plastome IV. This plastome (= plastid genome) is considered to be the phylogenetically oldest of the subsection. 2) The DNA molecule is segmentally organized into four regions represented by a large duplicated sequence in inverted orientation whose copies are separated by two single-copy segments. The single-copy regions comprise about 14 and 57 Md in size, respectively. 3) The size of the inverted repeat, about 15 Md, was determined by restriction site mapping, by mapping of genes for ribosomal RNAs and by hybridization of a cRNA transcribed from a homologous part of Spinacia oleracea chloroplast DNA which appears to be phylogenetically conserved. 4) Hybridization of radio-iodinated spinach 16S, 23S and 5S chloroplast rRNA species to Southern blots of restricted plastome IV DNA has localized the rDNA to the inverted repeat regions, in the order given. The genes for 16S and 23S rRNA are separated by a 2.4 kbp spacer. 5) The physical map of the plastome IV DNA serves as basis for comparison with the DNA from the four other, closely related Euoenothera plastomes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00264980

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Physical mapping of differences in chloroplast DNA of the five wild-type plastomes in Oenothera subsection Euoenothera (1982)

Gordon, K. H. J. ; Crouse, E. J. ; Bohnert, H. J. ; [et al.]

Springer

Theoretical and applied genetics 61 (1982), S. 373-384

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ISSN: 1432-2242

Keywords: Oenothera ; Evolution of plastid DNA ; Comparative restriction site mapping ; rDNA spacer differences ; Insertions and deletions

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary 1) DNA has been isolated from the five genetically distinguishable plastid types of Oenothera, subsection Euoenothera. DNA of plastomes I to IV was obtained from plants with identical nuclear backgrounds containing the genotype AA of Oenothera hookeri whereas the DNA of plastome V came from Oenothera argillicola (genotype CC). 2) The DNAs of the five basic Euoenothera wild-type plastomes can be distinguished by restriction endonuclease analysis with Sal I, Pst I, Kpn I, Eco RI and Bam HI. The fragment patterns exhibit distinct common features as well as some degree of variability. 3) Physical maps for the circular DNAs of plastome I, II, III and V could be constructed using the previously detailed map of plastome IV DNA (Gordon et al. 1981). This has been achieved by comparing the cleavage products generated by restriction endonucleases Sal I, Pst I and Kpn I which collectively result in 36 sites in each of the five plastome DNAs, and by hybridization of radioactively labelled chloroplast rRNA or chloroplast cRNA probes of spinach to Southern blots of appropriate restriction digests. The data show that the overall fragment order is the same for all five plastome DNAs. Each DNA molecule is segmentally organized into four regions represented by a large duplicated sequence in inverted orientation whose copies are separated by two single-copy segments. 4) The alterations in position of restriction sites among the Euoenothera plastome DNAs result primarily from insertions/deletions. Eleven size differences of individual fragments in the Sal I, Pst I and Kpn I patterns measuring 0.1–0.8 Md (150–1,200 bp) relative to plastome IV DNA have been located. Most changes were found in the larger of the two single-copy regions of the five plastomes. Changes in the duplication are always found in both copies. This suggests the existence of an editing mechanism that, in natural populations, equalizes or transposes any change in one copy of the repeat to the equivalent site of the other copy. 5) Detailed mapping of the two rDNA regions of the five plastomes, using the restriction endonucleases Eco RI and Bam HI which each recognize more than 60 cleavage sites per DNA molecule, disclosed a 0.3 Md deletion in plastome III DNA and a 0.1 Md insertion in plastome V DNA relative to DNA of plastome IV, I and II. These changes are most probably located in the spacer between the genes for 16S and 23S rRNA and are found in both rDNA units.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00272860

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Nucleotide sequence of cDNA clones encoding the complete precursor for subunit delta of thylakoid-located ATP synthase from spinach (1988)

Hermans, J. ; Rother, Ch. ; Bichler, J. ; [et al.]

Springer

Plant molecular biology 10 (1988), S. 323-330

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ISSN: 1573-5028

Keywords: chloroplast ATP synthase ; subunit delta ; cDNA nucleotide sequence ; transit peptide ; spinach

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The nucleotide sequence of the entire nuclear-encoded precursor for subunit delta of the ATP synthase from spinach thylakoid membranes was determined by cDNA sequencing. Appropriate recombinant DNAs were selected from pBR322 and lambda gt11 libraries made from polyadenylated RNA of greening spinach seedlings. The mature protein consists of 187 amino acid residues corresponding to a molecular weight of 20468. The precursor protein (257 amino acid residues; M r=27676) is probably processed between a Met-Val bond. The predicted secondary structure of the transit sequence (70 residues; 7.2 kDa) resembles that of the Rieske Fe/S polypeptide, but shows little similarity with those of stromal or luminal proteins. The comparison of the chloroplast delta amino acid sequence with the published delta sequences from respiratory ATP synthases of bacterial and mitochondrial sources and from the thylakoid ATP synthase of the cyanobacterium Synechococcus suggests substantial divergence at the genic level although structural elements appear to be remarkably conserved.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00029882

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Nucleotide sequence of cDNA clones encoding the complete “33 kDa” precursor protein associated with the photosynthetic oxygen-evolving complex from spinach (1987)

Tyagi, A. ; Hermans, J. ; Steppuhn, J. ; [et al.]

Springer

Molecular genetics and genomics 207 (1987), S. 288-293

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ISSN: 1617-4623

Keywords: Photosynthetic oxygen evolution ; “33 kDa” protein ; cDNA nucleotide sequence ; Transit peptide ; Spinach

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Several cDNA clones encoding the “33 kDa” protein associated with the photosynthetic water oxidation activity of spinach were sequenced. A 1208 bp insert of one of the clones encodes the entire 331 amino acid residues of the precursor protein including 84 amino acids (8.5 kDa) of the amino-terminal transit peptide, 49 bp of the 5′ and 111 bp of the 3′ untranslated segment of the mRNA. The 3′ poly(A) tail starts 19 bp downstream from a putative polyadenylation signal, TATAAA. The hydrophilic mature protein consists of 247 amino acid residues corresponding to an Mr of 26.5 kDa, which is 6.5 kDa smaller than the value determined by SDS-polyacrylamide gel electrophoresis (33–34 kDa), and shows a certain degree of conservation with the putative Mn-complexing active sites of bacterial Mn-dependent superoxide dismutases. The anatomy of the unusually long transit sequence is discussed with regard to current concepts of protein import into and protein routein within the organelle.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00331591

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The complete amino-acid sequence of the rieske FeS-precursor protein from spinach chloroplasts deduced from cDNA analysis (1987)

Steppuhn, J. ; Rother, C. ; Hermans, J. ; [et al.]

Springer

Molecular genetics and genomics 210 (1987), S. 171-177

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ISSN: 1617-4623

Keywords: Photosynthesis ; Rieske iron-sulfur precursor protein ; cDNA nucleotide sequence ; Transit peptide ; Spinach

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Summary Several cDNA clones encoding the entire Rieske FeS-precursor protein of the chloroplast cytochrome b 6 f-complex have been isolated by high density plaque immunoscreening of a phage lambda gt11 cDNA expression library, made from poly A+-RNA of spinach seedlings. The identity of the cDNAs has been confirmed by N-terminal amino acid sequencing of the purified protein. The nucleotide sequence indicates a protein of 247 amino acid residues including a putative transit sequence of 68 amino acids corresponding to molecular masses of 26.3 kDa (precursor) and 18.8 kDa (mature protein; 179 amino acid residues). Alignteins of the sequence with sequences from Rieske FeS-proteins of respiratory electron transport chains, two of bacterial and three of mitochondrial origin, shows little sequence homology, but remarkable similarity in secondary structure including a putative N-terminal transmembrane segment of about 25 residues and the peptides CTHLGCV and CPCHGS in the C-terminal region of the protein that are involved in the binding of the Fe2S2-cluster.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00337775

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