Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Late embryogenesis abundant (lea) genes are a large and diverse group of genes highly expressed during late stages of seed development. Five major groups of LEA proteins have been described. Two Em genes (group I lea genes) are present in the genome of Arabidopsis thaliana L., AtEm1 and AtEm6. Both genes encode for very similar proteins which differ basically in the number of repetitions of a highly hydrophilic amino acid motif. The spatial patterns of expression of the two Arabidopsis Em genes have been studied using in situ hybridization and transgenic plants transformed with the promoters of the genes fused to the beta-glucuronidase reporter gene (uidA). In the embryo, AtEm1 is preferentially expressed in the pro-vascular tissues and in meristems. In contrast, AtEm6 is expressed throughout the embryo. The activity of both promoters disappears rapidly after germination, but is ABA-inducible in roots of young seedlings, although in different cells: the AtEm1 promoter is active in the internal tissues (vasculature and pericycle) whereas the AtEm6 promoter is active in the external tissues (cortex, epidermis and root hairs). The AtEm1 promoter, but not AtEm6, is also active in mature pollen grains and collapsed nectaries of young siliques. These data indicate that the two Em proteins could carry out at least slightly different functions and that the expression of AtEm1 and AtEm6 is controlled at, at least, three different levels: temporal, spatial and hormonal (ABA).
J Exp Bot 2000 Jul
PMID:Differential expression of the Arabidopsis genes coding for Em-like proteins. 1093 96

Three types of callus tissues established from anther culture of eleven doubled haploid (DH) lines of wheat (Triticum aestivum L.) were evaluated for their ability in enhancing friable embryogenic (Type II) culture differentiation and genetic transformation. Differences between types of callus inocula were highly significant (P < 0.001), suggesting that the quality of the initial callus explant is of profound importance in encouraging the proliferation of Type II cultures. Other factors found to be crucial included weekly subculture of friable embryogenic callus tissues on a maintenance medium containing 30 microM dicamba and a predominance of amino-acid nitrogen supplement. Transfer and integration of the beta-glucuronidase gene was also affected by the type of inoculum when suitable embryogenic cell cultures were transformed using silicon carbide whiskers and high velocity microprojectiles. Expression of the hygromycin phosphotransferase selectable marker gene sequence was confirmed in all the stably transformed cell lines maintained on selection media containing lethal levels of hygromycin. Comparatively, there were differences in the frequency of regenerable, transgenic clonal segments between whisker-treated and microprojectile bombarded tissues mainly as a result of the fact that cultures vortexed with whiskers were more capable of post-treatment cell proliferation and embryo differentiation than those bombarded with cDNA-coated microprojectiles. Conditions for obtaining these results are outlined and discussed in relation to the suitability of the two transformation strategies for producing transgenic cell aggregates of wheat.
J Exp Bot 2000 Feb
PMID:Cytodifferentiation and transformation of embryogenic callus lines derived from anther culture of wheat. 1093 25

Arabidopsis thaliana L. leafy cotyledon1 (lec1) and fusca3 (fus3) mutants show multiple phenotypic defects during seed development. In this report the effects of these mutations are examined at the molecular level. The patterns of protein accumulation in lec1 and fus3 seeds are severly altered. In lec1 seeds the steady-state mRNA levels of several late embryogenesis genes were reduced. Different patterns of expression were observed, indicating the occurrence of several regulatory pathways. The effect of lec1 mutations on the expression of the late-embryogenesis abundant AtEm1 gene was examined in detail. In lec1-1 seeds, the AtEm1 gene was expressed at a higher level than in the wild type and earlier in development. The activity of an AtEm1 promoter/beta-glucuronidase reporter gene construct in transgenic A. thaliana plants was studied. Changes in promoter activity in lec1-1 with respect to wild-type seeds were correlated with changes in corresponding mRNA steady-state levels. fus3-2 mutation produced similar changes in AtEm1 promoter activity as lec1-1, which is consistent with the hypothesis that LEC1 and FUS3 might act in the same regulatory pathway. Transgenic analysis using 5'-promoter deletions demonstrated that at least two regions of AtEm1 gene promoter interact with the LEC1-dependent transcriptional regulatory pathway. In spite of expression of the AtEm1 promoter and accumulation of AtEm1 mRNA, the corresponding Em1 protein does not accumulate in lec1-1 seeds. The ABA inducibility of the AtEm1 promoter was not affected by the lec1 mutation.
J Exp Bot 2000 Jun
PMID:Changes in gene expression in the leafy cotyledon1 (lec1) and fusca3 (fus3) mutants of Arabidopsis thaliana L. 1094 27

An efficient protocol for the establishment of transgenic opium poppy (Papaver somniferum L.) and California poppy (Eschscholzia californica Cham.) root cultures using A. grobacterium rhizogenes is reported. Five strains of A. rhizogenes were tested for their ability to produce hairy roots on wounded opium poppy seedlings and California poppy embryogenic calli. Three of the strains induced hairy root formation on both species, whereas two others either caused the growth of tumorigenic calli or produced no response. To characterize the putative transgenic roots further, explant tissues were co-cultivated with the most effective A: rhizogenes strain (R1000) carrying the pBI121 binary vector. Except for the co-cultivation medium, all formulations included 50 mg l(-1) paromomycin to select for transformants and 200 mg l(-1) timentin to eliminate the Agrobacterium. Four weeks after infection, paromomycin-resistant roots appeared on 92-98% of explants maintained on hormone-free medium. Isolated hairy roots were propagated in liquid medium containing 1.0 mg l(-1) indole-3-acetic acid to promote rapid growth. Detection of the neomycin phosphotransferase gene, high levels of beta-glucuronidase (GUS) transcripts and enzyme activity, and GUS histochemical localization confirmed the integrative transformation of root cultures. Transgenic roots grew faster than wild-type roots, and California poppy roots grew more rapidly than those of opium poppy. With the exception of a less compact arrangement of epidermal cells and more root hairs, transformed roots of both species displayed anatomical features and benzylisoquinoline alkaloid profiles that were virtually identical to those of wild-type roots. Transgenic root cultures of opium poppy and California poppy are a simple, reliable and well-defined model system to investigate the molecular and metabolic regulation of benzylisoquinoline alkaloid biosynthesis, and to evaluate the genetic engineering potential of these important medicinal plants.
J Exp Bot 2000 Jun
PMID:Agrobacterium rhizogenes-mediated transformation of opium poppy, Papaver somniferum l., and California poppy, Eschscholzia californica cham., root cultures. 1094 28

In arbuscular mycorrhizas, H+-ATPase is active in the plant membrane around arbuscules but absent from plant mutants defective in arbuscule development (Gianinazzi-Pearson et al. 1995, Can J Bot 73: S526-S532). The proton-pumping H+-ATPase is encoded by a family of genes in plants. Immunocytochemical studies and promoter-gusA fusion assays were performed in transgenic tobacco (Nicotiana tabacum L.) to determine whether the periarbuscular enzyme activity results from de-novo activation of plant genes by an arbuscular mycorrhizal fungus. The H+-ATPase protein was localized in the plant membrane around arbuscule hyphae. The enzyme was absent from non-colonized cortical cells. Regulation of seven H+-ATPase genes (pma) was compared in non-mycorrhizal and mycorrhizal roots by histochemical detection of beta-glucuronidase (GUS) activity. Two genes (pma2, pma4) were induced in arbuscule-containing cells of mycorrhizal roots but not in non-mycorrhizal cortical tissues or senescent mycorrhiza. It is concluded that de-novo H+-ATPase activity in the periarbuscular membrane results from selective induction of two H+-ATPase genes, which can have diverse roles in plant-fungal interactions at the symbiotic interface.
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PMID:Differential activation of H+-ATPase genes by an arbuscular mycorrhizal fungus in root cells of transgenic tobacco. 1108 72

The root systems of plants proliferate via de novo formed meristems originating from differentiated pericycle cells. The identity of putative signals responsible for triggering some of the pericycle cells to re-enter the cell cycle remains unknown. Here, the cell cycle regulation in the pericycle of seedling roots of Arabidopsis thaliana (L.) HEYNH: is studied shortly after germination using various strategies. Based on the detailed analysis of the promoter-beta-glucuronidase activity of four key cell cycle regulatory genes, combined with cell length measurements, microdensitometry of DNA content, and experiments with a cell cycle-blocking agent, a model is proposed for cell cycle regulation in the pericycle at the onset of lateral root initiation. The results clearly show that before the first lateral root is initiated, the pericycle consists of dissimilar cell files in respect of their cell division history. Depending on the distance behind the root tip and on position in relation to the vascular tissue, particular pericycle cells remain in the G(2) phase of the cell cycle and are apparently more susceptible to lateral root initiation than others.
J Exp Bot 2001 Mar
PMID:The peri-cell-cycle in Arabidopsis. 1132 46

Fleshy fruits represent a very important economic resource and, therefore, they are an ideal target for biotechnological ameliorations. However, because of their physiological and anatomical characteristics, ripe fleshy fruits represent an extremely difficult material for transient gene expression assays aimed at the study of gene promoters in a short time. To this purpose, a fast and efficient Agrobacterium-mediated transient gene expression system was developed for ripe fleshy fruits. A beta-glucuronidase reporter gene interrupted by an intron was used in order to prevent the possible expression of GUS activity by the Agrobacterium cells. The contemporary use of another reporter gene was used to check the transformation efficiency. This method is based on the injection of an Agrobacterium suspension into the fruits, and allows both qualitative and quantitative assays in a wide range of fruits to be carried out.
J Exp Bot 2001 Apr
PMID:A simple protocol for transient gene expression in ripe fleshy fruit mediated by Agrobacterium. 1141 21

The promoter of the Arabidopsis thaliana L. AtEm1 gene encoding a late embryogenesis abundant protein was fused to the beta-glucuronidase reporter gene and introduced into Brassica napus. The promoter is highly active in the vascular tissues of embryo and pollen grains and also active in petals, sepals, caulinar leaves, and carpels.
J Exp Bot 2001 Jul
PMID:The Arabidopsis AtEm1 promoter is active in Brassica napus L. and is temporally and spatially regulated. 1145 20

An efficient and reproducible procedure for the transformation of white spruce (Picea glauca [Moench] Voss) embryogenic tissues was developed using A. tumefaciens-mediated gene transfer. Rapidly dividing white spruce embryogenic tissues were co-cultivated with disarmed A. tumefaciens strains containing additional copies of the virulence regions from plasmid PToK47. The plasmid pBi121, containing the neomycin phosphotransferase II (nptII) gene providing kanamycin resistance as a selectable marker and the beta-glucuronidase (uidA) reporter gene, was used as binary vector. The highest frequency of transformation (15 transformed tissues g(-1) FW of treated embryogenic tissue) was obtained with 5-d-old tissues grown in liquid medium and co-cultivated with Agrobacterium for 2 d in the same medium but containing 50 microM acetosyringone. Recovery of kanamycin-resistant tissues was improved when tissues were first grown for 10 d on a timentin-containing medium (400 mg l(-1)), to prevent bacterial overgrowth, before application of the selection pressure. After 6 weeks on kanamycin-selection medium, resistant tissues were obtained and showed stable uidA expression. The presence of the transgenes was demonstrated by PCR analysis and their integration into the genome was confirmed by Southern hybridization. Transgenic plants were regenerated from transformed tissues within 4 months after co-culture.
J Exp Bot 2001 Nov
PMID:An improved procedure for production of white spruce (Picea glauca) transgenic plants using Agrobacterium tumefaciens. 1160 47

The male gametophyte of higher plants represents an excellent system to study gene regulation, cell fate determination and cellular differentiation in plants because of its relative simplicity compared to the sporophyte and its accessibility for cytological and molecular analysis. Unicellular plant microspores are single haploid cells, which can be isolated in large amounts at a defined developmental stage. Microspores cultured in vitro in a rich medium develop into mature pollen grains, which are fertile upon pollination in vivo. It is reported here that isolated Antirrhinum majus microspores when cultured in an optimal medium develop to form mature, fertile pollen. Their development closely resembled that of pollen formed in vivo. Isolated microspores were bombarded with Aquorea victoria Green Fluorescent Protein (GFP), Discosoma Red Fluorescent Protein (dsRFP) and beta-glucuronidase (GUS) reporter genes under the control of various promoters and transient expression was observed throughout pollen development in vitro. Bombarded and not bombarded in vitro-matured pollen grains were able to germinate both in vitro and on receptive stigmas and to set seed. The protocol of maturation, transient transformation and germination of Antirrhinum majus pollen in vitro described here provides a valuable tool for basic and applied research.
J Exp Bot 2002 May
PMID:Antirrhinum majus microspore maturation and transient transformation in vitro. 1197 23


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