Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.2.1.31 (
beta-glucuronidase
)
7,680
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The transient expression of three novel plant amber suppressors derived from a cloned Nicotiana
tRNA
(Ser)(CGA), an Arabidopsis intron-containing
tRNA
(Tyr)(GTA) and an Arabidopsis intron-containing
tRNA
(Met)(CAT) gene, respectively, was studied in a homologous plant system that utilized the Agro bacterium-mediated gene transfer to Arabidopsis hypocotyl explants. This versatile system allows the detection of
beta-glucuronidase
(GUS) activity by histochemical and enzymatic analyses. The activity of the suppressors was demonstrated by the ability to suppress a premature amber codon in a modified GUS gene. Co-transformation of Arabidopsis hypocotyls with the amber suppressor
tRNA
(Ser) gene and the GUS reporter gene resulted in approximately 10% of the GUS activity found in the same tissue transformed solely with the functional control GUS gene. Amber suppressor tRNAs derived from intron-containing
tRNA
(Tyr) or
tRNA
(Met) genes were functional in vivo only after some additional gene manipulations. The G3:C70 base pair in the acceptor stem of
tRNA
(Met)(CUA) had to be converted to a G3:U70 base pair, which is the major determinant for alanine
tRNA
identity. The inability of amber suppressor
tRNA
(Tyr) to show any activity in vivo predominantly results from a distorted intron secondary structure of the corresponding pre-
tRNA
that could be cured by a single nucleotide exchange in the intervening sequence. The improved amber suppressors
tRNA
(Tyr) and
tRNA
(Met) were subsequently employed for studying various aspects of the plant-specific mechanism of pre-
tRNA
splicing as well as for demonstrating the influence of intron-dependent base modifications on suppressor activity.
...
PMID:Translational nonsense codon suppression as indicator for functional pre-tRNA splicing in transformed Arabidopsis hypocotyl-derived calli. 1258 39
Taro bacilliform virus (TaBV) is a pararetrovirus of the genus Badnavirus which infects the monocotyledonous plant, taro ( Colocasia esculenta). A region of the TaBV genome spanning nucleotides 6,281 to 12 (T1200), including the 3' end of open reading frame 3 (ORF 3) and the intergenic region to the end of the
tRNA
(met)-binding site, was tested for promoter activity along with four different 5' deletion fragments (T600, T500, T250 and T100). In transient assays, only the T1200, T600, T500 fragments were shown to have promoter activity in taro leaf, banana suspension cells and tobacco callus. When these three promoters were evaluated in stably transformed, in vitro-grown transgenic banana and tobacco plants, all were found to drive near-constitutive expression of either the green fluorescent protein or
beta-glucuronidase
(GUS) reporter gene in the stem (or pseudostem), leaves and roots, with strongest expression observed in the vascular tissue. In transgenic banana leaves, the T600 promoter directed four-fold greater GUS activity than that of the T1200, T500 and the maize polyubiquitin-1 promoters. In transgenic tobacco leaves, the levels of GUS expression directed by the three promoters was between four- and ten-fold lower than that of the double Cauliflower mosaic virus 35S promoter. These results indicate that the TaBV-derived promoters may be useful for the high-level constitutive expression of transgenes in either monocotyledonous or dicotyledonous species.
...
PMID:A promoter derived from taro bacilliform badnavirus drives strong expression in transgenic banana and tobacco plants. 1291 Mar 70
The rate-limiting step of cytokinin biosynthesis in Arabidopsis thaliana Heynh. is catalyzed by ATP/ADP isopentenyltransferases, A. thaliana IsoPentenyl Transferase (AtIPT)1, and AtIPT4, and by their homologs AtIPT3, AtIPT5, AtIPT6, AtIPT7, and AtIPT8. To understand the dynamics of cytokinins in plant development, we comprehensively analyzed the expression of isopentenyltransferase genes of Arabidopsis. Examination of their mRNA levels and the expression patterns of the
beta-glucuronidase
(GUS) gene fused to the regulatory sequence of each AtIPT gene revealed a specific expression pattern of each gene. The predominant expression patterns were as follows: AtIPT1::GUS, xylem precursor cell files in the root tip, leaf axils, ovules, and immature seeds; AtIPT3::GUS, phloem tissues; AtIPT4::GUS and AtIPT8::GUS, immature seeds with highest expression in the chalazal endosperm (CZE); AtIPT5::GUS, root primordia, columella root caps, upper part of young inflorescences, and fruit abscission zones; AtIPT7::GUS, endodermis of the root elongation zone, trichomes on young leaves, and some pollen tubes. AtIPT1, AtIPT3, AtIPT5, and AtIPT7 were downregulated by cytokinins within 4 h. AtIPT5 and AtIPT7 was upregulated by auxin within 4 h in roots. AtIPT3 was upregulated within 1 h after an application of nitrate to mineral-starved Arabidopsis plants. The upregulation by nitrate did not require de novo protein synthesis. We also examined the expression of two genes for
tRNA
isopentenyltransferases, AtIPT2 and AtIPT9, which can also be involved in cytokinin biosynthesis. They were expressed ubiquitously, with highest expression in proliferating tissues. These findings are discussed in relation to the role of cytokinins in plant development.
...
PMID:Expression of cytokinin biosynthetic isopentenyltransferase genes in Arabidopsis: tissue specificity and regulation by auxin, cytokinin, and nitrate. 1467 38
Cell proliferation is integrated into developmental progression in multicellular organisms, including plants, and the regulation of cell division is of pivotal importance for plant growth and development. Here, we report the identification of an Arabidopsis SMALL ORGAN 2 (SMO2) gene that functions in regulation of the progression of cell division during organ growth. The smo2 knockout mutant displays reduced size of aerial organs and shortened roots, due to the decreased number of cells in these organs. Further analyses reveal that disruption of SMO2 does not alter the developmental timing but reduces the rate of cell production during leaf and root growth. Moreover, smo2 plants exhibit a constitutive activation of cell cycle-related genes and over-accumulation of cells expressing CYCB1;1:
beta-glucuronidase
(CYCB1;1:GUS) during organogenesis, suggesting that smo2 has a defect in G(2)-M phase progression in the cell cycle. SMO2 encodes a functional homologue of yeast TRM112, a plurifunctional component involved in a few cellular events, including
tRNA
and protein methylation. In addition, the mutation of SMO2 does not appear to affect endoreduplication in Arabidopsis leaf cells. Taken together we postulate that Arabidopsis SMO2 is a conserved yeast TRM112 homologue and SMO2-mediated cellular events are required for proper progression of cell division in plant growth and development.
...
PMID:The Arabidopsis SMO2, a homologue of yeast TRM112, modulates progression of cell division during organ growth. 1992 76
Aureobasidium pullulans, a yeast-like fungus with strong environmental adaptability, remains a potential host for bio-production of different valuable metabolites. However, its potential application is limited by low-efficient genetic manipulation. In this study, CRISPR/Cas9-mediated genome editing via protoplast-based transformation system was developed. To test CRISPR/Cas9 mediated genomic mutagenesis, the orotidine 5-phosphate decarboxylase (umps) gene was used as a counter-selectable selection marker. By co-transforming of two plasmids harboring cas9 gene and a guide RNA targeting umps, respectively, the CRISPR/Cas9 system could significantly increase frequency of mutation in the targeting site of guide RNA. To further validate that CRISPR/Cas9 stimulated homologous recombination with donor DNA, a color reporter system of
beta-glucuronidase
(gus) gene was developed for calculating positive mutation rate. The results showed that positive mutation rate with CRISPR/Cas9 system was ~40% significantly higher than only with the donor DNA (~4%). Furthermore, the different posttranscriptional RNA processing schemes were analyzed by compared the effects of flanking gRNA with self-cleaving ribozymes or
tRNA
. The result demonstrated that gRNA processed by self-cleaving ribozymes achieves higher positive mutant rate. This study provided foundation for a simple and powerful genome editing tool for A. pullulans. Moreover, a counter-selectable selection marker (umps) and a color reporter system (gus) were being developed as genetic parts for strain engineering.
...
PMID:CRISPR/Cas9-mediated efficient genome editing via protoplast-based transformation in yeast-like fungus Aureobasidium pullulans. 3113 14
<< Previous
1
2
