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Isolation, characterization, phosphorylation and site of synthesis of Spinacia chloroplast ribosomal proteins (1984)

Posno, Mark ; Noort, Marjolein ; Débise, Roger ; [et al.]

Springer

Current genetics 8 (1984), S. 147-154

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ISSN: 1432-0983

Keywords: Chloroplast ; Ribosomal proteins ; Spinacia oleracea ; Phosphorylation ; Protein synthesis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary We have characterized the ribosomal proteins from Spinacia chloroplasts using two-dimensional gel electrophoresis. The 30S and 50S subunits contain 23–25 and 36 ribosomal proteins, respectively. In contrast to prokaryotic ribosomes, chloroplast ribosomes contain at least one (and possibly two) phosphorylated ribosomal proteins. Isolated chloroplasts synthesize in the presence of (35S) labeled methionine and cysteine at least seven 30S and thirteen 50S ribosomal proteins which are assembled into (pre)ribosomes. This suggests that about one third of the chloroplast ribosomal proteins is encoded by the chloroplast DNA itself. The identity of several labeled proteins in the two-dimensional gel electrophoretic patterns which did not comigrate with stained chloroplast ribosomal proteins is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00420227

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Localization of three chloroplast ribosomal protein genes at the left junction of the large single copy region and the inverted repeat of Spirodela oligorhiza chloroplast DNA (1985)

Posno, Mark ; Torenvliet, Dick J. ; Lustig, Henk ; [et al.]

Springer

Current genetics 9 (1985), S. 211-219

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ISSN: 1432-0983

Keywords: Chloroplast DNA ; Ribosomal proteins ; Cell free transcription translation ; Heterologous hybridization ; Gene mapping

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary In order to determine the localization of ribosomal protein genes on the chloroplast genome of Spirodela, we have followed two different approaches: First, antisera were prepared against purified 30S, 50S and 70S chloroplast ribosomal proteins from Spinacia. These antisera react with about two third of the chloroplast ribosomal proteins as shown by protein blot and immunoprecipitation experiments. Recombinant plasmids carrying the Spirodela BamHI-G or PstI-I cpDNA fragment both direct the synthesis of a 15 kD chloroplast ribosomal protein in a DNA dependent E. coli cell free system. This was confirmed by molecular weight determination, immunoprecipitation and competition immunoprecipitation experiments. Second, heterologous hybridization with the rps19 gene probe from Nicotiana revealed the localization of this gene on the chloroplast DNA of Spirodela within the BamHI-G fragment at the left junction of the large single copy region and the inverted repeat. Furthermore we show that the recombinant plasmid carrying Nicotiana rps19 also directs the synthesis of another chloroplast ribosomal protein in an E. coli cell free system. The identity of this protein is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00420314

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Localization of chloroplast ribosomal protein genes on Spirodela oligorhiza chloroplast DNA (1986)

Posno, Mark ; Vliet, Anja ; Groot, Gert S. P.

Springer

Current genetics 10 (1986), S. 923-930

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ISSN: 1432-0983

Keywords: Chloroplast DNA ; Ribosomal proteins ; Heterologous hybridization ; Cellfree translation ; Gene mapping

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Three chloroplast ribosomal protein genes have been located on Spirodela chloroplast DNA. (1) rps14 was physically mapped at the central region of the large single copy region by heterologous hybridization with the corresponding gene of Marchantia chloroplast DNA. (2) Chloroplast ribosomal protein C-S23 was detected by immunoprecipitation with a polyspecific antiserum against 30S chloroplast ribosomal proteins among the in vitro translation products of mRNAs selected by Spirodela Pstl-D chloroplast DNA fragment. (3) We have previously reported that Spirodela BamHI-G chloroplast DNA fragment encodes a 14–15 kD 50S chloroplast ribosomal protein (Posno et al. 1985 Curr Genet 9 : 211–219). Here we show that the homologous Spinacia chloroplast DNA fragment Sa1I-9 additionally directs the synthesis of another 50S chloroplast ribosomal protein in a DNA dependent E. coli cellfree system. This was confirmed by molecular weight determination, immunoprecipitation and competition immunoprecipitation experiments. mRNA selection experiments revealed that this additional chloroplast ribosomal protein gene is present on Spirodela chloroplast DNA as well, but is not expressed in the E. coli cellfree system. The identity of this 50S chloroplast ribosomal protein could not be established unambiguously, since two-dimensional gel analysis revealed that this protein comigrated, depending on the experiment, with C-L11 (26 kD) or with C-L24 (17 kD).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00398290

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The genes encoding chloroplast ribosomal proteins S7 and S12 are located in the inverted repeat of Spirodela oligorhiza chloroplast DNA (1986)

Posno, Mark ; Verweij, Wim R. ; Dekker, Ilma C. ; [et al.]

Springer

Current genetics 11 (1986), S. 25-34

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ISSN: 1432-0983

Keywords: Chloroplast DNA ; Ribosomal proteins ; Gene mapping ; Gene expression ; Chloroplast development

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary We have used a variety of methods to localize the genes for ribosomal proteins S7 and S12 on Spirodela chloroplast DNA. Heterologous hybridization with a rps12 gene specific probe from Euglena has revealed the presence of rps12 homologous sequences within the inverted repeat of Spirodela chloroplast DNA on the fragment BamHI-V. In the partial nucleotide sequence of this fragment, two regions of amino acid sequence homology to Euglena S12 can be identified, separated from each other by a 542 by intron with conserved boundary sequences. As was found for Nicotiana S12, the Spirodela S12 coding regions are for 85 amino acids homologous (79%) to E. coli S12 (starting from residue 38 to the C-terminus). Likewise, we are unable to identify the 37 5′ terminal codons of rps12 in Spirodela. The functionality of the Spirodela rps12 sequence is discussed. The rps7 gene is located adjacent to rps12. Chloroplast ribosomal protein C-S11 (homologous to S7) has been detected by immunoprecipitation with both a polyspecific anti 30S serum and an anti C-Sll serum, among the in vitro translation products of mRNAs selected by Spirodela chloroplast DNA fragments BamHI-V and BamHI-P. Since in a DNA dependent E. coli cell free system, only BamHI-V appears to be capable of synthesis of C-Sll, it is concluded that rps7 is located entirely within BamHI-V and is transcribed into a mRNA which extends into BamHI-P. As determined by Northern hybridization experiments, rps7 is cotranscribed with rps12; a stable transcript of approx. approx. 1100 b is detected in total cellular Spirodela RNA with either rps12 and rps7 gene specific probes. The rps12 probe additionally detects an approx. 600 b transcript, which presumably corresponds to the excised rps12 intron RNA. Finally we have examined the expression of both rps7 and rps12 during light induced chloroplast development by Northern blotting and by immunoblotting. It is shown, that the steady-state levels of neither chloroplast ribosomal protein transcripts, nor those of the chloroplast ribosomal proteins itself, change significantly during the greening process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00389422

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