EC:3.2.1.31 - FACTA Search

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Query: EC:3.2.1.31 (beta-glucuronidase)
7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In Chlamydomonas reinhardtii, expression of the cabII-1 gene increases dramatically in response to light (cabII-1 encodes one of the light-harvesting chlorophyll a/b-binding proteins of photosystem II). We have used a region upstream of the cabII-1 gene in translational fusions to the bacterial uidA gene (encodes beta-glucuronidase) and transcriptional fusions to the Chlamydomonas nitrate reductase gene (nit1). Chlamydomonas transformants carrying intact copies of the chimeric uidA gene do not express beta-glucuronidase at the level of enzyme activity or mRNA accumulation. Methylation in the cabII-1 promoter region of the introduced gene is extensive in these strains, suggesting that newly introduced foreign genes may be recognized and silenced by a cellular mechanism that is correlated with increased methylation. Transformants that express the chimeric cabII-1/nit1 gene have been recovered. In contrast to the endogenous nit1 gene, the chimeric cabII-1/nit1 gene is expressed in ammonium-containing medium. Moreover, nit1 mRNA accumulation is dramatically stimulated by light, with a time course that is indistinguishable from that of the endogenous cabII-1 gene. The cabII-1/nit1 gene has been used to select transformants in a nit1- nit2- Chlamydomonas strain (CC400G) and should be useful for transformation of the large number of mutants in the Ebersold-Levine lineage, which carry the same mutations.
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PMID:Expression of chimeric genes by the light-regulated cabII-1 promoter in Chlamydomonas reinhardtii: a cabII-1/nit1 gene functions as a dominant selectable marker in a nit1- nit2- strain. 140 96

Structures of the promoters of Chlamydomonas reinhardtii plastid atpB and 16S rRNA-encoding genes were analyzed in vivo. Chimeric constructs, containing the Chlamydomonas chloroplast atpB or 16S rRNA-encoding gene promoter coupled to the Escherichia coli uidA (beta-glucuronidase, GUS) reporter gene and bordered by C. reinhardtii chloroplast sequences, were stably introduced into the chloroplast of Chlamydomonas by microprojectile bombardment. Activity of the promoters in the chloroplast of GUS gene-positive transformants was assayed by measuring the abundance of GUS transcripts and determining the relative rates of GUS transcription in vivo. Deletion analyses of the 16S rRNA gene and atpB promoter fragments showed that the two promoters differ structurally. The 16S rRNA gene promoter resembles the bacterial sigma 70 type with typical -10 and -35 elements. The atpB promoter, on the other hand, lacks a conserved motif in the -35 region but contains, in the -10 region, a characteristic octameric palindrome (TATAATAT) that is conserved in the promoter sequences of some other C. reinhardtii chloroplast genes. For maximum activity, the atpB promoter requires sequences of approximately 22 base pairs upstream and approximately 60 base pairs downstream of the transcription start site.
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PMID:Two types of chloroplast gene promoters in Chlamydomonas reinhardtii. 156 38

Transcription from modified chloroplast genes has been studied in vitro, but only with the recently developed ability to stably introduce foreign DNA into Chlamydomonas reinhardtii chloroplast chromosomes in situ has it become possible to do so in vivo. Cloned chloroplast DNA sequences, into which had been inserted chimeric genes composed of the GUS coding sequence reporter under transcriptional control of chloroplast promoters for the C. reinhardtii atpA, atpB, and rbcL genes, were introduced into the cells on microprojectiles. These constructs become integrated into chloroplast chromosomes by homologous recombination. RNA gel blot analyses demonstrated that a single major beta-glucuronidase (GUS)-hybridizing transcript accumulates in each chloroplast transformant. We have found that: (1) Transcription of the chimeric gene begins at the same site as in the corresponding endogenous chloroplast gene; (2) the rates of transcription in vivo of the atpA:GUS and atpB:GUS genes relative to one another and to other genes are the same as those for the endogenous atpA and atpB genes, respectively, indicating that these promoters are fully functional despite being fused to a foreign gene and being at an alien location on the chloroplast chromosome; (3) in contrast to the atpA and atpB promoters, the rbcL promoter directs transcription of the rbcL:GUS gene at only 1% of the expected rate, suggesting that other features are required for optimal activity of this promoter; and (4) 22 base pairs upstream of the 5' end of the atpB:GUS transcript in the atpB promoter element is sufficient to confer wild-type levels of promoter activity.
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PMID:Transcriptional analysis of endogenous and foreign genes in chloroplast transformants of Chlamydomonas. 215 8

The chloroplast gene rbcL encodes the large subunit of ribulose bisphosphate carboxylase. In Chlamydomonas reinhardtii, this gene is transcribed more actively than any other protein-encoding chloroplast gene studied to date. To delineate the rbcL gene promoter, chimeric reporter genes containing fragments of the 5' region of the rbcL gene fused to the coding sequence of the bacterial uidA gene, encoding beta-glucuronidase, were stably introduced into the chloroplast genome of Chlamydomonas by microprojectile bombardment. The relative transcription rates of endogenous and introduced genes were determined in transgenic cell lines in vivo. The basic rbcL promoter is located within the region of the gene extending from positions -18 to +63, taking position +1 as the site of initiation of transcription. A chimeric reporter gene containing only the basic promoter is transcribed only 1-15% as actively as the endogenous rbcL gene, depending on the conditions under which cells are grown and tested. However, a chimeric gene containing rbcL sequences extending to position +170 or beyond is transcribed at about the same rate as the endogenous gene. Deletion of the sequence between positions +170 and +126, well within the protein-encoding region, reduces the rate of transcription to that of reporter genes with the basic promoter alone.
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PMID:Activity of the Chlamydomonas chloroplast rbcL gene promoter is enhanced by a remote sequence element. 797 68

Complex processing of primary transcripts occurs during the expression of higher-plant chloroplast genes. In Chlamydomonas reinhardtii, most chloroplast genes appear to possess their own promoters, rather than being transcribed as part of multicistronic operons. By generating specific deletion mutants, we show that petD, which encodes subunit IV of the cytochrome b6/f complex, has an RNA processing site that is required for accumulation of monocistronic petD mRNA in petD promoter deletion mutants; in such mutants, transcription of petD originates from the upstream petA promoter. The 5' ends of transcripts initiated at the petD promoter are probably also generated by processing, since the 5' end of monocistronic petD mRNA is the same in wild-type strains as it is in the petD promoter mutants. The location and function of the processing site were further examined by inserting petD-uidA fusion genes into the chloroplast genome (uidA is an Escherichia coli gene that encodes beta-glucuronidase). When a promoterless petD-uidA fusion gene was inserted downstream of petA, a monocistronic uidA transcript accumulated, which was apparently initiated at the petA promoter and was processed at a site corresponding precisely to the petD mRNA 5' end. When a construct including only sequences downstream of +25 relative to the mature mRNA 5' end was inserted into the same site, a dicistronic petA-uidA transcript accumulated but no monocistronic uidA transcript could be detected, suggesting that a processing site lies at least partially within the region from -1 to +25. Beta-glucuronidase activity was not detected in transformants that accumulated only the dicistronic petA-uidA transcript, suggesting that the first 25 bp of the 5' untranslated region are required for translation initiation. One explanation for this translational defect is that Chlamydomonas chloroplasts cannot translate the second coding region of some dicistronic messages.
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PMID:petD mRNA maturation in Chlamydomonas reinhardtii chloroplasts: role of 5' endonucleolytic processing. 806 51

We have used the Escherichia coli beta-glucuronidase (uidA) gene as a reporter gene to localize the promoter and analyze the function of the 5' untranslated region (UTR) of the Chlamydomonas chloroplast petD gene. Using particle bombardment, petD-uidA transcriptional and translational fusion genes were introduced into the chloroplast genome in the large inverted repeat flanking the atpB gene. In transformants carrying a petD-uidA transcriptional fusion, uidA mRNA accumulated but was not translated. However, in a translational fusion that included the entire petD 5' UTR, uidA mRNA accumulated and a high level of beta-glucuronidase activity was detected. When approximately 70% of the petD 5' UTR was deleted from the translational fusion, uidA mRNA accumulation and beta-glucuronidase activity decreased 4- to 6-fold and 8-fold, respectively. Run-on transcription assays demonstrated that all strains transcribe the uidA gene at equivalent rates. Our results show that sequences essential for translation reside in the petD 5' UTR and also that sequences within the 5' UTR directly or indirectly affect mRNA stability. The expression of beta-glucuronidase under the control of chloroplast transcriptional and translational signals will facilitate further studies of chloroplast gene regulatory mechanisms.
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PMID:In vivo analysis of Chlamydomonas chloroplast petD gene expression using stable transformation of beta-glucuronidase translational fusions. 842 81

We have found that sequences in the 5' leader of the Chlamydomonas chloroplast rbcL gene, when fused 5' to foreign genes, destabilize transcripts of these chimeric genes in the chloroplast of transgenic Chlamydomonas but that 5' sequences of the rbcL structural gene prevent this destabilization. Transcripts of the chloroplast rbcL gene are about equally abundant at all times in Chlamydomonas reinhardtii growing on an alternating 12-h light/12-h dark cycle. However, Chlamydomonas chloroplast transformants, harboring chimeric genes containing the same rbcL promoter with 63 or 92 bp of the rbcL 5' leader sequence fused upstream of the Escherichia coli uidA (beta-glucuronidase, GUS) gene, accumulated GUS transcripts only in the dark. Transcripts disappeared rapidly upon illumination of the cells. The same phenomenon was exhibited by transcripts of chimeric genes in which the GUS gene coding sequence was replaced by other unrelated genes. The precipitous light-induced drop in GUS transcript abundance was found to be due to an approximately 16-fold increase in the rate of degradation of GUS transcripts in light rather than to a decrease in the rate of transcription of the GUS gene. Transcripts of a chimeric rbcL-GUS construct in which the leader sequence of the rbcL gene was replaced by 103 bp of the leader sequence of the atpB gene were stable in illuminated cells. The destabilizing effect of the rbcL 5' leader sequence was reversed by adding 257 bp of the 5' coding region of the rbcL gene. The results show that chloroplast transcript levels in illuminated Chlamydomonas cells--and perhaps in other cases--can be determined, at least to some extent, by sequences and interactions of sequences transcribed from the 5' ends of genes.
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PMID:5' sequences are important positive and negative determinants of the longevity of Chlamydomonas chloroplast gene transcripts. 843 17

A Chlamydomonas reinhardtii chloroplast transformant, designated MU7, carrying a chimeric (rbcL promoter: beta-glucuronidase [GUS]: psaB 3' end) gene whose transcripts have been found previously to be unstable in light (half-life of 20 min in light as opposed to a half-life of 5 h in the dark), was used to study the role of electron transport and of the redox state in the degradation of chloroplast transcripts in the light. Blocking photosynthetic electron transport with 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU) prevented the light-dependent breakdown of the pool of GUS transcripts in MU7 cells. Diamide, an oxidizing agent, caused a measurable delay in the degradation of GUS transcripts in the light. The addition of dithiothreitol (DTT), a dithiol reductant, to MU7 cells in which GUS transcript levels were stabilized by DCMU induced degradation of GUS transcripts. Similarly, DTT induced a decrease in the levels of GUS transcripts when added to MU7 cells in the dark period of the light/dark cycle, a period in which GUS transcript levels normally increase. The levels of transcripts of endogenous chloroplast genes were affected by DCMU and DTT in the same direction as levels of GUS transcripts. The results suggest a regulatory role of the redox state in the degradation of chloroplast transcripts in C. reinhardtii.
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PMID:The redox state regulates RNA degradation in the chloroplast of Chlamydomonas reinhardtii. 1059 24

The single-copy PetC gene encoding the chloroplast Rieske FeS protein of Arabidopsis thaliana consists of five exons interrupted by four introns and encodes a protein of 229 amino acid residues with extensive sequence similarity to the chloroplast Rieske proteins of other higher plants. The N-terminal 50 amino acid residues constitute a presequence for targeting to the chloroplast and the remaining 179 amino acid residues make up the mature protein. Three of the introns are in identical positions in the PetC gene of Chlamydomonas reinhardtii, suggesting that they are of ancient origin. RNA-blot hybridisation showed that the gene was expressed in shoots, but not roots, and was light regulated and repressed by sucrose. The expression of chimeric genes consisting of PetC promoter fragments fused to the beta-glucuronidase (GUS) reporter gene was examined in A. thaliana and tobacco. In A. thaliana, GUS activity was detected in leaves, stems, flowers and siliques, but not in roots, and showed a strong correlation with the presence of chloroplasts. In transgenic tobacco, low levels of GUS activity were also detected in light-exposed roots. GUS activity in transgenic tobacco seedlings was light regulated and was decreased by norflurazon in the light suggesting regulation of PetC expression by plastid signals.
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PMID:Tissue-specific, light-regulated and plastid-regulated expression of the single-copy nuclear gene encoding the chloroplast Rieske FeS protein of Arabidopsis thaliana. 1204 99

In higher plants, mammals, and filamentous fungi, transcriptional gene silencing is frequently associated with DNA methylation. However, recent evidence suggests that certain transgenes can be inactivated by a methylation independent mechanism. In the unicellular green alga Chlamydomonas reinhardtii, single-copy transgenes are transcriptionally silenced without discernible cytosine methylation of the introduced DNA. We have isolated a Chlamydomonas gene, Mut11, which is required for the transcriptional repression of single-copy transgenes. Mut11 appears to have a global role in gene regulation since it also affects transposon mobilization, cellular growth, and sensitivity to DNA damaging agents. In transient expression assays, a fusion protein between the predicted Mut11 gene product (Mut11p) and E. coli beta-glucuronidase localizes predominantly to the nucleus. Mut11p, a polypeptide of 370 amino acids containing seven WD40 repeats, is highly homologous to proteins of unknown function that are widely distributed among eukaryotes. Mut11p also shows similarity to the C-terminal domain of TUP1, a global transcriptional co-repressor in fungi. Based on these findings we speculate that, in Chlamydomonas, the silencing of certain single-copy transgenes and dispersed transposons integrated into euchromatic regions may occur by a mechanism(s) similar to those involving global transcriptional repressors. Our results also support the existence, in methylation-competent organisms, of a mechanism(s) of transcriptional (trans)gene silencing that is independent of DNA methylation.
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PMID:A WD40-repeat containing protein, similar to a fungal co-repressor, is required for transcriptional gene silencing in Chlamydomonas. 1210 Apr 80

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