Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0403608 (ureter)
 9,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Increase of the external K+ concentration depolarises the ureteral muscle membrane and induces, after a transient period of increased spontaneous activity, a tonic contraction. Tetraethylammonium, in concentrations normally required for ganglion blocking activity, does not influence the ureteral activity, but in higher doses it prolonges the duration of the action potential several times and increases the intraluminal pressure. Ouabain has only an inhibitory effect on the guinea pig ureter.
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PMID:The influence of potassium on the electrical and mechanical activity of the guinea pig ureter. 120 90

Transmural electrical potential difference (PD) of the newt ureter was measured with glass microelectrodes and its nature was studied pharmacologically or by ion replacement experiments. The PD in the presence of standard Ringer solution on both sides averaged -76.0 +/- 1.3 mV, lumen negative. The magnitude of the PD depended on the Na+ concentration of the luminal fluid; the PD increased in a saturable way with increase in the Na+ concentration. Amiloride added to the luminal fluid at 10(-4) M greatly reduced the PD and increased the transmural resistance. The half maximum inhibition was seen at 2.6 x 10(-6) M and the maximum inhibition at 10(-4) M where the PD reduced to 3.8% of control. Amiloride added to the external medium at 10(-4) M had no effect on both the PD and the resistance. Ouabain added to the external medium at 10(-3) M caused a gradual decrease in the PD, which fell to 36% of its initial value after 60 min. The specific transmural resistance (Rt) was estimated by recording spatially decaying electrotonic potentials along the ureter and applying cable analysis. The short-circuit current (Isc) was calculated from the PD and the Rt. The Rt and the Isc averaged 31.7 +/- 7.7 k omega X cm2 and 3.9 +/- 1.5 microA X cm-2, respectively. The results indicate that the epithelial cells of the newt ureter have amiloride-sensitive Na+ channels at the luminal membrane and are transporting Na+ actively, like epithelia of the urinary bladder and the skin of amphibia.
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PMID:The transmural potential of the newt ureter: evidence for amiloride-sensitive active sodium transport. 685 25

Since few studies have examined cold tolerance at the organ level in insects, our primary objective was to characterize the functional responses of the gut and Malpighian tubules (MT) to seasonal acclimatization, chilling and freezing in larvae of the goldenrod gall fly Eurosta solidaginis Fitch (Diptera, Tephritidae). From September to December, hemolymph osmolality (455-926 mOsmol kg l(-1)) and freezing tolerance increased markedly in field-collected larvae. Chlorophenol Red was readily transported into the lumen of the foregut, the posterior portion of the midgut, the ureter, the proximal region of the anterior pair of MT, and entire posterior pair of MT. Ouabain and KCN inhibited transport of Chlorophenol Red in the gut and MT. Transport was readily detected at 0 degrees C and the rate of transport was directly related to temperature. The rate of fluid transport by the MT decreased steadily from a monthly high in September (10.7+/-0.8 nl min(-1) for the anterior pair; 12.7+/-1.0 nl min(-1) for the posterior pair) until secretion was no longer detectable in December; this decrease parallels entry into diapause for this species. Even in larvae that died following freezing for 40 days at -20 degrees C, individual organ function was retained to a limited extent. Through the autumn, cholesterol concentrations in the hemolymph increased nearly fourfold. In contrast, the ratio of cholesterol to protein content (nmol mg l(-1)) in the MT membrane remained relatively constant (22 approximately 24 nmol mg l(-1) protein) during this period. Freezing of larvae for 20 days at -20 degrees C caused a significant decrease in cholesterol levels in the hemolymph and the MT membranes compared to unfrozen controls. These results suggest that cholesterol plays a role in seasonal cold hardening and freeze tolerance in insects.
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PMID:Changes in gut and Malpighian tubule transport during seasonal acclimatization and freezing in the gall fly Eurosta solidaginis. 1587 70