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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)

The effects of beta-glucuronidase and chitinase have been tested on the hydrolysis of the cell walls of the economically important fungi, Aspergillus niger and Aspergillus fumigatus. The extent of wall hydrolysis was measured by assaying for total reducing sugars, N-acetyl sugars and protoplast production. Maximum reducing sugar release was attained after 40 min incubation, both with beta-glucuronidase supplemented with chitinase and beta-glucuronidase alone, whereas N-acetyl sugar release reached a maximum at 80 min incubation. beta-Glucuronidase was effective in releasing protoplasts from both species of Aspergillus. This release was enhanced by adding chitinase to the incubation medium at 0 and 20 min, but with addition at 60, 80 and 100 min increase in protoplast yield was much reduced. The results of re-incubation experiments with chitinase suggest that this enzyme may in some way be inhibited during the later stages of incubation. Pronase used in combination with beta-glucuronidase slightly enhanced protoplast release.
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PMID:The effect of beta-glucuronidase and chitinase on the cell wall of Aspergillus niger and Aspergillus fumigatus. 39 51

Expression of at least two genes from bean encoding the defense-related protein chitinase has been shown previously to be transcriptionally regulated by the phytohormone ethylene. We have determined the complete nucleotide sequence of one of these genes, the CH5B gene, which resides on a 4.7-kilobase fragment of bean genomic DNA. The structural gene consists of a single open reading frame and encodes the 301 amino acids of the mature protein and a 26-amino acid signal peptide. The CH5B gene has been introduced into tobacco plants using Agrobacterium Ti-plasmid vectors. Little or no expression of the bean gene was observed when transgenic tobacco plants were grown in air; however, exposure of these plants to an atmosphere containing 50 parts per million ethylene resulted in an approximately 20-fold to 50-fold increase in the level of the bean chitinase mRNA. Ethylene-dependent expression of a chimeric gene consisting of 1.6 kilobases of 5'-flanking DNA derived from the CH5B gene fused to the coding sequence of beta-glucuronidase indicates that this region of the CH5B gene is sufficient for ethylene-regulated expression. Deletion analysis of the CH5B promoter region has allowed us to localize these DNA sequences to within a 228-base pair region situated between -422 and -195 upstream of the transcriptional start site. This region is characterized by two short DNA sequences that are exactly conserved in a second ethylene-regulated bean chitinase gene.
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PMID:Functional analysis of DNA sequences responsible for ethylene regulation of a bean chitinase gene in transgenic tobacco. 253 12

Cell walls of intact yeast- and mycelial-phase Candida albicans B311 were extracted with different compounds: dithiothreitol, dithiothreitol with protease, dithiothreitol with lyticase, and dithiothreitol with protease followed by beta-glucuronidase with chitinase. Extracts were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blot techniques. Dithiothreitol extracts contained the most satisfactory array of components for study. Analysis of these extracts demonstrated that the outer cell wall layers of Candida blastoconidia and germ tubes contained a complex array of polysaccharides, glycoproteins, and proteins. The proteins contributed to a latticework stabilized by covalent bonds that was important in determining the porosity of the outer cell wall layers. When equivalent weights were analyzed, mycelial-phase extract contained a more varied array of proteins than did yeast-phase extract. Only a portion of proteins in mycelial-phase extract elicited antibody responses in hyperimmunized rabbits or infected humans. A polysaccharide-rich, high-molecular-weight component (migrating at a position that would correspond to proteins having molecular weights of 235,000 to 250,000) and a protein component (molecular weight, 19,000) were readily demonstrable in the mycelial-phase extract but could not be identified in the yeast-phase extract.
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PMID:Analysis of cell wall extracts of Candida albicans by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blot techniques. 352 86

Protoplasts have been obtained in high yields from the yeast and mycelial forms of a variety of strains of Candida albicans by enzyme digestion of cells with commercially available lytic enzymes. The protoplast formation procedure was equally effective for exponential and stationary phase cells. Pretreatment with dithiothreitol and Pronase in the presence of EDTA and Tris was necessary. Other thiol reagents and conditions did not release protoplasts from all the strains of C. albicans tested. Treatment with digestive juice of the snail Helix pomatia required the addition of chitinase for the release of protoplasts from most strains tested. Conditions for maximizing the yield of protoplasts and the activities of beta-glucuronidase and chitinase were determined. Electron microscopy of C. albicans showed that the pretreatment conditions removed the outer layers and the treatment itself completely removed the inner layers of the cell wall. More than 90% of the protoplasts produced by this model were viable as assessed by vital staining with Janus Green B.
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PMID:Protoplasts from yeast and mycelial forms of Candida albicans. 701 67

Kinetic aspects of ethylene-mediated signal transduction leading to seedling-growth inhibition and chitinase induction in Arabidopsis were investigated by the introduction of defined mutations in components of these pathways. Dose-response analysis of wild-type responses indicated that the rate-limiting steps for seedling responses and Arabidopsis basic-chitinase induction displayed Michaelis-Menten kinetics with apparent dissociation constants of the response (Kr) of 0.1 and 1.4 microL L-1 ethylene, respectively. In the ethylene-insensitive etr1-1 and ein2-32 mutant lines, both Arabidopsis basic-chitinase induction and seedling-growth responses were completely disrupted, whereas the weaker etr1-2 allele eliminated the chitinase-induction response but only partially disrupted the seedling responses. A heterologous reporter gene containing the chitinase promoter from bean (bean basic-chitinase-beta-glucuronidase) displayed subsensitive kinetics (Kr 120 microL L-1 ethylene) compared to the response of the endogenous basic-chitinase response (Kr 1.4 microL L-1 ethylene). A model for ethylene signal transduction that accounts for the observed variation in ethylene dose-response relationships is presented. The relationship between the model and the biochemical mechanisms of well-characterized signal-transduction systems in animals is discussed.
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PMID:Analysis of ethylene signal-transduction kinetics associated with seedling-growth response and chitinase induction in wild-type and mutant arabidopsis. 761 Jan 60

The Chn48 gene is a representative of a family of tobacco class I basic chitinase genes, and the expression is induced by the stress hormone ethylene. To investigate the molecular basis for transcriptional regulation by ethylene we have examined the Chn48 promoter to identify cis-elements and trans-acting factors that are involved in the chitinase gene expression. In transgenic tobacco plants, a chimeric gene construct containing a 2 kb Chn48 promoter fused to a beta-glucuronidase reporter gene was induced by ethylene in leaf tissues. Deletion analysis indicated that a positive ethylene-responsive region is located between nucleotides -503 and -358 relative to the transcription initiation site. This 146 bp sequence was found to confer ethylene-responsive reporter gene expression when inserted in either orientation upstream of the heterologous promoter, indicating that the sequence functions as a regulatory enhancer. The ethylene-responsive region contains two copies of a GCC-box (TAAGAGCCGCC), which is conserved in a number of ethylene-responsive defense genes. The sequences within this ethylene-responsive region that are necessary for ethylene-responsive transcription were further localized to the 71 bp sequence between positions -480 and -410 containing two copies of the GCC-box by loss-of-function analysis. Gel mobility-shift experiments showed the presence of leaf nuclear factors that interact with the DNA sequences included in the ethylene-responsive region.
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PMID:Identification of an ethylene-responsive region in the promoter of a tobacco class I chitinase gene. 776 82

The expression of tobacco class I chitinase gene is effectively induced by a fungal elicitor in suspension-cultured tobacco cells. To identify cis-acting DNA elements that respond to the elicitor, a series of promoter constructs of the chitinase gene CHN50 fused to beta-glucuronidase gene was introduced into tobacco cultured cells. Promoter deletion analysis of the chitinase gene CHN50 in transgenic tobacco calli indicated that the DNA region between positions -788 and -345 from the start site of transcription is required for inducibility by the elicitor. A gel mobility shift assay revealed that nuclear factor(s) specifically interacted with the DNA region between positions -574 and -476. Moreover, this novel DNA-binding activity was present in nuclear extracts prepared from elicitor-treated cultured cells but not in extracts from untreated cells. Competitive binding assays and methylation interference experiments showed that the nuclear factor(s) bound specifically to a sequence of 22 bp that extended from positions -539 to -518 and contained a direct repeat of GTCAG spaced by three nucleotides. This motif is a candidate for a cis-acting elicitor-responsive element (ElRE) that is involved in the transcription of the class I chitinase gene.
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PMID:Characterization of a novel cis-acting element that is responsive to a fungal elicitor in the promoter of a tobacco class I chitinase gene. 812 90

A new basic chitinase gene, designated RC24, was isolated from a rice genomic library. The predicted RC24 protein contains 322 amino acid residues and exhibits 68% to 95% amino acid identity with known class I rice chitinases. RC24 protein expressed in Escherichia coli exhibited chitinase activity and strongly inhibited bacterial growth. Two transcription start sites of the RC24 gene were mapped by primer extension analysis of both rice native RNA and in vitro transcribed RNA using a RC24 promoter/GUS (beta-glucuronidase) gene fusion as a template. The 5'-flanking region of RC24 contained several putative stress-responsive cis-acting elements. A basal level of RC24 transcripts was detected in rice root and stem tissues, but not in leaf tissues. RC24 transcripts rapidly accumulated within 1 h after fungal elicitor treatment of suspension-cultured cells, and the levels continued to increase for at least 9 h. RC24 transcript accumulation was also observed in intact leaf tissues upon wounding, Transgenic rice plants containing the RC24/GUS gene fusion further confirmed that the RC24 gene showed a tissue-specific expression pattern and that transcription of the RC24 propmoter was sensitively and rapidly activated by wounding.
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PMID:Regulation, expression and function of a new basic chitinase gene in rice (Oryza sativa L.). 860 93

The expression of tobacco class I chitinase genes is effectively induced by a fungal elicitor in suspension-cultured cells. A putative cis-acting elicitor-responsive element (EIRE) was identified previously in the promoter of the class I chitinase gene, CHN5O. To confirm that the EIRE sequence directly mediates the regulation of gene expression by the elicitor, I constructed a deleted promoter that controlled a reporter gene for beta-glucuronidase (gus) and examined expression of the construct in transgenic tobacco calli. Both expression and responsiveness to the elicitor disappeared, when the region of the promoter that included the EIRE sequence had been deleted. To define the specific sequence within the EIRE that interacts with nuclear factor(s), a gel mobility shift assay was performed with wild-type and mutated elements. Results of binding and competition experiments revealed that the nuclear factor(s) bound specifically to the sequence motif, (-534)GGTCANNNAGTC(-523), and that both of the repeated sites were involved in the binding of the nuclear factors. Moreover, the binding was influenced by the distance between the two repeated sites. In addition, the elicitor-inducible activity of the binding to this motif was reduced in nuclear extracts prepared from the cells that had been treated with cycloheximide or staurosporine.
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PMID:Interaction of tobacco nuclear protein with an elicitor-responsive element in the promoter of a basic class I chitinase gene. 917 14

Agroinfiltration--the infiltration of Agrobacterium tumefaciens into intact plant levels--provides a rapid and simple way of screening large numbers of transgene constructs for silencing in response to a resident transgene. Transgenic Nicotiana sylvestris plants homozygous for the tobacco class I chitinase A gene CHN48 under the control of the cauliflower mosaic virus 35S RNA promoter (P35S) show a high incidence of postranscriptional gene silencing. We forced suspensions of A. tumefaciens, carrying P35S-CHN48 in a binary Tiplasmid vector, into wild-type and transgenic N, sylvestris leaves with a blunt-tipped plastic syringe. The infiltrated CHN48 transgene was expressed in leaves transformed with the vector alone, but not in CHN48-transformed leaves showing the silent phenotype. In contrast, expression of a chimeric P35S-E. coli beta-glucuronidase gene (uidA) infiltrated into leaves was not affected by the presence of the CHN48 transgene stably integrated in the host genome. These results show that extra copies of CHN48 are silenced by resident, silent copies of the same gene and confirm that CHN48 silencing is not the result of promoter interactions. The results also suggest that silencing of the additional CHN48 copies does not require their integration into chromosomes.
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PMID:Silencing of transgenes introduced into leaves by agroinfiltration: a simple, rapid method for investigating sequence requirements for gene silencing. 941 43


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