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101.
Kleifeld O Rulísek L Bogin O Frenkel A Havlas Z Burstein Y Sagi I 《Biochemistry》2004,43(22):7151-7161
Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) is a zinc-dependent NADP(+)/H-linked class enzyme that reversibly catalyzes the oxidation of secondary alcohols to their corresponding ketones. Cobalt substitution studies of other members of the alcohol dehydrogenase (ADH) family showed that the cobalt-containing ADHs have a similar active site structure but slightly decreased activity compared to wild-type zinc ADHs. In contrast, the cobalt-substituted TbADH (Co-TbADH) exhibits an increase in specific activity compared to the native enzyme [Bogin, O., Peretz, M., and Burstein, Y. (1997) Protein Sci. 6, 450-458]. However, the structural basis underlying this behavior is not yet clear. To shed more light on this issue, we studied the local structure and electronics at the catalytic metal site in Co-TbADH by combining X-ray absorption (XAS) and quantum chemical calculations. Importantly, we show that the first metal-ligand coordination shell of Co-TbADH is distorted compared to its native tetrahedral coordination shell and forms an octahedral structure. This is mediated presumably by the addition of two water molecules and results in more positively charged catalytic metal ions. Recently, we have shown that the metal-ligand coordination number of the zinc ion in TbADH changes dynamically during substrate turnover. These structural changes are associated with a higher coordination number of the native catalytic zinc ion and the consequent buildup of a positive charge. Here we propose that the accumulation of a higher coordination number and positive charge at the catalytic metal ion in TbADH stabilizes the structure of the catalytic transition state and hence lowers the barrier for enzyme catalysis. 相似文献
102.
Threshold concentrations of lysophosphatidic acid (LPA) or acetylcholine (ACh) induce pertussis toxin (PTX)-sensitive rapid desensitization of responses to LPA in Xenopus oocytes. To demonstrate that threshold [LPA] rapidly activates Gi/o proteins, we used the G protein-activated K+ channel (GIRK) as a reporter. Low [LPA] induced IK+ in <3 s of the agonist addition with little or no activation of chloride current. Depletion of Galphao/Galphao1 each decreased the LPA-induced IK+ by approximately 40-50%, while PTX completely abolished it. This is the first direct evidence showing the activation of GIRK by LPA, and the involvement of G proteins of the Go family in rapid desensitization of LPA responses. 相似文献
103.
FRS2alpha and FRS2beta, two members of the FRS2 family of docking proteins, become tyrosine phosphorylated in response to fibroblast growth factor (FGF) or nerve growth factor (NGF) stimulation. Tyrosine phosphorylated FRS2alpha serves as a platform for the recruitment of multiple signaling proteins for activation of the Ras-mitogen-activated protein (MAP) kinase signaling cascade. We report that Frs2alpha and Frs2beta have distinct spatio-temporal expression patterns in mouse embryos. We further show that FRS2beta can compensate for the loss of FRS2alpha for activation of MAP kinase when expressed in fibroblasts from Frs2alpha(-/-) mouse embryos. We propose that the FRS2 family proteins have distinct roles in vivo through activation of common signaling proteins including MAP kinase. 相似文献
104.
Yavin E Stemp ED Weiner L Sagi I Arad-Yellin R Shanzer A 《Journal of inorganic biochemistry》2004,98(11):1750-1756
Irradiation of plasmid DNA in the presence of Ru(II)-2, a modified tris(2,2'-bipyridyl)Ru(II) complex, in which two hydroxamic acid groups are attached to one of the three bipyridyl ligands, results in total fragmentation of the DNA. The photo-chemical reaction products were analyzed by gel electrophoresis, which revealed complete fragmentation. Further evidence for the complete degradation of the DNA was obtained by imaging the pre- and post-treated plasmid DNA using atomic force microscopy (AFM). A mechanism for the reaction is proposed. It initially involves the photo-chemical generation of Ru(III) ions and superoxide radicals, as corroborated by absorbance difference spectroscopy and electron paramagnetic resonance (EPR). Consequently, Ru(III) preferentially oxidizes guanine, liberating superoxide radicals that yield OH radicals. The OH radicals were identified by observing the spectral change at 532 nm of a 5'-dAdG substrate forming a colored adduct with thiobarbituric acid. These radicals are associated with the major non-specific damage exerted to DNA. 相似文献
105.
Karram T Abbasi A Keidar S Golomb E Hochberg I Winaver J Hoffman A Abassi Z 《American journal of physiology. Heart and circulatory physiology》2005,289(4):H1351-H1358
Angiotensin-converting enzyme (ACE)-2 is a newly described enzyme with antagonistic effects to those of the classical ACE (ACE-1). Both ANG II and aldosterone play an important role in the pathophysiology of congestive heart failure (CHF) and in the adverse cardiac remodeling during its development. In this study, we examined the effects of experimental CHF induced by an aortocaval fistula (ACF) and of its treatment with ANG II and aldosterone inhibitors on the relative levels of ACE-1 and ACE-2. We also compared the effects of spironolactone, an aldosterone antagonist, and eprosartan, an ANG II receptor antagonist, on heart hypertrophy and fibrosis in rats with ACF. Spironolactone (15 mg x kg(-1) x day(-1) ip, via minipump) or eprosartan (5 mg x kg(-1) x day(-1) ip, via minipump) was administered into rats with ACF for 14 and 28 days. Specific antibodies were used to determine the protein levels of myocardial ACE-1 and ACE-2. ACF increased the cardiac levels of ACE-1 and decreased those of ACE-2. Heart-to-body weight ratio significantly increased from 0.30 +/- 0.004% in sham-operated controls to 0.50 +/- 0.018% and 0.56 +/- 0.044% (P < 0.001) in rats with ACF, 2 and 4 wk after surgery, respectively, in association with increased plasma levels of aldosterone. The area occupied by collagen increased from 2.33 +/- 0.27% to 6.85 +/- 0.65% and 8.03 +/- 0.93% (P < 0.01), 2 and 4 wk after ACF, respectively. Both spironolactone and eprosartan decreased cardiac mass and collagen content and reversed the shift in ACE isoforms. ACF alters the ratio between ACE isoforms in a manner that increases local ANG II and aldosterone levels. Early treatment with both ANG II and aldosterone antagonists is effective in reducing this effect. Thus ACE isoform shift may represent an important component of the development of cardiac remodeling in response to hemodynamic overload, and its correction may contribute to the beneficial therapeutic effects of renin-angiotensin-aldosterone system inhibitors. 相似文献
106.
Irit Gazit Allen Goldblatt Joseph Terkel 《Ethology : formerly Zeitschrift fur Tierpsychologie》2005,111(7):669-680
The term ‘search image’ refers to an animal's heightened ability to detect a specific cryptic prey, after experience with that prey. Formulated in 1960 by Tinbergen (Archives Neerlandaises de zoologie, vol. 13, pp. 265–343), the search image concept has been the subject of much research, albeit almost entirely based on visual search cues in birds of prey. Given the theoretical and practical importance of this concept for foraging or searching in general, we set out to investigate whether dogs could form olfactory search images for explosive odours. Seven experienced explosives detector dogs were first tested for their ability to detect 30 g of the explosives 2,4,6‐trinitrotoluene (TNT), RDX + polyisobutylene + di(2‐ethylhexyl)sebacate + fuel oil (C4) or pentaerythritol tetranitrate (PETN) placed in various containers randomly distributed along a 300‐m limestone track. In consecutive stages of the experiment, we altered the relative percentages of the three explosives. The results showed that the percentage of TNT containers detected by the dogs increased in trials that followed placing of a high percentage of TNT relative to other explosives and decreased in trials that follwed placing of a relatively low percentage of TNT containers. The percentage detection of C4 and PETN was not influenced by their relative abundance at any stage. Overall, these results suggest that dogs can form an olfactory search image that might aid in prey/target detection. 相似文献
107.
Hanifa J. Abu-Toamih Atamni Maya Botzman Richard Mott Irit Gat-Viks Fuad A. Iraqi 《Mammalian genome》2016,27(11-12):565-573
Non-alcoholic fatty liver disease (NAFLD) is the most common cause of chronic liver disease in the western world, with spectrum from simple steatosis to non-alcoholic steatohepatitis, which can progress to cirrhosis. NAFLD developments are known to be affected by host genetic background. Herein we emphasize the power of collaborative cross (CC) mouse for dissecting this complex trait and revealing quantitative trait loci (QTL) controlling hepatic fat accumulation in mice. 168 female and 338 male mice from 24 and 37 CC lines, respectively, of 18–20 weeks old, maintained on standard rodent diet, since weaning. Hepatic fat content was assessed, using dual DEXA scan in the liver. Using the available high-density genotype markers of the CC line, QTL mapping associated with percentage liver fat accumulation was performed. Our results revealed significant fatty liver accumulation QTL that were specifically, mapped in females. Two significant QTLs on chromosomes 17 and 18, with genomic intervals 3 and 2 Mb, respectively, were mapped. A third QTL, with a less significant P value, was mapped to chromosome 4, with genomic interval of 2 Mb. These QTLs were named Flal1–Flal3, referring to Fatty Liver Accumulation Locus 1–3, for the QTLs on chromosomes 17, 18, and 4, respectively. Unfortunately, no QTL was mapped with males. Searching the mouse genome database suggested several candidate genes involved in hepatic fat accumulation. Our results show that susceptibility to hepatic fat accumulations is a complex trait, controlled by multiple genetic factors in female mice, but not in male. 相似文献
108.
Adriana Botero Irit Kapeller Crystal Cooper Peta L. Clode Joseph Shlomai R.C Andrew Thompson 《International journal for parasitology》2018,48(9-10):691-700
Kinetoplast DNA (kDNA) is the mitochondrial genome of trypanosomatids. It consists of a few dozen maxicircles and several thousand minicircles, all catenated topologically to form a two-dimensional DNA network. Minicircles are heterogeneous in size and sequence among species. They present one or several conserved regions that contain three highly conserved sequence blocks. CSB-1 (10?bp sequence) and CSB-2 (8?bp sequence) present lower interspecies homology, while CSB-3 (12?bp sequence) or the Universal Minicircle Sequence is conserved within most trypanosomatids. The Universal Minicircle Sequence is located at the replication origin of the minicircles, and is the binding site for the UMS binding protein, a protein involved in trypanosomatid survival and virulence. Here, we describe the structure and organisation of the kDNA of Trypanosoma copemani, a parasite that has been shown to infect mammalian cells and has been associated with the drastic decline of the endangered Australian marsupial, the woylie (Bettongia penicillata). Deep genomic sequencing showed that T. copemani presents two classes of minicircles that share sequence identity and organisation in the conserved sequence blocks with those of Trypanosoma cruzi and Trypanosoma lewisi. A 19,257?bp partial region of the maxicircle of T. copemani that contained the entire coding region was obtained. Comparative analysis of the T. copemani entire maxicircle coding region with the coding regions of T. cruzi and T. lewisi showed they share 71.05% and 71.28% identity, respectively. The shared features in the maxicircle/minicircle organisation and sequence between T. copemani and T. cruzi/T. lewisi suggest similarities in their process of kDNA replication, and are of significance in understanding the evolution of Australian trypanosomes. 相似文献
109.
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