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)

The fission yeast Schizosaccharomyces pombe has two alpha-tubulin genes and one beta-tubulin gene. Gene disruption experiments showed that the alpha 1-tubulin gene (NDA2) is essential whereas the alpha 2 gene is dispensable. The alpha 2-disrupted cells missing alpha 2 transcript and alpha 2 polypeptide could grow and sporulate normally. The alpha 2 gene, however, was expressed in the wild type and the alpha 1 mutant. Alpha 2-Tubulin was distinguished as an electrophoretic band and was assembled into microtubules. The alpha 2-disrupted cells had an increased sensitivity to an antimicrotubule drug thiabendazole, and the alpha 1(cold-sensitive [cs]) alpha 2 (disrupted) cells became not only cs but also temperature sensitive. Northern blot experiments indicated that alpha 2 transcription was minor and constitutive whereas alpha 1 transcription was major and modulated, depending on the gene copy number of the alpha 2 gene. The amounts of alpha 1 and alpha 2 polypeptides estimated by beta-galactosidase activities of the lacZ-fused genes integrated on the chromosome and by intensities of the electrophoretic bands in crude tubulin fractions, however, were comparable, indicating that alpha 2 tubulin is not a minor subtype. We assume that the cells of Schizosaccharomyces pombe have no excess tubulin pool. alpha 1 mutants would then be blocked in the cell cycle because only half the amount of functional alpha-tubulin required for growth can be produced by the alpha 2 gene. On the other hand, the alpha 2-disrupted cells became viable because the synthesis of alpha 1 tubulin was increased by transcriptional or translational modulation or both. The real cause for essential alpha 1 and dispensable alpha 2 genes seems to be in their regulatory sequences instead of the coding sequences.
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PMID:Differential expressions of essential and nonessential alpha-tubulin genes in Schizosaccharomyces pombe. 378 93

We have previously demonstrated that one member of the alpha-tubulin multigene family, termed T alpha 1 in rats, is regulated as a function of neuronal growth and regeneration. To elucidate the molecular mechanisms responsible for coupling gene expression to morphological differentiation, we have isolated the T alpha 1 gene, have fused 1.1 kb of the 5' flanking region to a nuclear lacZ reporter gene, and have generated transgenic mice. Analysis of these transgenic mice demonstrated that marker gene expression was specific to the CNS and PNS, with expression in vivo at embryonic day 13.5 being similar to expression of the endogenous gene. Moreover, the induction of transgene expression was correlated temporally with neuronal commitment in developing neural crest-derived peripheral neurons and in the developing retina. Immunocytochemical analysis of mixed primary embryonic brain cultures confirmed that transgene expression was specific to neurons, with the majority of neurons, but not astrocytes or oligodendrocytes, expressing beta-galactosidase. Transgene expression in vivo was maintained in developing neurons until early in postnatal life, subsequent to which its expression decreased coincident with neuronal maturation. The transgene was then reinduced in regenerating facial motoneurons following unilateral axotomy of the facial nerve. Thus, 1.1 kb of 5' flanking sequence from the T alpha 1 gene contains the sequence elements responsible for specifying gene expression to embryonic neurons and for subsequently regulating gene expression in both developing and mature neurons as a function of morphological growth.
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PMID:The T alpha 1 alpha-tubulin promoter specifies gene expression as a function of neuronal growth and regeneration in transgenic mice. 799 78

In this report, we address the molecular mechanisms that regulate axonal growth by focusing on the gene for one of the major axonal cytoskeletal proteins, T alpha1 alpha-tubulin. During the developmental growth of sympathetic neurons, transcription of a beta-galactosidase transgene driven by the T alpha1 promoter (T alpha1:nlacZ) was high until the time of target innervation and neuronal maturation, when it decreased significantly. In mature animals, T alpha1:nlacZ transcription remained relatively low until target contact was experimentally disrupted; when facial motoneurons were axotomized, T alpha1:nlacZ transgene expression increased, was maximal for 1-7 days, and, if neurons regenerated and reinnervated their target musculature, returned to control levels by 49 days. In contrast, if regeneration and reestablishment of target contact were inhibited, transgene expression remained elevated. To determine whether this increased transcription was due to the loss of target contact or to axonal loss, we transected sympathetic neurons that project to the eye either close to or far from their cell bodies. In both cases, when target contact was severed, T alpha1:nlacZ transcription increased. These experiments indicate that transcription of the T alpha1 alpha-tubulin promoter is repressed by target contact in both developing and mature neurons. We suggest that this repression is due to a target-derived "stop-growth" factor that retrogradely signals to regulate transcription of this and other genes that are required for axonal growth.
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PMID:Transcriptional repression of the growth-associated T alpha1 alpha-tubulin gene by target contact. 918 70

In this report, we have examined the requirement for the retinoblastoma (Rb) gene family in neuronal determination with a focus on the developing neocortex. To determine whether pRb is required for neuronal determination in vivo, we crossed the Rb-/- mice with transgenic mice expressing beta-galactosidase from the early, panneuronal Talpha1 alpha-tubulin promoter (Talpha1:nlacZ). In E12.5 Rb-/- embryos, the Talpha1:nlacZ transgene was robustly expressed throughout the developing nervous system. However, by E14. 5, there were perturbations in Talpha1:nlacZ expression throughout the nervous system, including deficits in the forebrain and retina. To more precisely define the temporal requirement for pRb in neuronal determination, we functionally ablated the pRb family in wild-type cortical progenitor cells that undergo the transition to postmitotic neurons in vitro by expression of a mutant adenovirus E1A protein. These studies revealed that induction of Talpha1:nlacZ did not require proteins of the pRb family. However, in their absence, determined, Talpha1:nlacZ-positive cortical neurons underwent apoptosis, presumably as a consequence of "mixed signals" deriving from their inability to undergo terminal mitosis. In contrast, when the pRb family was ablated in postmitotic cortical neurons, there was no effect on neuronal survival, nor did it cause the postmitotic neurons to reenter the cell cycle. Together, these studies define a critical temporal window of requirement for the pRb family; these proteins are not required for induction of neuronal gene expression or for the maintenance of postmitotic neurons, but are essential for determined neurons to exit the cell cycle and survive.
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PMID:A critical temporal requirement for the retinoblastoma protein family during neuronal determination. 950 81

Biolistics, also known as particle-mediated gene transfer, has been used as an effective, method to transfect primary neurons in cultured slices when all other methods have proven unsuccessful. Most of these uses have provided qualitative or semi-quantitative data based on visual assays such as immunohistochemistry. In this paper, we describe a quantitative method of biolistics to analyze gene expression in organotypic cultures of hippocampus and hypothalamus. The method involves co-transfection of the experimental promoters and standard (cytomegalovirus or Rous sarcoma virus) promoters coupled to different reporters (luciferase or beta-galactosidase), with the standard promoter-reporter construct used to 'normalize' the experimental data. Examples and validations of this technique with various cell specific promoters are given: for example, astrocyte-specific and neuron-specific (alpha-tubulin and N-type calcium channel alpha-1B gene) promoters and various tissues (Neuro 2A cells and hippocampal and hypothalamic organotypic slice-explants). An analysis of deletion constructs of the alpha 1B calcium channel subunit gene is described. This method should provide a new opportunity for the analysis of gene expression in diverse neuronal phenotypes.
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PMID:Quantitative analysis of gene expression in organotypic slice-explant cultures by particle-mediated gene transfer. 982 50

In this report, we have examined the relationship between the onset of neuronal gene transcription and neuronal development by characterizing expression of the early panneuronal Talpha1 alpha-tubulin promoter in developing neurons. In the peripheral nervous system, detectable expression of a beta-galactosidase transgene driven by the Talpha1 promoter (Talpha1:nlacZ) was coincident with neuronal birth dates, with the exception of sympathetic neuroblasts, which expressed the transgene prior to terminal mitosis. Similarly, in the central nervous system, the onset of beta-galactosidase expression was coincident with neuronal birth dates in most identifiable populations of central neurons. A small subpopulation of transgene-positive cells localized to ventricular zones, but the vast majority was observed in locations consistent with their identification as migrating and/or differentiating neurons. To determine more precisely the temporal relationship between transgene expression and terminal mitosis, we analyzed cultures of cortical progenitors that become postmitotic neurons in vitro. When initially plated, the vast majority of cells consisted of dividing, nestin-positive progenitors. Neurons differentiated from these progenitors as early as 1 day in vitro, as indicated by immunostaining for betaIII-tubulin, a neuron-specific tubulin isotype that is turned on shortly after terminal mitosis. Double-labeling studies showed that Talpha1:nlacZ expression was detectable in the same cells and at approximately the same time as was betaIII-tubulin, indicating that detectable transcription of the Talpha1 alpha-tubulin promoter commences at the time of terminal mitosis, at least in culture. This promoter, therefore, provides a valuable tool for genetic manipulation of early developing neurons in transgenic mice.
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PMID:Early induction of Talpha1 alpha-tubulin transcription in neurons of the developing nervous system. 1002 95

Previously, we observed that injection of an adenoviral (Ad) vector expressing glial cell line-derived neurotrophic factor (GDNF) into the striatum, but not the substantia nigra (SN), prior to a partial 6-OHDA lesion protects dopaminergic (DA) neuronal function and prevents the development of behavioral impairment in the aged rat. This suggests that striatal injection of AdGDNF maintains nigrostriatal function either by protecting DA terminals or by stimulating axonal sprouting to the denervated striatum. To distinguish between these possible mechanisms, the present study examines the effect of GDNF gene delivery on molecular markers of DA terminals and neuronal sprouting in the aged (20 month) rat brain. AdGDNF or a control vector coding for beta-galactosidase (AdLacZ) was injected unilaterally into either the striatum or the SN. One week later, rats received a unilateral intrastriatal injection of 6-OHDA on the side of vector injection. Two weeks postlesion, rats injected with AdGDNF into either the striatum or the SN exhibited a reduction in the area of striatal denervation and increased binding of the DA transporter ligand [(125)I]IPCIT in the lesioned striatum compared to control animals. Furthermore, injections of AdGDNF into the striatum, but not the SN, increased levels of tyrosine hydroxylase mRNA in lesioned DA neurons in the SN and prevented the development of amphetamine-induced rotational asymmetry. In contrast, the level of T1 alpha-tubulin mRNA, a marker of neuronal sprouting, was not increased in lesioned DA neurons in the SN following injection of AdGDNF either into the striatum or into the SN. These results suggest that GDNF gene delivery prior to a partial lesion ameliorates damage caused by 6-OHDA in aged rats by inhibiting the degeneration of DA terminals rather than by inducing sprouting of nigrostriatal axons.
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PMID:Glial cell line-derived neurotrophic factor (GDNF) gene delivery protects dopaminergic terminals from degeneration. 1131 61

Using the FDD-PCR technique, ten new fiber-specific cDNAs were isolated from developing cotton fiber cells and showed high amino acid identity to previously recorded cDNAs. Five cDNAs encoding bisphosphate nucleotidase, alpha-tubulin, beta-galactosidase, annexin, and reversibly glycosylated polypeptide were identified while the functions of five other cDNAs were undetermined. Dot blot analysis showed that all transcripts of the 10 cDNAs accumulated preferentially in fiber cells and the majority were expressed in the early phase of cotton fiber development, except for F14 which accumulated at a high level during the late phase of developing fiber cells, indicating that all of the genes were involved in the process of fiber development.
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PMID:Molecular cloning and characterization of cotton cDNAs expressed in developing fiber cells. 1182 80

Thyroid hormone (T3) is essential for brain development and most of its actions are exerted at the gene expression level after interaction with nuclear receptors. In particular, genes encoding cytoskeletal proteins are influenced by the thyroidal status. Thyroid hormone is involved in the normal downregulation of the Talpha1 alpha-tubulin gene during postnatal growth. The action of T3 on Talpha1 tubulin expression is complex and is exerted at least at two levels. In cultured cells, T3 induces a transient and fast decrease of Talpha1 mRNA concentration. This effect is enhanced when transcription is blocked by actinomycin D, suggesting that T3 increases mRNA degradation. In transgenic animals T3 affects the expression of beta-galactosidase under control of the Talpha1 promoter in the same way as the endogenous gene, supporting an effect mediated through the Talpha1 promoter. However, the Talpha1 promoter is not regulated by T3 in transfected cells and, therefore, the effects of the hormone in vivo are likely to be indirect. It is concluded that regulation of Talpha1 alpha-tubulin by thyroid hormone is the result of multiple influences including effects on mRNA half life and indirect effects at the promoter level.
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PMID:Thyroid hormone-dependent regulation of Talpha1 alpha-tubulin during brain development. 1190 7

The intercoding regions between many Leishmania sp. genes regulate their mRNA expression. The MSPL mRNA, encoding a subclass of the major surface protease (MSP) of Leishmania chagasi, increases in abundance, when protein synthesis is arrested, while alpha-tubulin (alpha-TUB) mRNA and most other mRNAs do not. We found that the intercoding region between MSPL-coding regions, when cloned downstream of the beta-galactosidase reporter gene (beta-GAL), caused beta-GAL mRNA to increase 8- to 10-fold after inhibiting protein synthesis with cycloheximide. Stable L. chagasi transfectants containing hybrid MSPL/alpha-TUB intercoding regions cloned downstream of beta-GAL were made. The alpha-TUB intercoding region induced high-level baseline beta-GAL mRNA that increased only 1.3-fold after incubation with cycloheximide. In contrast, the MSPL intercoding region, as well as constructs containing nucleotides 303-505 from the MSPL 3'UTR, caused steady-state beta-GAL mRNA levels in the absence of cycloheximide that were approximately 10% of alpha-TUB constructs. These levels increased between 4.4- and 13.2-fold after cycloheximide was added. Constructs containing half of this region (303-394 or 395-505) produced intermediate levels of beta-GAL mRNA and intermediate levels of cycloheximide induction. The kinetics of cycloheximide induction of beta-GAL mRNA was similar with region 303-505 constructs as with constructs bearing the entire endogenous MSPL intercoding region. Furthermore, region 303-505 increased reporter mRNA abundance after cycloheximide by increasing mRNA half-life. Hence, we have identified a 202-nucleotide region within the MSPL 3'UTR that is in part responsible for cycloheximide induction. We hypothesize that this region may interact with labile regulatory protein factor(s).
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PMID:Regulation of genes encoding the major surface protease of Leishmania chagasi via mRNA stability. 1587 63

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