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Query: EC:3.1.30.1 (
S1 nuclease
)
3,660
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The genes encoding the 9 kDa and 4 kDa polypeptides of
cytochrome b
-559 have been located in pea chloroplast DNA by coupled transcription-translation of cloned restriction fragments of chloroplast DNA in a cell-free extract of Escherichia coli and by nucleotide sequence analysis. The genes (psbE and psbF) are located approximately 1.0 kbp downstream of the gene for cytochrome f and are transcribed in the opposite direction, similar to the arrangement in the chloroplast genomes of other higher plants. Nucleotide sequence analysis of this region revealed four open reading frames encoding hydrophobic proteins of 83 (psbE), 39 (psbF), 38 and 40 amino acid residues, which are co-transcribed as a single major RNA of 1.1 kb. The 5' and 3' ends of this RNA have been located by primer extension and
S1 nuclease
mapping. The 5' end of the RNA is located 140 bp upstream of the initiating ATG codon of psbE and is preceded by typical chloroplast promoter sequences. The 3' end of the RNA is located approximately 515 bp downstream of the TAA stop codon of psbF close to a stable stem-loop structure.
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PMID:Two small open reading frames are co-transcribed with the pea chloroplast genes for the polypeptides of cytochrome b-559. 276 83
The nature of RNA coded by the only light-strand (L-strand) open-reading frame unidentified reading frame 6 (URF6) was studied by using a variety of single- and double-strand DNA subclones derived from the 3.6-kilobase (kb)
cytochrome b
(cyt b)-URF5 coding region of the mouse mitochondrial genome. Northern blot experiments using single-strand-specific M13 clones indicate that both the heavy (H) and L strands of this genomic region are symmetrically transcribed and processed into poly(adenylic acid) [poly(A)] RNAs of comparable size. The 1.2- and 2.4-kb RNAs coded by the H strand, putative mRNAs for cyt b and URF5 reading frames, respectively, are derived from a common precursor of 3.6-kb RNA. The L-strand-coded 1.15-kb RNA, on the other hand, is derived from a short-lived precursor of 3.6-kb RNA by a multiple-step processing involving a 2.4-kb intermediate RNA. The
S1 nuclease
protection experiments using both the 3'- or 5'-end-labeled DNA probes and also affinity-purified 32P-labeled RNA probes indicate that the 1.15-kb RNA maps between the start of the URF6 reading frame (3' end) and a region 590-600 nucleotides to the 5' end of this reading frame. The 1.15-kb RNA thus contains the entire URF6 coding sequence and an about 590-nucleotide-long 3' untranslated region. The molar abundance of the three mRNAs in the steady-state mitochondrial RNA varies markedly. The 1.15-kb URF6 mRNA is only one-tenth the level of 1.2-kb cyt b mRNA, although it is nearly as abundant as the 2.4-kb URF5 mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of the cytochrome b-URF6-URF5 region of the mouse mitochondrial genome. 300 24
The fbc operon from Rhodopseudomonas sphaeroides encodes the three redox carriers of the ubiquinol-cytochrome-c reductase (b/c1 complex): FeS protein,
cytochrome b
and cytochrome c1 [Gabellini, N. et al. (1985) EMBO J.2, 549-553]. The nucleotide sequence of 3874 bp of cloned R. sphaeroides chromosomal DNA, including the three structural genes fbcF, fbcB and fbcC has been determined. The reading frames of the fbc genes could be identified readily since the encoded amino acid sequences are highly homologous with the sequences of the corresponding mitochondrial polypeptides. Initiation and termination points for transcription have been investigated by
S1 nuclease
protection analysis. The transcription of the fbc operon starts approximately 240 base pairs upstream from the start codon of the fbcF gene and terminates 120 base pairs downstream from the stop codon of the fbcC gene. Nucleotide sequences resembling recognition signals for the binding and release of the RNA polymerase were identified. The N-terminal amino acid sequence of the mature cytochrome c1 was obtained by automated Edman degradation of the isolated subunit, confirming the fbcC reading frame and indicating that the bacterial preapocytochrome c1 has a transient leader sequence including 21 residues. The N-terminal sequence of one hydrophilic peptide of the FeS protein has been also obtained confirming the fbcF reading frame. The deduced amino acid sequences are discussed in relation to the known primary structures of the homologous proteins from mitochondria and chloroplasts. The primary structures of the polypeptides are evaluated with respect to their topology in the membrane, their biogenesis, the structure of the catalytic sites and subunit interactions.
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PMID:Nucleotide sequence and transcription of the fbc operon from Rhodopseudomonas sphaeroides. Evaluation of the deduced amino acid sequences of the FeS protein, cytochrome b and cytochrome c1. 300 82
Dominant mutations of the nuclear NAM2 gene are able to compensate for a deficiency of the maturase encoded by the fourth intron of the mitochondrial
cytochrome b
gene. We have determined the complete nucleotide sequence of the NAM2-1 suppressor allele. The results of
S1 nuclease
protection experiments show that two overlapping poly(A)+ RNAs are transcribed from the gene using different promoters. The longer transcript contains two open reading frames (ORFs), a long ORF which could encode a protein of 894 amino acids, mol. wt 102,000 daltons, and a short ORF of 51 codons which is omitted from the shorter transcript. The wild-type nam2+ and two other suppressor alleles, NAM2-6 and NAM2-7, have been cloned. A comparison of the sequence of the wild-type and the three suppressor alleles shows that on three separate occasions the same codon specifying glycine was mutated (once to serine and twice to cysteine). Finally sequence comparisons identified two regions in the long ORF, distinct from the position of the suppressor mutations, that could correspond to binding domains for a nucleotide and a nucleic acid.
...
PMID:Three suppressor mutations which cure a mitochondrial RNA maturase deficiency occur at the same codon in the open reading frame of the nuclear NAM2 gene. 303 7
We have examined the metabolism of human H4 histone mRNA in the nucleus and cytoplasm of HeLa S3 cells following inhibition of DNA synthesis to address the extent to which histone mRNA stability in these cellular compartments is coupled to DNA replication. The nuclear and cytoplasmic levels of histone mRNAs encoded by the pF0108A human H4 histone gene were determined by
S1 nuclease
analysis using a 32P-labeled probe that could distinguish pF0108A transcripts from those of other members of the H4 histone multigene family. Hydroxyurea treatment resulted within 15 min in a 75% reduction in the level of histone H4 mRNA in the nucleus, which corresponds to the 85% decrease observed for H4 histone mRNA in the cytoplasm. The kinetics of nuclear and cytoplasmic H4 mRNA turnover following hydroxyurea treatment were also similar. Northern blot analysis using a 32P-labeled mitochondrial
cytochrome b
probe indicated that the association of cytoplasmic RNA with the nuclear fraction was less than 0.5%. Treatment of cells with a protein synthesis inhibitor resulted in a 1.3-fold increase in nuclear H4 histone mRNA levels and a 1.5-fold increase of H4 mRNA in the cytoplasm after 45 min. Together, these results indicate that nuclear and cytoplasmic H4 histone mRNAs respond similarly to metabolic perturbations that influence message stability and that mechanisms operative in the turnover of histone mRNAs in the nucleus and cytoplasm may be similar.
...
PMID:Coordinate turnover of nuclear and cytoplasmic histone messenger RNA following inhibition of DNA replication in HeLa S3 cells. 303 71
A region of the Saccharomyces cerevisiae mitochondrial
cytochrome b
gene encompassing the entire terminal intron plus flanking exonic sequences has been cloned in an SP6 vector. A runoff transcript prepared from this construct as well as the native
cytochrome b
pre-mRNA containing the terminal intervening sequence were found to act as substrates for the autocatalytic excision of the intervening sequence in vitro. This reaction proceeds under conditions previously shown by Cech and co-workers to promote protein-independent excision of the Tetrahymena rRNA intervening sequence. The 5' and 3' termini of the excised intervening sequence, determined by
S1 nuclease
mapping and sequence analysis, are consistent with the known sequence of the
cytochrome b
mRNA. The same region of the
cytochrome b
gene from a yeast mutant, defective in splicing due to a mutation in a critical sequence inside the terminal intron, has also been cloned in an SP6 vector. The mutant transcript fails to self-splice in the in vitro assay. These observations provide strong presumptive evidence that in vivo processing of the terminal intervening sequence of the
cytochrome b
pre-mRNA occurs by an autocatalytic mechanism analogous to that shown for other group I introns. In vivo processing of the terminal intervening sequence of the
cytochrome b
pre-mRNA, however, exhibits complete dependence on a protein factor previously shown to be encoded by the nuclear gene CBP2.
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PMID:In vitro splicing of the terminal intervening sequence of Saccharomyces cerevisiae cytochrome b pre-mRNA. 330 80
To understand the functional significance of RNA processing for the expression of plastome-encoded photosynthesis genes, we investigated the nuclear mutation hcf107 of Arabidopsis. The mutation is represented by two alleles, both of which lead to a defective photosystem II (PSII). In vivo protein labeling, in vitro phosphorylation, and immunoblot experiments revealed that the psbB gene product (CP47) and an 8-kD phosphoprotein, the psbH gene product (PsbH), are absent in mutant plants. PsbH and PsbB are essential requirements for PSII assembly in photosynthetic eukaryotes, and their absence in hcf107 is consistent with the PSII-less mutant phenotype. RNA gel blot hybridizations showed that the hcf107 mutation specifically impairs the accumulation of some but not all oligocistronic psbH transcripts that are released from the pentacistronic psbB-psbT-psbH-petB-petD precursor RNA by intergenic endonucleolytic cleavage. In contrast, neither the levels nor the sizes of psbB-containing RNAs are affected.
S1 nuclease
protection analyses revealed that psbH RNAs are lacking only where psbH is the leading cistron and that they are processed at position -45 in the 5' leader segment of psbH. These data and additional experiments with the
cytochrome b
(6)f complex mutant hcf152, which is defective in 3' psbH processing, suggest that only those psbH-containing transcripts that are processed at their -45 5' ends can be translated. Secondary structure analysis of the 5' psbH leader predicted the formation of stable stem loops in the nonprocessed transcripts, which are unfolded by processing at the -45 site. We propose that this unfolding of the psbH leader segment as a result of RNA processing is essential for the translation of the psbH reading frame. We suggest further that HCF107 has dual functions: it is involved in intercistronic processing of the psbH 5' untranslated region or the stabilization of 5' processed psbH RNAs, and concomitantly, it is required for the synthesis of CP47.
...
PMID:The nucleus-encoded HCF107 gene of Arabidopsis provides a link between intercistronic RNA processing and the accumulation of translation-competent psbH transcripts in chloroplasts. 1154 68
