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21.
Hepatic aldehyde dehydrogenase activity in Peromyscus genetically deficient in alcohol dehydrogenase
M E Lebsack M R Felder C S Lieber 《Comparative biochemistry and physiology. B, Comparative biochemistry》1982,72(4):517-519
1. Hepatic aldehyde dehydrogenase (ALDH) activity was measured in two strains of deer-mouse, Peromyscus maniculatus. 2. There is no difference in the subcellular distribution of ALDH activity in the two strains. Animals of AdhN/AdhN genotype, lacking liver alcohol dehydrogenase (ADH), had 90% of total ALDH activity in the mitochondrial fraction compared to 94% for the AdhF/AdhF animals with normal ADH activity. Almost all of the remaining ALDH activity was in the hepatic cytosol with less than 1% in the microsomal fraction. 3. By contrast, in mice (Mus musculus) 43% of total hepatic ALDH activity was found in the cytosolic fraction and 55% in the mitochondrial. 4. It was concluded that the subcellular distribution of hepatic ALDH activity in Peromyscus does not vary with the presence or absence of ADH and that this ALDH distribution is not similar to that reported for other rodents. 相似文献
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Segmental muscle fiber lesions after repetitive eccentric contractions 总被引:11,自引:0,他引:11
Immunohistochemical and electron-microscopic techniques were used to analyze the extensor digitorum longus muscles of New Zealand White rabbits 1 h, 1 day, 3, 7, and 28 days after repetitive eccentric contractions. Loss of the cytoskeletal protein desmin was the earliest manifestation of injury. Apart from 1 h post-exercise, all desmin-negative fibers stained positively with antibody to plasma fibronectin, indicating loss of cellular integrity accompanying cytoskeletal disruption. Fiber sizes were significantly increased from 1–7 days after exercise. The large (hyaline) fibers found in histological sections after repetitive eccentric contractions resulted from segmental hypercontraction of the fiber. This phenomenon occurred proximally and distally to plasma membrane lesions of the muscle fiber and necrosis and manifested itself as very short sarcomere lengths. Thus, in serial sections, staining characteristics, sizes and shapes of one and the same fiber often varied dramatically. We conclude that the following sequence of events occurs: cytoskeletal disruptions, loss of myofibrillar registry, i.e., Z-disk streaming and A-band disorganization, and loss of cell integrity as manifested by intracellular plasma fibronectin stain, hypercontracted regions, and invasion of cells. When a fiber is disrupted, the remaining intact fibers apparently take up the tension put on the muscle and later fewer fibers are subjected to eccentric contractions. 相似文献
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Samuel H. Light Sankar N. Krishna Raymond C. Bergan Arnon Lavie Wayne F. Anderson 《Journal of structural and functional genomics》2013,14(1):25-30
Dehydroquinate dehydratase (DHQD) catalyzes the third step in the biosynthetic shikimate pathway. Here we identify a Bifidobacterium longum protein with high sequence homology to type II DHQDs but no detectable DHQD activity under standard assay conditions. A crystal structure reveals that the B. longum protein adopts a DHQD-like tertiary structure but a distinct quaternary state. Apparently forming a dimer, the B. longum protein lacks the active site aspartic acid contributed from a neighboring protomer in the type II DHQD dodecamer. Relating to the absence of protein–protein interactions established in the type II DHQD dodecameric assembly, substantial conformational changes distinguish the would-be active site of the B. longum protein. As B. longum possess no other genes with homology to known DHQDs, these findings imply a unique DHQD activity within B. longum. 相似文献
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Effects of chronic ethanol treatment of mitochondrial functions damage to coupling site I 总被引:4,自引:0,他引:4
Chronic ethanol feeding to rats produces changes in hepatic mitochondria which persist in the absence of ethanol metabolism. The integrity of isolated mitochondria is well preserved, as evidenced by unchanged activities of latent, Mg2+- and dinitrophenol-stimulated ATPase activity, and unaltered permeability to NADH. With succinate or ascorbate as substrates, oxygen uptake by mitochondria from ethanol-fed rats was decreased compared to pair-fed controls. The decrease was comparable under state 4 or state 3 conditions, or in the presence of an uncoupler. However, with the NAD+-dependent substrates, ADP-stimulated oxygen consumption (state 3) was decreased to a greater extent than state 4 or uncoupler-stimulated oxygen consumption in mitochondria from ethanol-fed rats. This suggests that the decrease in energy-dependent oxygen consumption at site I may be superimposed upon damage to the respiratory chain. Using NAD+-dependent substrates (glutamate, α-ketoglutarate or β-hydroxybutyrate) the respiratory control ratio and the ratio of oxidative phosphorylation were significantly decreased in mitochondria isolated from the livers of rats fed ethanol. By contrast, when succinate or ascorbate served as the electron donor these functions were unchanged. The rate of phosphorylation is decreased 70% with the NAD+-dependent substrates because of a decreased flux of electrons, as well as a lower efficiency of oxidative phosphorylation. With succinate and ascorbate as substrates, the rate of phosphorylation is decreased 20–30%, owing to a decreased flux of electrons. These data suggest the possibility that, in addition to effects on the respiratory chain, energy-coupling site I may be damaged by ethanol feeding. Energy-dependent Ca2+ uptake, supported by either substrate oxidation or ATP hydrolysis, was inhibited by chronic ethanol feeding.Concentrations of acetaldehyde (1–3 mm) which inhibited phosphorylation associated with the oxidation of NAD+-dependent substrates had no effect on that of succinate or ascorbate. Many of the effects of chronic ethanol feeding on mitochondrial functions are similar to those produced by acetaldehyde in vitro. 相似文献
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Liu D Glaser AP Patibandla S Blum A Munson PJ McCoy JP Raghavachari N Cannon RO 《Cytotherapy》2011,13(2):227-236
Background aimsBone marrow (BM)-derived progenitor cells are under investigation for cardiovascular repair but may be altered by disease. Our aim was to identify differences in gene expression in CD133+ cells of patients with coronary artery disease (CAD) and healthy controls, and determine whether exercise modifies gene expression.MethodsCD133+ cells were flow-sorted from 10 CAD patients and four controls, and total RNA was isolated for microarray-based gene expression profiling. Genes that were found to be differentially regulated in patients were analyzed further to investigate whether exercise had any normalizing effect on CD133+ cells in CAD patients following 3 months of an exercise program.ResultsImprovement in effort tolerance and increases in the number of CD133+ cells were observed in CAD patients after 3 months of exercise. Gene expression analysis of the CD133+ cells identified 82 differentially expressed genes (2-fold cut-off, 25% false-discovery rate and % present calls) in patients compared with controls, of which 59 were found to be up-regulated and 23 down-regulated. These genes were found to be involved in carbohydrate metabolism, cell cycle, cellular development and signaling, and molecular transport. Following completion of the exercise program, gene expression patterns resembled those of controls in seven of 10 patients.ConclusionsAlterations in gene expression of BM-derived CD133+ progenitor cells were found in CAD patients, which in part may be normalized by exercise. 相似文献
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