EC:3.2.1.23 - FACTA Search

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Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study demonstrates that beta-glucuronidase from rat preputial glands binds with high affinity to spermatozoa from the cauda epididymis. The binding was calcium-independent and was inhibited by mannose-6-phosphate, but not by other phosphorylated or non-phosphorylated sugars. Binding was also inhibited by alpha-mannosidase from Dictyostelium discoideum, an enzyme known to have mannose-6-phosphate as the ligand. From solubilized sperm membranes, a protein of > 200 kDa and one of 45 kDa, were absorbed to a column of D. discoideum enzyme and to a phosphomannan column respectively, and eluted with mannose-6-phosphate. According to histochemical observations at the light and the electron microscopic level, gold particles coated with the enzyme became bound to the external surface of the plasmalemma in the acrosomal region of caudal spermatozoa. Similar labelling was observed using gold particles coated with antibodies against the rat 300 kDa phosphomannosyl receptor. The existence of phosphomannosyl receptors on the sperm plasma membrane, and our previous demonstration of the presence of affinity sites for epididymal beta-galactosidase on these gametes which is inhibited by phosphofructosyl derivatives, suggest strongly that maturing spermatozoa could be a target for glycosidases secreted into the lumen of the cauda epididymis, which then become bound to these cells via different ligand-receptor systems.
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PMID:Phosphomannosyl receptors on the surface of spermatozoa from the cauda epididymis of the rat. 755 73

In transgenic strains of Dictyostelium discoideum that express beta-galactosidase under the control of a prespore-specific promoter, only early slugs show reporter confined to the prespore zone. As slugs migrate beta-galactosidase-positive cells accumulate in the prestalk zone; ultimately, there may be so many that the prestalk-prespore boundary is no longer distinguishable (Harwood, A., Early, A., Jermyn, K. and Williams, J. (1991) Differentiation 46, 7-13). It is not clear whether these 'anomalous' reporter-positive cells currently express prespore genes; another possibility is that they are ex-prespore cells that have transformed to prestalk and sorted to the prestalk zone (Sternfeld, J. (1993) Roux Archiv. Dev. Biol. 201, 354-363), while retaining their previously produced reporter. To test the activity of the prespore genes in these cells, we have made prespore reporter constructs whose products decay quickly; these are based on constructs used to investigate protein turnover in yeast (Bachmair, A., Finley, D. and Varshavsky, A. (1986) Science 234, 179-186). In strains bearing such constructs, beta-galactosidase-positive cells do not appear in the prestalk zone. The apparent deterioration of the prestalk/prespore pattern in older slugs is thus an artefact of reporter stability.
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PMID:The 'prespore-like cells' of Dictyostelium have ceased to express a prespore gene: analysis using short-lived beta-galactosidases as reporters. 760 75

spiA, a marker for sporulation, is expressed during the culmination stage of Dictyostelium development, when the mass of prespore cells has moved partly up the newly formed stalk. Strains containing a full-length spiA promoter/lacZ fusion were stained for beta-galactosidase activity at intervals during development. The results indicate that expression of spiA initiates in prespore cells at the prestalk/prespore boundary (near the apex) and extends downward into the prespore mass as culmination continues. A spatial gradient of staining expands from the top of the prespore mass and intensifies until the front of activation reaches the bottom, whereupon the entire region stains darkly. The spiA promoter can be deleted to within 301 bp of the transcriptional start site with no effect on the relative strength, timing or spatial localization of expression. Further 5' deletions from -301 to -175 reduce promoter strength incrementally, although timing and spatial expression are not affected. Deletions to -159 and beyond result in inactive promoters. Treatment of early developmental structures with 8-Br-cAMP in situ activates the intracellular cAMP-dependent protein kinase (PKA) and precociously induces spiA expression and sporulation. The absence of an apparent gradient of staining in these structures suggest that PKA is equivalently activatable throughout the prespore region and that all prespore cells are competent to express spiA. Thus, we postulate that the pattern of expression of spiA reveals the progression of an inductive signal for sporulation and suggest that this signal may originate from the prestalk cells at the apex.
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PMID:Progression of an inductive signal activates sporulation in Dictyostelium discoideum. 760 79

The activity of cAMP-dependent protein kinase (PKA) is required for proper development at several stages during the Dictyostelium life cycle. We present evidence that activation of PKA is rate-limiting for the differentiation of prespore cells to spores and that PKA activation may be the developmental trigger for sporulation. Strains that overexpress the gene encoding the catalytic subunit of PKA (PKAcat) or lack a functional regulatory subunit (rdeC strains) undergo rapid, heterochronic development. We show that overexpression of PKAcat in prespore cell is sufficient to directly induce expression of the spore maturation marker spiA and differentiation to spores, in a cell-autonomous manner. Moreover, overexpression of PKAcat in prespore cells can bypass a mutation that blocks an earlier developmental step to induce spiA expression. Our results suggest that the regulatory pathway in prespore cells between the activation of PKA and spiA induction/spore maturation is quite short and that PKAcat expression in prespore cells may mediate spore differentiation at the level of transcription. This induction of sporulation requires the prior activation of the prespore cell pathway. In addition, we show that beta-galactosidase activity expressed from a PKAcat promoter/lacZ reporter construct is highly enriched in the anterior prestalk A region during the tipped aggregate, slug, and early culminant stages and that this pattern switches abruptly to a prespore pattern at the time of spore maturation, supporting the proposed role of PKA in this process.
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PMID:Expression of cAMP-dependent protein kinase in prespore cells is sufficient to induce spore cell differentiation in Dictyostelium. 793 93

The sorting behavior of Dictyostelium discoideum Ax-2 cells and its relation to the cell-cycle phase at the onset of starvation were analyzed with reference to pattern formation, using beta-galactosidase as a cell marker and the temperature-shift method for cell synchronization. Cells transformed with the vector pAct15-Gal showed different sorting behavior during development when they were starved at different cell-cycle phases. Cells (T7) starved at the mid-late G2 phase (just before the PS-point from which cells enter the differentiation phase when starved) aggregated most rapidly and possibly functioned as aggregation centers, but were eventually sorted out to the posterior zone of migrating slugs. In contrast, T1 cells starved at the late G2 phase (just after the PS-point) exhibited slower aggregation compared with T7 cells. During further culture, T1 cells then sorted out to the apical tips of tipped aggregates and were located predominantly in the anterior zone of migrating slugs. Thus, T1 and T7 cells apparently interchange their positions in the cell masses during tip formation. The possible significance of cell-cycle-related sorting presented here is discussed, with special emphasis on pattern formation and cell differentiation.
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PMID:Cell-cycle-dependent sorting in the development of Dictyostelium cells. 812 89

We and others have previously shown that cAMP-dependent protein kinase (PKA) activity is essential for aggregation, induction of prespore gene expression and multicellular development in Dictyostelium. In this manuscript, we further examine this regulatory role. We have overexpressed the Dictyostelium PKA catalytic subunit (PKAcat) in specific cell types during the multicellular stages, using prestalk and prespore cell-type-specific promoters to make PKA activity constitutive in these cells (independent of cAMP concentration). To examine the effects on cell-type differentiation, we cotransformed the PKAcat-expressing vectors with reporter constructs expressing lacZ from four cell-type-specific promoters: ecmA (specific for prestalk A cells); ecmB (specific for prestalk B and anterior-like cells in the slug); ecmB delta 89 (specific for stalk cells); and SP60 (prespore-cell-specific). By staining for beta-galactosidase expression histologically at various stages of development in individual strains, we were able to dissect the morphological changes in these strains, examine the spatial localization of the individual cell types, and understand the possible roles of PKA during multicellular development. Expression of PKAcat from either the ecmA or ecmB prestalk promoters resulted in abnormal development that arrested shortly after the mound stage, producing a mound with a round apical protrusion at the time of tip formation. Prestalk A and prestalk B cells were localized in the central region and the apical mound in the terminal differentiated aggregate, while prespore cells showed an aberrant spatial localization. Consistent with a developmental arrest, these mounds did not form either mature spores or stalk cells and very few cells expressed a stalk-cell-specific marker. Expression of PKAcat from the prespore promoter resulted in abnormal morphogenesis and accelerated spore cell differentiation. When cells were plated on agar, a fruiting body was formed with a very large basal region, containing predominantly spores, and a small, abnormal sorocarp. Mature spore cells were first detected by 14 hours, with maximal levels reached by 18-20 hours, in contrast to 24-26 hours in wild-type strains. When cells were plated on filters, they produced an elongated tip from a large basal region, which continued to elongate as a tubular structure and produce a 'slug-like' structure at the end. The slug was composed predominantly of prestalk cells with a few prespore cells restricted to the junction between the 'slug' and tube. As the slug migrated, these prespore cells were found in the tube, while new prespore cells appeared at the slug/tube junction, suggesting a continual differentiation of new prespore cells at the slug's posterior.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:cAMP-dependent protein kinase differentially regulates prestalk and prespore differentiation during Dictyostelium development. 827 51

cAMP acts as a primary signal and is regulated by a secreted cyclic nucleotide phosphodiesterase (PDE) throughout development in Dictyostelium discoideum. Expression of the PDE gene (pde) is controlled by promoters specific to vegetative growth (prV), aggregation (prA), or late development (prL). Promoter-containing regions were individually fused to the pde coding sequence. After transformation multiple copies of each construct led to overexpression of PDE mRNA and enzyme activity with the temporal profile expected of each promoter. Overexpression of PDE from prV and prA altered the timing of aggregation compared to control transformants, but the final morphology was normal. Control transformants showed delayed aggregation compared to nontransformed cells. Cells that overexpressed PDE from prL aggregated like the control transformants, but no fruiting bodies were formed. Individual promoter regions were fused to the beta-galactosidase gene (lacZ). Cells that expressed prA-lacZ were dispersed throughout aggregation fields and mounds. Cells that expressed prL-lacZ were first seen distributed homogeneously throughout tight and tipped mounds. In slugs most of these cells are localized in the anterior region. During culmination, cells that expressed the prL-lacZ construct became incorporated into the stalk and were seen in the upper and lower cups surrounding the spore mass.
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PMID:The role of the cyclic nucleotide phosphodiesterase of Dictyostelium discoideum during growth, aggregation, and morphogenesis: overexpression and localization studies with the separate promoters of the pde. 838 36

The Dp87 is a novel prespore specific gene of Dictyostelium discoideum which has a long open reading frame of 555 amino acids. The entire amino acid sequence had low but significant homology to the spore coat proteins, SP96 and SP70, of this organism. When a chimeric gene, containing a 1380 bp of the 5' upstream region of this gene fused with CAT gene, as reporter, was introduced into cells of this organism, it was expressed only in prespore cells of the slug. Transformation experiments, using chimeric genes, containing a series of 5' deletions of the upstream region, showed that -447 bp to -357 bp is an important cis-acting regulatory region for transcription. A nuclear factor(s) that specifically bind to this cis-acting region were detected from slug cell nuclei. Transformation experiments using a chimeric gene consisting of the 5' region between -666 bp and +149 bp of this gene, a beta-galactosidase reporter and an actin 8 terminator, showed that the reporter gene was expressed as early as in aggregation streams, indicating that Dp87 become transcribed a few hours earlier than the other prespore-specific genes so far reported. This was confirmed by northern hybridization detected using an image plate analyzer. The fact that cells expressing Dp87 appeared at random in aggregation streams gives solid support to the idea that position-independent differentiation of prespore and prestalk cells, followed by their sorting, brings about pattern formation in this organism.
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PMID:Developmental regulation of transcription of a novel prespore-specific gene (Dp87) in Dictyostelium discoideum. 840 32

Dictyostelium discoideum forms elongate cell aggregates called "slugs" which migrate over the substrate before completing their conversion into fruiting bodies. Prespore cells are found in a zone which occupies the rear four-fifths of the slug. Both front- and rear-prespore cells, marked by a bacterial beta-galactosidase gene, sort out to their original positions in experiments in which slugs are reconstituted from disaggregated tissue. When cells from the rear of the prespore zone are transplanted to the middle or front, sorting is also observed: the transplanted cells return rapidly to the rear. Cells from the front of the prespore zone, however, were not observed to "home" to the front after transplantation to the rear. Since front-prespore cells sort out in disaggregation/reaggregation experiments, but fail to do so after transplantation to the rear, it is possible that the transplanted cells are converted to rear-prespore cells by extracellular signals present in the rear of the slug. In an experiment designed to test this hypothesis, front cells were transplanted to the rear and the host and transplant together then subjected to disaggregation/reaggregation. The results showed that front-prespore cells had not been converted to rear-prespore cells. Instead, there was an unanticipated effect: cells placed in the rear of the prespore zone underwent an anterior shift in positional preference, while cells placed in the front of the prespore zone showed a posterior shift. The specific sorting properties of front- and rear-prespore cells thus do not appear to result from the action of positional signals; positional signals destabilize rather than reinforce sorting preferences. Our observations are consistent with a model in which innate differences among cells bias them to differentiate as front-prespore or rear-prespore types, but the proportions of these types are also modulated by a negative-feedback mechanism.
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PMID:Cell sorting within the prespore zone of Dictyostelium discoideum. 846 45

The discoidin proteins of Dictyostelium discoideum are highly expressed during development. The Disc I gamma promoter allows the regulation of heterologous protein expression by experimental conditions. We report conditions under which the promoter activity is efficiently repressed during growth in the wildtype strain AX2. In addition we show that a mutant which overexpresses the discoidins also overexpresses the reporter genes beta-galactosidase, luciferase and CAT 10- to 100-fold when these are placed under the control of a Disc I gamma promoter. This system may be generally useful for the overexpression of genes in Dictyostelium, both for functional studies in vivo and for the production of heterologous proteins for purification.
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PMID:Use of a transactive regulatory mutant of Dictyostelium discoideum in a eucaryotic expression system. 846 30

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