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931.
932.
Ribulose-1,5-bisphosphate carboxylase catalyzes the conversion of D ribulose 1,5-bisphosphate and CO2 to 3-phospho-D-glycerate, with retention of the oxygen atoms at both C-2 and C-3 of the substrate. This observation is consistent with mechanistic pathways involving an enediol intermediate and eliminates suggested mechanisms that involve covalent intermediates between the enzyme and ribulose 1,5-bisphosphate in which the substrate oxygen at C-2 or C-3 is compulsorily lost. 相似文献
933.
The nucleoside monophosphate kinases, adenylate kinase (AK), guanylate kinase (GUK), and uridine monophosphate kinase (UMPK), were studied electrophoretically and quantitatively in density gradient fractions of human red cells from normal adults which contain red cells of differing mean age. The enzymes were found to differ both in their rates and patterns of decay and in secondary isozyme formation during the life of the red cell in the circulation. AK showed no appreciable enzyme decay and slight genetation of secondary isozymes; UMPK showed a rapid monophasic decline and no secondary isozyme formation; GUK showed intermediate overall loss of activity with a biphasic pattern of decay and marked secondary isozyme formation. A comparative study of the two common phenotypes of UMPK (UMPK 1 and UMPK 2-1) and of AK (AK 1 and AK 2-1) was made. The UMPK 2 isozyme showed a more rapid decay than the UMPK 1 isozyme, whereas no difference was observed between the AK 1 and AK 2 isozymes. 相似文献
934.
ACTION OF THE NEUROTOXIN KAINIC ACID ON HIGH AFFINITY UPTAKE OF l-GLUTAMIC ACID IN RAT BRAIN SLICES 总被引:19,自引:13,他引:6
Kainic acid is a linear competitive inhibitor (Kis 250 μm ) of the ‘high affinity’ uptake of l -glutamic acid into rat brain slices. Kainic acid inhibits the ‘high affinity’ uptake of l -glutamic, d -aspartic and l -aspartic acids to a similar extent. Kainic acid is not actively taken up into rat brain slices and is thus not a substrate for the ‘high affinity’ acidic amino acid transport system or any other transport system in rat brain slices. Kainic acid (300 μm ) does not influence the steady-state release or potassium-stimulated release of preloaded d -aspartic acid from rat brain slices. Kainic acid binds to rat brain membranes in the absence of sodium ions in a manner indicating binding to a population of receptor sites for l -glutamic acid. Only quisqualic and l -glutamic acid inhibit kainic acid binding in a potent manner. The affinity of kainic acid for these receptor sites appears to be some 4 orders of magnitude higher than for the ‘high affinity’l -glutamic acid transport carrier. Dihydrokainic acid is approximately twice as potent as kainic acid as an inhibitor of ‘high affinity’l -glutamic acid uptake but is some 500 times less potent as an inhibitor of kainic acid binding and at least 1000 times less potent as a convulsant of immature rats on intraperitoneal injection. Dihydrokainic acid might be useful as a ‘control uptake inhibitor’ for the effects of kainic acid on ‘high affinity’l -glutamic acid uptake since it appears to have little action on excitatory receptors. N-Methyl-d -aspartic acid is a potent convulsant of immature rats, but does not inhibit kainic acid binding or ‘high affinity’l -glutamic acid uptake. N-Methyl-d -aspartic acid might be useful as a ‘control excitant’ that activates different excitatory receptors to kainic acid and does not influence ‘high affinity’l -glutamic acid uptake. 相似文献
935.
Elizabeth H. Harris John E. Boynton Nicholas W. Gillham Constance L. Tingle Sue B. Fox 《Molecular & general genetics : MGG》1977,155(3):249-265
Summary Chloroplast gene mutations which confer antibiotic resistance on chloroplast ribosomes of the green alga Chlamydomonas reinhardtii have been tested for allelism and mapped by recombination analysis of progeny from biparental zygote clones. Thirty-one independently isolated streptomycin resistant mutants have chloroplast ribosomes which are resistant to this drug in an assay based on misreading of isoleucine in response to a poly U template, and comprise one nuclear and four chloroplast gene loci. Four mutants resistant to spectinomycin, and three mutants resistant to neamine and kanamycin, which have chloroplast ribosomes resistant to their respective antibiotics in poly U directed phenylalanine incorporation, appear to map in a single chloroplast gene locus. Representative alleles of this nr/spr locus, the four streptomycin resistance loci, and two chloroplast gene loci for erythromycin resistance, have been analyzed in a series of parallel crosses to establish the following map order for these seven genes in the chloroplast genome: er-u-la-er-u-37-nr-u-2-1/spr-u-1-H-4-sr-u-2-23-sr-u-2-60-sr-u-sm3-sr-u-sm2. These seven genes may constitute a ribosomal region within the chloroplast genome of Chlamydomonas comparable to the ribosomal gene clusters in bacteria. 相似文献
936.
Kinetochores mediate chromosome attachment to the mitotic spindle to ensure accurate chromosome segregation. Budding yeast is an excellent organism for kinetochore assembly studies because it has a simple defined centromere sequence responsible for the localization of >65 proteins. In addition, yeast is the only organism where a conditional centromere is available to allow studies of de novo kinetochore assembly. Using a conditional centromere, we found that yeast kinetochore assembly is not temporally restricted and can occur in both G1 phase and prometaphase. We performed the first investigation of kinetochore assembly in the absence of the centromeric histone H3 variant Cse4 and found that all proteins tested depend on Cse4 to localize. Consistent with this observation, Cse4-depleted cells had severe chromosome segregation defects. We therefore propose that yeast kinetochore assembly requires both centromeric DNA specificity and centromeric chromatin. 相似文献
937.
Terblanche JS Tolley KA Fahlman A Myburgh KH Jackson S 《Comparative biochemistry and physiology. Part A, Molecular & integrative physiology》2005,140(3):349-362
The acute Hypoxic Ventilatory Response (HVR) is an important component of human hypoxia tolerance, hence presumably physiological adaptation to high altitude. We measured the isocapnic HVR (L min(-1) %(-1)) in two genetically divergent low altitude southern African populations. The HVR does not differ between African Xhosas (X) and Caucasians (C) (X:-0.34+/-0.36; C:-0.42+/-0.33; P > 0.34), but breathing patterns do. Among all Xhosa subjects, size-independent tidal volume was smaller (X: 0.75+/-0.20; C: 1.11+/-0.32 L; P < 0.01), breathing frequency higher (X: 22.2+/-5.7; C: 14.3+/-4.2 breaths min(-1); P < 0.01) and hypoxic oxygen saturation lower than among Caucasians (X: 78.4+/-4.7%; C: 81.7+/-4.7%; P < 0.05). The results remained significant if subjects from Xhosa and Caucasian groups were matched for gender, body mass index and menstrual cycle phase in the case of females. The latter also employed distinct breathing patterns between populations in normoxia. High repeatability (intra-class correlation coefficient) of the HVR in both populations (0.77-0.87) demonstrates that one of the prerequisites for natural selection, consistent between-individual variation, is met. Finally, we explore possible relationships between inter-population genetic distances and HVR differences among Xhosa, European, Aymara Amerindians, Tibetan and Chinese populations. Inter-population differences in the HVR are not attributable to genetic distance (Mantel Z-test, P = 0.59). The results of this study add novel support for the hypothesis that differences in the HVR, should they be found between other human populations, may reflect adaptation to hypoxia rather than genetic divergence through time. 相似文献
938.
The observation that purified yeast glutamine synthetase is rapidly inactivated in a thiol-containing buffer yet retains activity in crude extracts containing the same thiol led to our discovery of an enzyme that protects against oxidation in a thiol-containing system. This novel antioxidant enzyme was shown to reduce hydroperoxides and, more recently, peroxynitrite with the use of electrons provided by a physiological thiol like thioredoxin. It defined a family of proteins, present in organisms from all kingdoms, that was named peroxiredoxin (Prx). All Prx enzymes contain a conserved Cys residue that undergoes a cycle of peroxide-dependent oxidation and thiol-dependent reduction during catalysis. Mammalian cells express six isoforms of Prx (Prx I to VI), which are classified into three subgroups (2-Cys, atypical 2-Cys, and 1-Cys) based on the number and position of Cys residues that participate in catalysis. The relative abundance of Prx enzymes in mammalian cells appears to protect cellular components by removing the low levels of peroxides produced as a result of normal cellular metabolism. During catalysis, the active site cysteine is occasionally overoxidized to cysteine sulfinic acid. Contrary to the general belief that oxidation to the sulfinic state is an irreversible process in cells, studies on the fate of the overoxidized Prx species revealed a mechanism by which the catalytically active thiol form is recovered. This sulfinic reduction is a slow, ATP-dependent process that is specific to 2-Cys Prx isoforms. This reversible overoxidation may represent an adaptation unique to eukaryotic cells that accommodates the intracellular messenger function of H2O2, but experimental validation of such speculation is yet to come. 相似文献
939.
Sun GY Xu J Jensen MD Yu S Wood WG González FA Simonyi A Sun AY Weisman GA 《Molecular neurobiology》2005,31(1-3):27-41
Astrocytes comprise the major cell type in the central nervous system (CNS) and they are essential for support of neuronal
functions by providing nutrients and regulating cell-to-cell communication. Astrocytes also are immune-like cells that become
reactive in response to neuronal injury. Phospholipases A2 (PLA
2) are a family of ubiquitous enzymes that degrade membrane phospholipids and produce lipid mediators for regulating cellular
functions. Three major classes of PLA
2 are expressed in astrocytes: group IV calcium-dependent cytosolic PLA
2 (cPLA2), group VI calcium-independent PLA
2 (iPLA2), and group II secretory PLA
2 (sPLA2). Upregulation of PLA
2 in reactive astrocytes has been shown to occur in a number of neurodegenerative diseases, including stroke and Alzheimer’s
disease. This review focuses on describing the effects of oxidative stress, inflammation, and activation of G protein-coupled
receptors on PLA
2 activation, arachidonic acid (AA) release, and production of prostanoids in astrocytes. 相似文献
940.
Musser RO Cipollini DF Hum-Musser SM Williams SA Brown JK Felton GW 《Archives of insect biochemistry and physiology》2005,58(2):128-137
The insect salivary enzyme glucose oxidase (GOX) can inhibit wound-inducible nicotine production in tobacco, Nicotiana tabacum. We examined whether salivary gland extracts of Helicoverpa zea lacking active GOX could still suppress nicotine in tobacco, Nicotiana tabacum, and whether GOX could suppress wound-inducible defenses of another Solanaceous plant, tomato Lycopersicon esculentum. Tobacco leaves were wounded with a cork borer and treated with water, salivary gland extracts with active GOX (SxG), or salivary gland extracts with inactive GOX (SxI). After three days, leaves treated with SxG had significantly less nicotine than all other wounded treatments. Neonates that fed on the terminal leaves of tobacco plants treated with SxG had significantly higher survival than neonates that fed on leaves treated with either SxI or water. This evidence supports the assertion that GOX is the salivary factor responsible for the suppression of tobacco plant nicotine production by H. zea saliva. Results for the NahG tobacco plants, which lack salicylic acid (SA) due to a transgene for bacterial SA hydroxylase, indicate that suppression of nicotine by GOX does not require SA. However, tobacco leaves that were wounded and treated with SxG had significantly higher levels of the SA-mediated PR-1a protein than leaves treated with SxI or water. Leaves of tomato plants wounded with scissors and then treated with SxG had trypsin inhibitor levels that were moderately lower than plants wounded and treated with purified GOX, water, or SxI. However, all the wounded tomato leaves irrespective of treatment resulted in lower caterpillar growth rates than the non-wounded tomato leaves. Glucose oxidase is the first insect salivary enzyme shown to suppress wound-inducible herbivore defenses of plants. 相似文献