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51.
To study their role in the structure and function of bacteriorhodopsin, three prolines, presumed to be in the membrane-embedded alpha-helices, have been individually replaced as follows: Pro-50 and Pro-91 each by Gly and Ala and Pro-186 by Ala, Gly, and Val. The mutants of Pro-50 and Pro-91 all showed normal chromophore and proton pumping. However, the rates of regeneration of the chromophore in Pro-50----Ala, Pro-91----Ala and ----Gly with all-trans-retinal were about 30-fold slower than that in the wild-type, whereas the chromophore regeneration rate in Pro-50----Gly was 10-fold faster than in the wild-type. While, Pro-186----Ala regenerated the wild-type chromophore, the mutants Pro-186----Val and Pro-186----Gly showed large blue shifts (about 80 nm) in the chromophore regenerated with all-trans-retinal and showed no apparent dark-light adaptation. Pro-186----Gly first regenerated the wild-type chromophore with 13-cis-retinal which was thermally unstable and rapidly converted to the blue-shifted chromophore obtained with all-trans-retinal. High salt concentration restored the wild-type purple chromophore in the Pro-186----Gly mutant. Thus, in this mutant, the protein interconverts between two conformational states. Pro-186----Ala and Pro-186----Gly showed about 65%, whereas Pro-186----Val showed 10-20% of the normal proton pumping. 相似文献
52.
Function of plastid mRNA 3' inverted repeats. RNA stabilization and gene-specific protein binding 总被引:33,自引:0,他引:33
Plastid protein coding regions in plants are generally flanked by 3' inverted repeat (IR) sequences. In a previous work (Stern, D. B., and Gruissem, W. (1987) Cell 51, 1145-1157), we have shown that their role may be in RNA stabilization and as a processing signal that establishes the mature mRNA 3' end. In this report we have investigated the stability and protein interaction of chloroplast mRNA 3' IR-RNA sequences in more detail. Progressive deletions into the 3' IR-RNA sequences for the chloroplast cytochrome b6/f subunit IV (petD) mRNA reduce the stability of the RNA, indicating that the potential to form a stem/loop is a minimum requirement for petD 3' IR-RNA stability in vitro. Specific point mutants also destabilize the processed 3' IR-RNA, suggesting an important role for the primary sequence. Gel mobility shift and UV-cross-linking analysis has shown that 3' IR-RNAs of petD and two other chloroplast mRNAs (rbcL and psbA) interact with proteins in vitro. Comparison of the bound petD 3' IR-RNA proteins with proteins that bind to rbcL and psbA reveals that binding of certain proteins is gene-specific. Also, precursor and processed petD 3' IR-RNAs bind different sets of proteins. A single nucleotide transversion (T----A) near the base of the stem eliminates the binding of a 29-kDa protein to the petD 3' IR-RNA precursor. We discuss the possible role of 3' IR-RNA-protein interactions in plastid mRNA 3' end maturation and differential mRNA stability. 相似文献
53.
Central administration of 2-deoxy-D-glucose (2-DG) decreases brown fat thermogenesis. This effect is suggested to be mediated via a central control mechanism. Our study was designed to determine the importance of the sympathetic nervous system in the response of brown fat to intraperitoneal (i.p.) injection of 2-DG. Unilateral denervation of interscapular brown adipose tissue (IBAT) was performed on male Sprague-Dawley rats (300 g body weight). Nine days after surgery, rats were injected i.p. with either saline vehicle (0.9% sodium chloride) or 2-DG (360 mg/kg wt) and then killed one hour later. Sympathetic denervation resulted in 50% decreases in total IBAT protein and in mitochondrial protein recovered. In the denervated lobes, mitochondrial GDP binding (expressed as nmol/mg mitochondrial protein and as total activity recovered) was decreased to 36% and 18%, respectively. Injection of 2-DG did not change mitochondrial protein content in either the innervated or denervated IBAT. In the innervated lobes, 2-DG significantly lowered GDP binding to 55% of that in saline-treated animals, whether expressed per mg mitochondrial protein or as total recovered activity. In contrast, 2-DG did not further decrease GDP binding in the denervated lobes. In conclusion, the effects of i.p. injection of 2-DG on brown fat thermogenesis (as evidenced by GDP binding) appear to be primarily mediated via the sympathetic nervous system. 相似文献
54.
Mutation of the Axonal Transport Motor Kinesin Enhances Paralytic and Suppresses Shaker in Drosophila 总被引:1,自引:0,他引:1
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To investigate the possibility that kinesin transports vesicles bearing proteins essential for ion channel activity, the effects of kinesin (Khc) and ion channel mutations were compared in Drosophila using established tests. Our results show that Khc mutations produce defects and genetic interactions characteristic of paralytic (para) and maleless (mle) mutations that cause reduced expression or function of the alpha-subunit of voltage-gated sodium channels. Like para and mle mutations, Khc mutations cause temperature-sensitive (TS) paralysis. When combined with para or mle mutations, Khc mutations cause synthetic lethality and a synergistic enhancement of TS-paralysis. Furthermore, Khc mutations suppress Shaker and ether-a-go-go mutations that disrupt potassium channel activity. In light of previous physiological tests that show that Khc mutations inhibit compound action potential propagation in segmental nerves, these data indicate that kinesin activity is required for normal inward sodium currents during neuronal action potentials. Tests for phenotypic similarities and genetic interactions between kinesin and sodium/potassium ATPase mutations suggest that impaired kinesin function does not affect the driving force on sodium ions. We hypothesize that a loss of kinesin function inhibits the anterograde axonal transport of vesicles bearing sodium channels. 相似文献
55.
Mutations in the Drosophila Pushover Gene Confer Increased Neuronal Excitability and Spontaneous Synaptic Vesicle Fusion 总被引:3,自引:1,他引:2
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We describe the identification of a gene called pushover (push), which affects both behavior and synaptic transmission at the neuromuscular junction. Adults carrying either of two mutations in push exhibit sluggishness, uncoordination, a defective escape response, and male sterility. Larvae defective in push exhibit increased release of transmitter at the neuromuscular junction. In particular, the frequency of spontaneous transmitter release and the amount of transmitter release evoked by nerve stimulation are each increased two- to threefold in push mutants at the lowest external [Ca(2+)] tested (0.15 mM). Furthermore, these mutants are more sensitive than wild type to application of the potassium channel-blocking drug quinidine: following qunidine application, push mutants, but not wild-type, display repetitive firing of the motor axon, leading to repetitive muscle postsynaptic potentials. The push gene thus might affect both neuronal excitability and the transmitter release process. Complementation tests and recombinational mapping suggest that the push mutations are allelic to a previously identified P-element-induced mutation, which also causes behavioral abnormalities and male sterility. 相似文献
56.
Adi Beth Din Charles A. Specht Phillips W. Robbins Oded Yarden 《Molecular & general genetics : MGG》1996,250(2):214-222
InSaccharomyces cerevisiae, most of the cellular chitin is produced by chitin synthase III, which requires the product encoded by theCSD2/CAL1/DIT101/KT12 gene. We have identified, isolated and structurally characterized aCSD2/CAL1/DIT101/KT12 homologue in the filamentous ascomyceteNeurospora crassa and have used a reverse genetics approach to determine its role in vivo. The yeast gene was used as a heterologous probe for the isolation of aN. crassa gene (designatedchs-4) encoding a polypeptide belonging to a class of chitin synthases which we have designated class IV. The predicted polypeptide encoded by this gene is highly similar to those ofS. cerevisiae andCandida albicans. N. crassa strains in whichchs-4 had been inactivated by the Repeat-Induced Point mutation (RIP) process grew and developed in a normal manner under standard growth conditions. However, when grown in the presence of sorbose (a carbon source which induces morphological changes accompanied by elevated chitin content), chitin levels in thechs-4
RIP
strain were significantly lower than those observed in the wild type. We suggest that CHS4 may serve as an auxiliary enzyme inN. crassa and that, in contrast to yeasts, it is possible that filamentous fungi may have more than one class IV chitin synthase.A. Beth Din and C. A. Specht contributed equally to this work 相似文献
57.
M D Stern 《Biophysical journal》1996,70(5):2100-2109
The calcium-induced calcium release channel of the cardiac sarcoplasmic reticulum has been reported to inactivate in a novel manner (termed "adaptation"), which permits reactivation by exposure to successively higher concentrations of calcium. I examined the limitations placed by thermodynamics on the possible kinetic mechanisms for such behavior. The mechanism suggested by Gyorke and Fill, in which the affinity of a calcium-binding site decreases during adaptation, is not thermodynamically feasible for a passive system, but requires an external input of free energy. Possible sources of such energy are 1) metabolic energy, which is excluded by the fact that adaptation was observed in isolated channels in the absence of ATP, or 2) coupling of ion permeation to gating, for which there is currently no evidence. I derived a general limit on the thermodynamic feasibility of a sequence of channel activations and adaptations, irrespective of channel kinetics, from the requirement that the free energy must decrease during the spontaneous evolution of the system from the state existing immediately after a step increase in [Ca2+] to the state of maximum open probability that follows. The opening of the channel must involve an increase in free energy, which must be compensated by the free energy released by the incremental binding of calcium. This requirement leads to a complicated system of inequalities, which was simplified and manipulated algebraically into the form of a linear programming problem. Numerical solution of this problem showed that the sequence of adaptations of the SR channel observed by Gyorke and Fill requires the presence of at least 10 calcium-binding sites on the channel if it is to occur in the absence of exogenous sources of free energy. This indicates either that a large number of calcium-binding sites participate in the regulation of the SR calcium release channel, or that the existing data are significantly flawed with respect to the low open probability in the resting state, the importance of "calcium spike" artifacts from flash photolysis, or both. 相似文献
58.
59.
Marc Yudkoff Yevgeny Daikhin Zhi-Ping Lin Liana Nissim Janet Stern David Pleasure Itzhak Nissim 《Journal of neurochemistry》1994,62(3):1192-1202
Abstract: The aim was to study the extent to which leu-cine furnishes α-NH2 groups for glutamate synthesis via branched-chain amino acid aminotransferase. The transfer of N from leucine to glutamate was determined by incubating astrocytes in a medium containing [15N]leucine and 15 unlabeled amino acids; isotopic abundance was measured with gas chromatography-mass spectrometry. The ratio of labeling in both [15N]glutamate/[15N]leucine and [2-15N]glutamine/[15N]leucine suggested that at least one-fifth of all glutamate N had been derived from leucine nitrogen. At the same time, enrichment in [15N]leucine declined, reflecting dilution of the 16N label by the unlabeled amino acids that were in the medium. Isotopic abundance in [16N]-isoleucine increased very quickly, suggesting the rapidity of transamination between these amino acids. The appearance of 15N in valine was more gradual. Measurement of branched-chain amino acid transaminase showed that the reaction from leucine to glutamate was approximately six times more active than from glutamate to leucine (8.72 vs. 1.46 nmol/min/mg of protein). However, when the medium was supplemented with α-ketoisocaproate (1 mM), the ketoacid of leucine, the reaction readily ran in the “reverse” direction and intraastrocytic [glutamate] was reduced by ~50% in only 5 min. Extracellular concentrations of α-ketoisocaproate as low as 0.05 mM significantly lowered intracellular [glutamate]. The relative efficiency of branched-chain amino acid transamination was studied by incubating astrocytes with 15 unlabeled amino acids (0.1 mM each) and [15N]glutamate. After 45 min, the most highly labeled amino acid was [15N]alanine, which was closely followed by [15N]leucine and [15N]isoleucine. Relatively little 15N was detected in any other amino acids, except for [15N]serine. The transamination of leucine was ~17 times greater than the rate of [1-14C]leucine oxidation. These data indicate that leucine is a major source of glutamate nitrogen. Conversely, reamination of a-ketoisocaproate, the ketoacid of leucine, affords a mechanism for the temporary “buffering” of intracellular glutamate. 相似文献
60.