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Query: EC:2.7.7.49 (
reverse transcriptase
)
31,746
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Connexins (cx) constitute a family of transmembrane proteins that form gap junction channels allowing metabolic and electrical coupling of cellular networks. Initial studies on the expression of cx in the developing brain have suggested that cx may undergo dynamic changes and may possibly be implicated in synchronizing development and differentiation of neural progenitor cells and young neurons. We have investigated expression of cx26, cx32, cx43, and cx45 in the midbrain floor, where nigrostriatal dopaminergic neurons originate and differentiate. This neuron population is of major importance in regulating motor-functions. Semiquantitative
reverse transcriptase
-polymerase chain reaction (RT-PCR) revealed low levels of cx26-mRNA in the midbrain floor at E12, which gradually increased during pre- and postnatal development, reaching a maximum in the adult. Cx32-mRNA-levels reached a first peak at
E16
, and showed highest levels in adulthood. Cx43 was highly expressed at E12, decreased until E18, and subsequently increased again until adulthood. Cx45 mRNA was prominent at all developmental ages, but slightly decreased after the first postnatal week. Double-labeling for the dopaminergic neuronal marker tyrosine hydroxylase (TH), and cx-immunoreactivities (ir) evaluated by quantitative confocal laser microscopy revealed both distinct and similar developmental patterns for the individual cx investigated. Cx26 was highest at E14, decreased towards birth, and subsequently increased again reaching about 50% of the E14 level in the adult. Cx32-ir peaked at
E16
and dropped to low levels after birth. Cx43-ir was highest at E12, decreased sharply at E14, reached its lowest levels at birth, but modestly increased again afterwards. Cx45-ir showed a biphasic pattern, with two prominent peaks at E12 and E18, followed by a massive postnatal decrease. Taken together, our results reveal that expression and ir of cx in the midbrain floor and dopaminergic neurons, respectively, follow cx-type specific patterns that temporally coincide with important steps of midbrain morphogenesis, as e.g. progenitor cell formation and migration (E12), early differentiation (E14-16), target encounter (
E16
-18) and postnatal functional maturation of the nigrostriatal system.
...
PMID:Expression and developmental regulation of gap junction connexins cx26, cx32, cx43 and cx45 in the rat midbrain-floor. 1200 76
We investigated the involvement of hepatocyte growth factor (HGF) in salivary gland (SG) branching morphogenesis. The mouse submandibular gland (SMG) starts to develop at embryonic day 11.5-12 (E11.5-E12), and branching morphogenesis occurs in the area between the mandibular bone and tongue between E14 and
E16
.5. Real-time
reverse transcriptase
-polymerase chain reaction showed that the expression of the c-met/HGF receptor gene in SMG increased and peaked between E14 and
E16
.5, concomitant with epithelial branching, and high levels of HGF mRNA were detected in the surrounding mesenchyme at E14-E15.5. Although strong expression of the HGF and c-met transcripts was observed in the tongue muscles, this expression was limited at E13.5-E14.5. Serum-free organ cultures were established, in which SG rudiments that contained SMG and sublingual gland (SLG) primordia (explant 1) and SMG/SLG rudiments with peripheral tissue that included part of the tongue muscle (explant 2) were isolated from E13.5 or E14 embryos. Mesenchyme-free SMG epithelium was obtained by the removal of mesenchymal tissue from explant 1. In the explant 1 and 2 organ cultures, SMG/SLG rudiments showed growth and branching morphogenesis, while mesenchyme-free epithelium failed to grow. When E13.5 or E14 mesenchyme-free epithelium and a recombinant human HGF (rh-HGF) -soaked bead were placed on Matrigel, the epithelium migrated toward the bead and formed branches, while the E13 epithelium failed to branch. The exogenous application of rh-HGF and anti-HGF antibody to the SMG/SLG rudiment cultures resulted in stimulation and inhibition, respectively, of branching morphogenesis. However, the response of E13.5 SMG to rh-HGF was very weak, while the branching of E14 SMG was enhanced strongly by rh-HGF. The branching morphogenesis of SMG was also inhibited by the addition of either antisense HGF or c-met oligodeoxynucleotides to the cultures. The development of SMG in explant 2, which was significantly better than in explant 1, was comparable to that seen in vivo. Moreover, the expression of both HGF and c-Met in the SMG of explant 2 was higher than in the SMG of explant 1. These findings provide the first demonstration that the branching morphogenesis of SMG is regulated by interactions with the surrounding mesenchyme-derived HGF and c-met expression in SMG, which occur concomitant with epithelial branching. The present data also suggest that the HGF that is released transiently from tongue muscles may contribute to the rapid development of SMG at the branching stage.
...
PMID:Involvement of hepatocyte growth factor in branching morphogenesis of murine salivary gland. 1451 89
Here, we investigated the expression of the claudin family of tight junction transmembrane proteins in the developing mouse submandibular gland. Data obtained by
reverse transcriptase
-polymerase chain reaction, Western blot, and immunofluorescence microscopy showed the expression and localization of claudin-3 to -8, -10, and -11 at epithelial tight junctions. Examination of the glands taken from embryonic day (E) 14,
E16
, and newborn mice revealed differential expression patterns of these claudins in the developing epithelium. Claudin-3, -5, and -7 were expressed in all of the luminal epithelial cells of the ducts at all of the developmental stages examined and in those of terminal tubules at
E16
and later. Claudin-4 was expressed mainly in the ducts at all the developmental stages. The expression of claudin-6 and -8 was also restricted to the ducts at E14 and
E16
; but after birth, the former was undetectable, whereas the latter was expressed in both the ducts and terminal tubules. Claudin-10 and -11 were detectable mainly in the terminal tubules at
E16
and later. In addition to being found in the epithelium, claudin-5 was also expressed in certain mesenchymal cells, probably endothelial cells. These results will provide a valuable resource for further investigation of tubulogenesis and physiological regulation of claudin-based tight junctions.
...
PMID:Expression patterns of claudin family of tight junction membrane proteins in developing mouse submandibular gland. 1536 20
N-RAP gene expression and N-RAP localization were studied during mouse heart development using semiquantitative
reverse transcriptase
-polymerase chain reaction and immunofluorescence. N-RAP mRNA was detected at embryonic day (E) 10.5, significantly increased from E10.5 to
E16
.5, and remained essentially constant from
E16
.5 until 21 days after birth. In E9.5-10.5 heart tissue, N-RAP protein was primarily associated with developing premyofibril structures containing alpha-actinin, as well as with the Z-lines and M-lines of more-mature myofibrils. In contrast, N-cadherin was concentrated in patches at the periphery of the cardiomyocytes. N-RAP labeling markedly increased between E10.5 and
E16
.5; almost all of the up-regulated N-RAP was associated with intercalated disk structures, and the proportion of mature sarcomeres containing N-RAP decreased. In adult hearts, specific N-RAP staining was only observed at the intercalated disks and was not found in the sarcomeres. The results are consistent with N-RAP functioning as a catalytic scaffolding molecule, with low levels of the scaffold being sufficient to repetitively catalyze key steps in myofibril assembly.
...
PMID:N-RAP expression during mouse heart development. 1576 19
An increased supply of the essential nutrient choline during fetal development [embryonic day (E) 11-17] in rats causes life-long improvements in memory performance, whereas choline deficiency during this time impairs certain aspects of memory. We analyzed mRNA expression in brains of prenatally choline-deficient, choline-supplemented, or control rats of various ages [postnatal days (P) 1 to 34 for hippocampus and
E16
to P34 for cortex] using oligonucleotide microarrays and found alterations in gene expression levels evoked by prenatal choline intake that were, in most cases, transient occurring during the P15-P34 period. We selected a subset of genes, encoding signaling proteins, and verified the microarray data by
reverse transcriptase
-polymerase chain reaction analyses. Prenatally choline-supplemented rats had the highest expression of calcium/calmodulin (CaM)-dependent protein kinase (CaMK) I and insulin-like growth factor (IGF) II (Igf2) in the cortex and of the transcription factor Zif268/EGR1 in the cortex and hippocampus. Prenatally choline deficient rats had the highest expression of CaMKIIbeta, protein kinase Cbeta2, and GABA(B) receptor 1 isoforms c and d in the hippocampus. Similar changes in the expression of the proteins encoded by these genes were observed using immunoblot analyses. These data show that the prenatal supply of choline causes multiple modifications in the developmental patterns of expression of genes known to influence learning and memory and provide molecular correlates for the cognitive changes evoked by altered availability of choline in utero.
...
PMID:Prenatal choline availability modulates hippocampal and cerebral cortical gene expression. 1726 69
Kisspeptins, encoded by the Kiss1 gene, play a key role in the regulation of reproductive function, although very little is known about the ontogenesis of this system. The present study aimed to determine the period of arcuate nucleus (ARC) kisspeptin cell birth and the embryonic stage and neuroanatomical sites of onset of kisspeptin immunoreactivity. Bromodeoxyuridine (BrdU) was administered to female rats at various gestational stages and double immunohistochemistry against kisspeptin and BrdU was performed on brain sections from their offspring. The period of neurogenesis of ARC kisspeptin neurones begun between embryonic day (E) 12.5 and E13.5, reached its peak at E15.5 and was not completely over at E17.5. Kiss1 mRNA was detected in mediobasal hypothalamic punches of embryos aged E14.5,
E16
.5, E18.5 and E22.5 by real-time
reverse transcriptase
-polymerase chain reaction. Accordingly, kisspeptin-immunoreactive (-IR) cells were consistently detected in the embryonic ARC from E14.5 and their number increased until E18.5 to reach approximately half the level observed in adults. Between E18.5 and E22.5, the number of kisspeptin-IR cells and hypothalamic Kiss1 expression significantly decreased, regardless of sex, and this decrease persisted until birth. Taken together, these results demonstrate that rat ARC kisspeptin neurones are born locally during an extended embryonic period and are able to synthesise kisspeptins rapidly after their birth, consistent with the hypothesis of a role during embryonic activation of the hypothalamic-hypophyseal-gonadal axis. A sex-independent decrease of kisspeptin-IR cell numbers was observed during the perinatal period, suggestive of important regulations of kisspeptin neurones around birth.
...
PMID:Embryonic development of kisspeptin neurones in rat. 2253 Sep 35
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