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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)

Basal bodies, purified from Chlamydomonas and Tetrahymena, were exposed to various enzymatic treatments and then assayed for their ability to nucleate aster formation upon injection into eggs of Xenopus laevis. Untreated basal bodies injected into frog eggs act as centrioles and induce the formation of asters. The aster-inducing activity of basal bodies was eliminated by treatment with proteolytic enzymes and ribonucleases. Aster-inducing activity was not affected by DNAse and a number of other enzymes. The effect of proteolytic digestion on aster-inducing activity appeared to be directly correlated with the degree of structural damage to the basal body. Low concentrations of pancreatic ribonuclease A, ribonuclease T1, and S1 nuclease also completely abolished aster-inducing activity, although these enzymes had no effect on basal body structure. Ribonuclease-treated basal bodies remained capable of supporting microtubule elongation in vitro. Preliminary evidence indicates that basal bodies from Chlamydomonas and Tetrahymena contain about 5 x 10(-16) g of RNA which co-band with basal bodies and aster-inducing activity by equilibrium density gradient sedimentation. We conclude first, that centrioles contain RNA which is required for initiation of aster formation, and second, that the centriole activity or ability to assemble a mitotic aster is separable from the basal body activity, or ability to serve directly as a template for microtubule growth.
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PMID:Evidence for a functional role of RNA in centrioles. 40 9

We have studied the transcription pattern of a 5700 base-pair transposon (TOC1) in Chlamydomonas reinhardtii. Northern blotting and nuclease S1 protection experiments define three classes of major TOC1 RNAs that accumulate to different levels in a number of strains and segregate independently in the progeny of crosses: class 1 RNAs are unstable near full-length sense transcripts whose 5' end maps to the left 217 base-pair repeat of TOC1, class 2 and class 3 RNAs are large, discrete chimaeric transcripts containing full-length sense (class 2) and anti-sense (class 3) copies of TOC1. Sequence motifs common to the 5' non-transcribed regions of C. reinhardtii genes were found upstream from the putative initiation site of class 1 transcripts. A functional polyadenylation site was located in the far-right 237 base-pair repeat of TOC1. Class 1 TOC1 transcripts are initiated, and probably terminated, within the terminal repeats of TOC1 and may represent retrotransposition intermediates. Class 2 and 3 TOC1 transcripts co-segregate with specific TOC1 elements identified on Southern blots. The loci that control the production of high levels of class 1 transcripts could correspond to specific TOC1 elements, i.e. only a few TOC1 elements are transcribed, or to a regulatory locus. The accumulation of an 11,500 to 12,000 base sense transcript (class 2) is reduced two- to fourfold by the presence of a 9500 to 9700 base antisense transcript (class 3). In contrast, the accumulation of the 5' ends of class 1 transcripts are unaffected by the anti-sense TOC1 transcript.
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PMID:Structure and inheritance of sense and anti-sense transcripts from a transposon in the green alga Chlamydomonas reinhardtii. 170 97

We have isolated a 5-kilobase pair fragment of genomic DNA containing the entire coding region for the Chlamydomonas reinhardtii gene encoding the copper-repressible Cyt c6. A region comprising 2.6 kilobase pairs contains the entire transcribed region plus 852 nucleotides upstream of the Cyt c6 transcription start site and 495 nucleotides downstream of the conserved C. reinhardtii polyadenylation signal. Comparison of the genomic sequence with the cDNA sequence (Merchant, S., and Bogorad, L. (1987) J. Biol. Chem. 262, 9062-9067) revealed that the coding region is interrupted by two introns, each of which is flanked by C. reinhardtii consensus intron/exon boundaries. Primer extension and S1 nuclease protection analyses identified the 5' border of the Cyt c6 mRNA at approximately 79 base pairs upstream from the initiator methionine. Analysis of the 5' upstream region reveals no significant similarity to sequences found in upstream regions of other copper-regulated genes. Time-course studies indicate that 1) the mature Cyt c6 mRNA has a half-life of approximately 45-60 min and is completely lost within 4 h, and 2) the primary, unspliced transcript has a half-life of approximately 10 min and is completely lost within 30 min after the addition of copper ions to copper-depleted cells. These results indicate that the response to copper occurs very rapidly upon elevation of extracellular copper levels. Although this gene is unresponsive to silver ions in vivo, in contrast to the yeast copper-responsive CUP1 gene (Furst, P., Hu, S., Hackett, R., and Hamer, D. (1988) Cell 55, 705-717), it does respond to mercury ions, albeit with less sensitivity. Mercury ions cannot, however, substitute for copper in allowing the accumulation of plastocyanin in vivo.
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PMID:Isolation and structural characterization of the Chlamydomonas reinhardtii gene for cytochrome c6. Analysis of the kinetics and metal specificity of its copper-responsive expression. 171 51

Chlamydomonas cells respond to certain environmental stimuli by shedding their flagella. Flagellar loss induces a rapid, transient increase in expression of a specific set of genes encoding flagellar proteins, and assembly of a new flagellar pair. While flagellar gene expression and initiation of flagellar outgrowth are normally tightly coupled to flagellar excision, our results demonstrate that these processes can be uncoupled by manipulating Ca2+ levels or calmodulin activity. In our experiments, wild-type cells were stimulated to excise their flagella using mechanical shearing, and at times after deflagellation, flagellar lengths were measured and flagellar mRNA abundance changes were determined by S1 nuclease protection analysis. When extracellular Ca2+ was lowered by addition of EGTA to cultures before excision, flagellar mRNA abundance changes and flagellar outgrowth were temporally uncoupled from flagellar excision. When extracellular Ca2+ was lowered immediately after excision or when calmodulin activity was inhibited with W-7, flagellar outgrowth was uncoupled from flagellar excision and flagellar mRNA abundance changes. Whenever events in the process of flagellar regeneration were temporally uncoupled, the magnitude of the flagellar mRNA abundance change was reduced. These results suggest that flagellar gene expression may be regulated by multiple signals generated from these events, and implicate Ca2+ as a factor in the mechanisms controlling flagellar regeneration.
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PMID:Uncoupling of Chlamydomonas flagellar gene expression and outgrowth from flagellar excision by manipulation of Ca2+. 175 67

We have characterized two independently isolated point mutants in Chlamydomonas reinhardtii, ac-u-a-1-15 and FUD 17, mapping to the chloroplast ac-u-a locus which corresponds to the atpE gene. Both mutants have a single A:T base pair deletion in a sequence of 6 A:T base pairs at nucleotide positions 102 to 107. This causes a frameshift, altering the coding sequence for the next 8 amino acids and creating a termination codon at amino acid position 44, 98 amino acids from the C-terminus of the protein. Assembly of the ATP synthase is impaired in the mutants; less than 5% of the wild-type level of alpha and beta subunits and no gamma or epsilon subunits are associated with thylakoid membranes of the mutants. The genes encoding the beta and epsilon subunits of the chloroplast ATP synthase from C. reinhardtii are not cotranscribed, in contrast to all other photosynthetic organisms examined to date. Four transcripts, of approximately 1.7, 2.9, 3.3 and 7.0 x 10(3) nucleotides (nt), are found for the atpE gene. S1 nuclease mapping of the 1.7 x 10(3) nt transcript shows that the atpE gene message is preceded by a leader of about 1250 nt. DNA sequence analysis of this region revealed a 159 bp open reading frame corresponding to the 3' half of the rps7 gene, encoding the S7 protein of the small subunit of the chloroplast ribosome. Only the 5' portion of this gene is located in the opposite unique sequence region of the C. reinhardtii chloroplast genome where the rps7 gene was previously mapped by heterologous hybridization.
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PMID:Cotranscription of the wild-type chloroplast atpE gene encoding the CF1/CF0 epsilon subunit with the 3' half of the rps7 gene in Chlamydomonas reinhardtii and characterization of frameshift mutations in atpE. 219 29

The quadriflagellate, unicellular, colorless alga, Polytomella agilis, contains several distinct microtubule arrays. To study the genetic basis of microtubule heterogeneity in P. agilis, we characterized its tubulin(Tub)-encoding genes (tub). The three beta tub genes detected in blots of P. agilis DNA were isolated from a genomic library. The structure and organization of the genes were examined by restriction mapping and nucleotide (nt) sequencing. S1 nuclease protection studies showed that all three genes are expressed. The predicted amino acid (aa) sequences are more than 98% conserved with the Chlamydomonas reinhardtii and Volvox carteri beta-Tubs, underscoring the close phylogenetic relationship of these species. Evolutionary divergence among the P. agilis genes is demonstrated by differences in intron number, nt sequences in noncoding regions, and silent nt substitutions in the coding regions. However, the proteins encoded by the beta 1 and beta 3 tub genes are identical; the beta 2 gene product differs by one conservative aa substitution. These results are in striking contrast to the C-terminal aa diversity reported within beta tub gene families in animal, higher plant and fungal systems. The data support the hypothesis that those tub genes whose products assemble into axonemal microtubules are subject
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PMID:Structure of the three beta-tubulin-encoding genes of the unicellular alga, Polytomella agilis. 253 30

The mitochondrial genome of Chlamydomonas reinhardtii, a unicellular green alga, is a linear 15.8 kilobase pair (kbp) molecule. In gene arrangement and mode of expression, as well as in size, it differs radically from the large (200-2400 kbp) mitochondrial genomes of higher plants. Heterologous hybridization experiments and nucleotide sequence analysis have revealed that C. reinhardtii mitochondrial DNA (mtDNA) is a compactly organized genome specifying at least eight proteins, a minimum of three transfer RNAs, and large subunit (LS) and small subunit (SS) ribosomal RNAs. Both strands of the mtDNA encode genetic information, with genes organized into perhaps a single transcriptional unit on each strand. Stable transcripts have been identified by Northern hybridization analysis, and transcript termini have been mapped by primer extension and S1 nuclease protection experiments. The results suggest that mature RNAs, which virtually saturate the genome, are generated by precise endonucleolytic cleavage of long precursors, with specific motifs (both primary sequence and secondary structure) implicated as processing signals. Codon usage in C. reinhardtii mitochondria is highly biased, with eight codons entirely absent from all protein-coding genes; however, even though codon usage is restricted, it appears that C. reinhardtii mtDNA cannot encode the minimum number of tRNAs needed to support mitochondrial protein synthesis. The most striking feature of C. reinhardtii mtDNA is the division of SS and LS rRNA genes into a number of separate subgenic coding segments ('modules') that are interspersed with one another and with protein-coding and tRNA genes. We have identified abundant small RNAs, transcribed from these modules, that approximate to the latter in size. This indicates that splicing of rRNA 'pieces' does not occur in this system. Rather, the mature rRNAs apparently exist and function as non-covalent complexes of small RNAs (four in SS rRNA, at least eight in LS rRNA), held together by intermolecular base pairing. These complexes contain all the conserved elements of the minimal secondary structures that define the functional core of conventional LS and SS rRNAs.
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PMID:Organization and expression of algal (Chlamydomonas reinhardtii) mitochondrial DNA. 290 63

The genome of Arabidopsis thaliana (Linnaeus) Heynhold was shown to contain an alpha-tubulin gene family consisting of at least four genes and/or pseudogenes. The primary structure of a transcribed alpha-tubulin gene was determined. A comparison of the predicted amino acid sequence of the A. thaliana alpha-tubulin with the predicted amino acid sequences of alpha-tubulins of Chlamydomonas reinhardtii, Stylonychia lemnae, and Homo spaiens reveals a high degree of homology; 90%, 87%, and 83% identity, respectively. Thus, a plant alpha-tubulin exhibits a high degree of homology to the alpha-tubulins of protists and animals. The coding sequence of the A. thaliana alpha-tubulin gene is interrupted by four introns, which occur at positions different from those of the less numerous introns of C. reinhardtii and rat alpha-tubulin genes. S1 nuclease mapping data showed that transcription is initiated 99 +/- 1 base pairs upstream from the translation initiation codon. Both 5' and 3' noncoding gene-specific probes were used to examine the expression of the alpha-tubulin gene in leaves, roots, and flowers by hybridization to total RNA isolated from these tissues. The results showed that the alpha-tubulin gene was transcribed in all three tissues.
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PMID:Characterization of the alpha-tubulin gene family of Arabidopsis thaliana. 347 4

The polypeptide product of the gene for the large subunit of ribulose-1,5-bisphosphate carboxylase from Euglena gracilis based on the DNA sequence of the chloroplast-encoded gene is described. The large subunit polypeptide of 475 codons is co-linear with the homologous polypeptides from other chloroplasts and cyanobacteria. The amino acid sequence is 92% homologous to that of Chlamydomonas, 84% homologous to spinach, 82% homologous to maize, and 80% homologous to that of the cyanobacterium Anabaena variabilis. Known functional domains of the protein are coded by the larger exons of the gene. Introns in the gene generally occur at coding sequences specifying hydrophilic, presumably surface exposed, regions of the polypeptide. The location of some of the introns may reflect a separation of functional domains. The 5'- and 3'-ends of the rbcL transcript were determined by primer extension sequencing using reverse transcriptase and S1 nuclease protection, respectively. The transcribed but untranslated sequences are quite distinct from those from other rbcL loci.
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PMID:The Euglena gracilis chloroplast ribulose-1,5-bisphosphate carboxylase gene. II. The spliced mRNA and its product. 393 71

By S1 nuclease mapping we have located the intervening sequence in the large ribosomal RNA gene of Saccharomyces cerevisiae omega+ strains 570 bp from the 3' end of the rRNA gene. No intervening sequence was detected at this position in S. carlsbergensis, but the sequences of the mature 21S rRNAs of these two strains appear to be identical in this region. By comparing the DNA sequence of the region of the intervening sequence in an omega+ strain with the corresponding sequence in S. carlsbergensis, we have determined the splice points of the 21S rRNA gene. These sequences show no homology with splice points in nuclear and viral genes or with the splice points in the chloroplast 23S rRNA gene of Chlamydomonas. The external borders of the splice points have a complementary sequence in the intervening sequence. The largest transcript hybridizing with the probe of the intervening sequence has a size corresponding to that expected for an rRNA precursor still containing the intervening sequence; the smallest transcript corresponds in size to the intervening sequence itself.
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PMID:Splice point sequence and transcripts of the intervening sequence in the mitochondrial 21S ribosomal RNA gene of yeast. 699 9


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