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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
dopamine beta-hydroxylase
promoter has been shown to direct expression of the reporter gene product,
beta-galactosidase
, to enteric neurons and putative embryonic neuroblasts in transgenic mice (Mercer et al., 1991; Kapur et al., 1991). In this paper, expression of the transgene, D beta H-nlacZ, in the gastrointestinal tract is characterized in more detail in wild-type mice and mice which are also homozygous for the lethal spotted allele (ls). Expression of the transgene in wild-type embryos was first detected in scattered mesenchymal cells in the proximal foregut on embryonic day 9.5, and progressed distally until embryonic day 13.5 when the entire length of the gut was colonized by such cells. Several observations suggest that the mesenchymal cells which express the transgene (MCET) are, in fact, enteric neuroblasts, probably derived from the vagal neural crest. (1) The presence of MCET in progressively more caudal portions of the embryonic gut correlated with the neurogenic potential of isolated gastrointestinal segments grafted under the renal capsule. (2) Mitotic activity of MCET was demonstrated by incorporation of [3H]thymidine in utero. (3) The migratory behavior of MCET and/or their precursors was revealed in anastomotic subcapsular grafts of gut from transgenic and non-transgenic embryos; enteric ganglia of the latter were populated by MCET from the former. (4) Enteric expression of the transgene postnatally was restricted to intrinsic neurons that coexpressed other phenotypic markers of neuronal differentiation. The pattern of transgene expression in ls/ls mice was identical to that seen in ls/+ and +/+ mice until embryonic day 12.5.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:A transgenic model for studying development of the enteric nervous system in normal and aganglionic mice. 148 85
The 5' flanking region from the human
dopamine beta-hydroxylase
gene directs expression of bacterial
beta-galactosidase
reporter genes to a subset of adult neurons and adrenal chromaffin cells of transgenic mice. In this paper, we examine the spatial and temporal patterns of expression of these transgenes during embryogenesis. Expression begins at embryonic day 9 in the developing central and peripheral nervous systems and persists in cell populations in which expression is observed in adult transgenic mice. However, transient embryonic expression occurs in presumptive neuroblasts in developing sensory ganglia and ventrolateral neural tube that are destined to synthesize neurotransmitters other than catecholamines. These observations support the concept that some cells fated to become "non-catecholaminergic" neurons exhibit transient catecholaminergic features during their differentiation.
...
PMID:Some neuronal cell populations express human dopamine beta-hydroxylase-lacZ transgenes transiently during embryonic development. 174 22
Dopamine beta-hydroxylase (D beta H) (
EC 1.14.17.1
) from adrenal medulla is a glycoprotein with approximately 5% carbohydrate by weight. The oligosaccharide chains of this enzyme were enzymatically removed with various glycosidic enzymes (endoglycosidases D, F, and H; glycopeptidase F; alpha-mannosidase; neuraminidase; and
beta-galactosidase
). The time course of deglycosylation was monitored by polyacrylamide gel electrophoresis, and evidence for sugar removal was shown by a modification of the Western blot technique utilizing 125I-labeled concanavalin A and by amino acid analysis. Protein was detected in the gel by using specific antibodies and 125I-labeled protein A. Steady-state kinetic data of deglycosylated D beta H show minor differences between the native and the deglycosylated protein. The Km values for tyramine were 2.17 and 1.66 mM whereas the Km values for oxygen were 0.18 and 0.14 mM for the native and the deglycosylated protein, respectively. The Vmax values (pH 5.0) for the two forms of the enzyme were comparable, with the deglycosylated D beta H being 15% lower. These data indicate that the oligosaccharide moieties present on D beta H do not play a role in catalysis.
...
PMID:Characterization and kinetic studies of deglycosylated dopamine beta-hydroxylase. 360 11
In mice that express lacZ under the control of a human
dopamine beta-hydroxylase
gene promoter (DbetaH-nlacZ mice), the nuclei of enteric neurons express the transgene, as shown by the presence of
beta-galactosidase
(beta-gal) staining (Mercer et al. [1991] Neuron 7:703-716). The transgene is also expressed by neural crest-derived cells in the developing gut before their differentiation into neurons or glial cells (Kapur et al. [1992] Development 116:167-175). However, the cell types expressing the DbetaH-nlacZ transgene within the developing and adult gut have not been fully characterized. Whole-mount preparations of embryonic and adult gut were processed for histochemistry or immunohistochemistry to reveal beta-gal plus markers of undifferentiated neural crest cells (in embryos) or enteric neurons (in adults). In embryonic mice, over 90% of undifferentiated neural crest-derived cells (identified using antibodies to p75) were beta-gal(+). Importantly, crest-derived cells at the migratory wavefront were all beta-gal(+). In adult mice, only a subpopulation of enteric neurons was beta-gal(+), while glial cells showed no beta-gal staining. Considerable variation was observed between the small intestine and colon in the proportion of myenteric neurons that showed beta-gal staining. We examined whether known classes of enteric neurons varied in their expression of DbetaH-nlacZ. In the myenteric plexus of the jejunum and colon, large calretinin(+) neurons did not express lacZ, suggesting that the incomplete penetrance of the DbetaH-nlacZ transgene observed in adult mice is not random. We conclude that the DbetaH-nlacZ transgene provides a reliable marker for examining the colonization of the developing gut by neural crest cells. However, in adult mice, there is variation between mice, between gut regions, and between different classes of enteric neurons in the expression of the transgene.
...
PMID:Characterization of lacZ-expressing cells in the gut of embryonic and adult DbetaH-nlacZ mice. 1289 13
