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1.
Norma Lake 《Neurochemical research》1982,7(11):1385-1390
Taurine is the major free amino acid of the vertebrate retina. Treatment of rats with guanidinoethyl sulfonate (GES), a taurine analogue which competes with taurine for transport sites, leads to depletion of 60% of retinal taurine with little effect on other free amino acids. Supplementation of the diet with 0.3% taurine gives partial protection against depletion, confirming that taurine-GES competition underlies part of the effects. The magnitude of the depletion suggests the importance of taurine transport across the blood-retinal barrier for the maintenance of retinal taurine levels. 相似文献
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The composition of the phospholipid-bound fatty acids in the spermatozoa of the turkey, Meleagris gallopavo, and fowl, Gallus domesticus, was studied. The types of fatty acids were similar in the two birds. The ratio of polyunsaturated : saturated fatty acids was generally low but slightly higher in the turkey than in the fowl. The significance of the findings in relation to the origin of the semen collected in these gallinaceous birds and the greater difficulty of freezing turkey spermatozoa was discussed. 相似文献
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A Ts cell subset has been identified in the spleens of responder mice 3 to 6 wk after immunization with an optimally immunogenic dose of L-glutamic acid60-L-alanine30-L-tyrosine10 (GAT). These Ts were positively selected by panning procedures by using a mAb (1248 A4.10) produced by immunization of rats with semipurified mouse GAT-specific, single polypeptide chain suppressor factor. These Ts cells inhibited the activity of virgin Th cells but not memory Th cells and this activity was genetically restricted by genes which are linked to the Ig H chain (Igh) locus on chromosome 12. Use of the Igh recombination strain, BAB.14, which has a crossover near the VHCH region junction, demonstrated that the genes regulating the Igh restriction map telomeric to the VH genes. The Igh-linked restriction regulated the interaction of A4.10+ Ts cells with virgin T cells and not B cells. However, A4.10+ Ts did not act directly on Lyt-2-Th cells, but required the presence of Lyt-2+ cells for suppression. Suppression by GAT-primed A4.10+-Ts cells also required syngenicity at Igh-linked genes by both Lyt-2- and Lyt-2+ T cells. These results indicated that A4.10+-Ts cells were inducer Ts cells which activated Lyt-2+ effector Ts cells which prevented primary GAT specific Th cell activity. The interaction between A4.10+-Ts inducer and effector Ts cells and/or the interaction of the effector Ts and its target cell were restricted by genes linked to the Igh constant region. 相似文献
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Amiloride and amiloride analogs inhibit Na+/K+-transporting ATPase and Na+-coupled alanine transport in rat hepatocytes 总被引:2,自引:0,他引:2
Amiloride, a commonly used inhibitor of Na+-H+ exchange, has been shown to exhibit a variety of nonspecific effects. Recently, the more potent amiloride analogs, 5-(N,N-dimethyl)amiloride hydrochloride (DMA) and 5-(N-ethyl-N-isopropyl)amiloride (EIA), have been used to control for the nonspecific effects of the parent compound. In the present study, we have explored the effects of these analogs on Na+/K+-transporting ATPase (Na+/K+-ATPase) and Na+-coupled alanine transport in primary rat hepatocyte cultures and rat liver plasma membranes, and we have compared the effects of these analogs with the effects of amiloride and ouabain. Amiloride, DMA, and EIA increased steady-state Na+ content and inhibited ouabain-sensitive 86Rb+ uptake in a reversible, concentration-dependent, ouabain-like manner, with estimated 50% inhibitory concentrations (IC50) of 3.0.10(-3) M, 5.2.10(-4) M, and 1.2.10(-4) M, respectively. Amiloride, DMA and EIA also inhibited ouabain-sensitive ATP hydrolysis in rat liver plasma membranes with similar potency (IC50 values of 2.2.10(-3) M, 2.2.10(-3) M, and 1.7.10(-4) M, respectively). In separate experiments, amiloride (5.10(-3) M), DMA (10(-3) M), and EIA (2.5.10(-4) M) decreased the uptake into hepatocytes of alanine by 20%, 61%, and 59%, respectively, and further studies with DMA (10(-3) M) demonstrated that this inhibition was largely due to a decrease in the Na+-dependent fraction of alanine uptake. These findings indicate that amiloride, DMA, and EIA inhibit hepatic Na+/K+-ATPase directly, reversibly, and with a relative rank order potency of EIA greater than DMA greater than amiloride. All three compounds also inhibit the hepatic uptake of alanine, and presumably could indirectly inhibit other Na+-coupled transport processes as well. 相似文献
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Elongation factor Tu localized on the exterior surface of the small ribosomal subunit 总被引:6,自引:0,他引:6
Protein synthesis elongation factor Tu has been mapped on the surface of the ribosome by immunoelectron microscopy. The EF-Tu binding site is located near the concave portion of the small subunit at the level of the neck and extends 60 to 70 A above and below the neck. The binding site is present on the side of the subunit opposite the platform, i.e. on the exterior subunit surface. This EF-Tu site differs from that found for elongation factor G in that the EF-Tu site is significantly more exposed to the cytoplasm. 相似文献
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Elongation factor Tu ternary complex binds to small ribosomal subunits in a functionally active state 总被引:2,自引:0,他引:2
A complex between elongation factor Tu (EF-Tu), GTP, phenylalanyl-tRNA (Phe-tRNA), oligo(uridylic acid) [oligo(U)], and the 30S ribosomal subunit of Escherichia coli has been formed and isolated. Binding of the EF-Tu complex appears to be at the functionally active 30S site, by all biochemical criteria that were examined. The complex can be isolated with 0.25-0.5 copy of EF-Tu bound per ribosome. The binding is dependent upon the presence of both the aminoacyl-tRNA and the cognate messenger RNA. Addition of 50S subunits to the preformed 30S-EF-Tu-GTP-Phe-tRNA-oligo(U) complex ("30S-EF-Tu complex") causes a rapid hydrolysis of GTP. This hydrolysis is coordinated with the formation of 70S ribosomes and the release of EF-Tu. Both the release of EF-Tu and the hydrolysis of GTP are stoichiometric with the amount of added 50S subunits. 70S ribosomes, in contrast to 50S subunits, neither release EF-Tu nor rapidly hydrolyze GTP when added to the 30S-EF-Tu complexes. The inability of 70S ribosomes to react with the 30S-EF-Tu complex argues that the 30S-EF-Tu complex does not dissociate prior to reaction with the 50S subunit. The requirements of the 30S reaction for Phe-tRNA and oligo(U) and the consequences of the addition of 50S subunits resemble the reaction of EF-Tu with 70S ribosomes, although EF-Tu binding to isolated 30S subunits does not occur during the elongation microcycle. This suggests that the EF-Tu ternary complex binds to isolated 30S subunits at the same 30S site that is occupied during ternary complex interaction with the 70S ribosome.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献