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排序方式: 共有454条查询结果,搜索用时 15 毫秒
61.
62.
Huber D Rajagopalan N Preissler S Rocco MA Merz F Kramer G Bukau B 《Molecular cell》2011,41(3):343-353
In Escherichia coli, translocation of exported proteins across the cytoplasmic membrane is dependent on the motor protein SecA and typically begins only after synthesis of the substrate has already been completed (i.e., posttranslationally). Thus, it has generally been assumed that the translocation machinery also recognizes its protein substrates posttranslationally. Here we report a specific interaction between SecA and the ribosome at a site near the polypeptide exit channel. This interaction is mediated by conserved motifs in SecA and ribosomal protein L23, and partial disruption of this interaction in?vivo by introducing mutations into the genes encoding SecA or L23 affects the efficiency of translocation by the posttranslational pathway. Based on these findings, we propose that SecA could interact with its nascent substrates during translation in order to efficiently channel them into the "posttranslational" translocation pathway. 相似文献
63.
Mechanisms of inactivation of molybdoenzymes by cyanide 总被引:1,自引:0,他引:1
The reduced forms of xanthine oxidase, xanthine dehydrogenase, aldehyde oxidase, and sulfite oxidase are inactivated by cyanide. Following gel filtration to remove excess of reductant and cyanide, the isolated enzymes remain inactive. Thiocyanate, a product of inactivation of the oxidized forms of the xanthine- and aldehyde-oxidizing enzymes by cyanide, is not released during inactivation of the reduced enzymes. Studies with [14C]cyanide show that, while stoichiometric binding is required for the onset of inactivation, its continued binding is not essential to maintenance of the inactivated state. Electron paramagnetic resonance and absorption spectroscopic studies on the isolated inactivated enzymes show that prosthetic groups other than molybdenum are fully oxidized but that the molybdenum centers are modified. Reactivation is accomplished by incubation with suitable oxidants. Aerobic reactivation of inactive sulfite oxidase required only 1 eq of ferricyanide/active site. However, under rigorously anaerobic conditions, 3 to 4 mol of ferricyanide/active site were reduced, indicating that the molybdenum centers in the inactive enzyme had been reduced below the levels attained by the native enzyme during catalysis. 相似文献
64.
BACKGROUND: The molybdenum cofactor (Moco) is an essential component of a large family of enzymes involved in important transformations in carbon, nitrogen and sulfur metabolism. The Moco biosynthetic pathway is evolutionarily conserved and found in archaea, eubacteria and eukaryotes. In humans, genetic deficiencies of enzymes involved in this pathway trigger an autosomal recessive and usually deadly disease with severe neurological symptoms. The MoaC protein, together with the MoaA protein, is involved in the first step of Moco biosynthesis. RESULTS: MoaC from Escherichia coli has been expressed and purified to homogeneity and its crystal structure determined at 2 A resolution. The enzyme is organized into a tightly packed hexamer with 32 symmetry. The monomer consists of an antiparallel, four-stranded beta sheet packed against two long alpha helices, and its fold belongs to the ferredoxin-like family. Analysis of structural and biochemical data strongly suggests that the active site is located at the interface of two monomers in a pocket that contains several strictly conserved residues. CONCLUSIONS: Asp128 in the putative active site appears to be important for catalysis as its replacement with alanine almost completely abolishes protein activity. The structure of the Asp128-->Ala variant reveals substantial conformational changes in an adjacent loop. In the human MoaC ortholog, substitution of Thr182 with proline causes Moco deficiency, and the corresponding substitution in MoaC severely compromises activity. This residue is located near the N-terminal end of helix alpha4 at an interface between two monomers. The MoaC structure provides a framework for the analysis of additional dysfunctional mutations in the corresponding human gene. 相似文献
65.
Daniel S. Kim Ian B. Stanaway Ramakrishnan Rajagopalan Judy C. Bernbaum Cynthia B. Solot Nancy Burnham Elaine H. Zackai Robert R. Clancy Susan C. Nicolson Marsha Gerdes Deborah A. Nickerson Hakon Hakonarson J. William Gaynor Gail P. Jarvik 《PloS one》2012,7(9)
Background
Adverse neurodevelopmental sequelae are reported among children who undergo early cardiac surgery to repair congenital heart defects (CHD). APOE genotype has previously been determined to contribute to the prediction of these outcomes. Understanding further genetic causes for the development of poor neurobehavioral outcomes should enhance patient risk stratification and improve both prevention and treatment strategies.Methods
We performed a prospective observational study of children who underwent cardiac surgery before six months of age; this included a neurodevelopmental evaluation between their fourth and fifth birthdays. Attention and behavioral skills were assessed through parental report utilizing the Attention Deficit-Hyperactivity Disorder-IV scale preschool edition (ADHD-IV), and Child Behavior Checklist (CBCL/1.5-5), respectively. Of the seven investigated, three neurodevelopmental phenotypes met genomic quality control criteria. Linear regression was performed to determine the effect of genome-wide genetic variation on these three neurodevelopmental measures in 316 subjects.Results
This genome-wide association study identified single nucleotide polymorphisms (SNPs) associated with three neurobehavioral phenotypes in the postoperative children ADHD-IV Impulsivity/Hyperactivity, CBCL/1.5-5 PDPs, and CBCL/1.5-5 Total Problems. The most predictive SNPs for each phenotype were: a LGALS8 intronic SNP, rs4659682, associated with ADHD-IV Impulsivity (P = 1.03×10−6); a PCSK5 intronic SNP, rs2261722, associated with CBCL/1.5-5 PDPs (P = 1.11×10−6); and an intergenic SNP, rs11617488, 50 kb from FGF9, associated with CBCL/1.5-5 Total Problems (P = 3.47×10−7). 10 SNPs (3 for ADHD-IV Impulsivity, 5 for CBCL/1.5-5 PDPs, and 2 for CBCL/1.5-5 Total Problems) had p<10−5.Conclusions
No SNPs met genome-wide significance for our three neurobehavioral phenotypes; however, 10 SNPs reached a threshold for suggestive significance (p<10−5). Given the unique nature of this cohort, larger studies and/or replication are not possible. Studies to further investigate the mechanisms through which these newly identified genes may influence neurodevelopment dysfunction are warranted. 相似文献66.
Poreddy AR Neumann WL Freskos JN Rajagopalan R Asmelash B Gaston KR Fitch RM Galen KP Shieh JJ Dorshow RB 《Bioorganic & medicinal chemistry》2012,20(8):2490-2497
Novel pyrazine carboxamides bearing hydrophilic poly(ethylene glycol) (PEG) moieties were designed, synthesized, and evaluated for use as fluorescent glomerular filtration rate (GFR) tracer agents. Among these, compounds 4d and 5c that contain about 48 ethylene oxide units in the PEG chain exhibited the most favorable physicochemical and renal clearance properties. In vitro studies show that these two compounds have low plasma protein binding, a necessary condition for renal excretion. In vivo animal model results show that 4d and 5c have a higher urine recovery of the injected dose than iothalamate (a commonly considered gold standard GFR agent). Pharmacokinetic studies show that these two compounds exhibit a plasma clearance equivalent to iothalamate, but with a faster (i.e. lower) terminal half-life than iothalamate (possibly from restricted distribution into the extracellular space due to large molecular size and hydrodynamic volume). Furthermore, the plasma clearance of 4d and 5c remained unchanged upon blockage of the tubular secretion pathway with probenecid, a necessary condition for establishment of clearance via glomerular filtration exclusively. Finally, noninvasive real-time monitoring of this class of compounds was demonstrated by pharmacokinetic clearance of 5c by optical measurements in rat model, which correlates strongly with plasma concentration of the tracer. Hence, 4d and 5c are promising candidates for translation to the clinic as exogenous fluorescent tracer agents in real-time point-of-care monitoring of GFR. 相似文献
67.
Yang Qiu Dilip Rajagopalan Susan C. Connor Doris Damian Lei Zhu Amir Handzel Guanghui Hu Arshad Amanullah Steve Bao Nathaniel Woody David MacLean Kwan Lee Dana Vanderwall Terence Ryan 《Metabolomics : Official journal of the Metabolomic Society》2008,4(4):337-346
Recent advances in genomics, metabolomics and proteomics have made it possible to interrogate disease pathophysiology and
drug response on a systems level. The analysis and interpretation of the complex data obtained using these techniques is potentially
fertile but equally challenging. We conducted a small clinical trial to explore the application of metabolomics data in candidate
biomarker discovery. Specifically, serum and urine samples from patients with type 2 diabetes mellitus (T2DM) were profiled
on metabolomics platforms before and after 8 weeks of treatment with one of three commonly used oral antidiabetic agents,
the sulfonyurea glyburide, the biguanide metformin, or the thiazolidinedione rosiglitazone. Multivariate classification techniques
were used to detect serum or urine analytes, obtained at baseline (pre-treatment) that could predict a significant treatment
response after 8 weeks. Using this approach, we identified three analytes, measured at baseline, that were associated with
response to a thiazolidinedione after 8 weeks of treatment. Although larger and longer-term studies are required to validate
any of the candidate biomarkers, pharmacometabolomic profiling, in combination with multivariate classification, is worthy
of further exploration as an adjunct to clinical decision making regarding treatment selection and for patient stratification
within clinical trials.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
68.
Sfondouris J Rajagopalan L Pereira FA Brownell WE 《The Journal of biological chemistry》2008,283(33):22473-22481
The lateral membrane of the cochlear outer hair cell (OHC) is the site of a membrane-based motor that powers OHC electromotility, enabling amplification and fine-tuning of auditory signals. The OHC membrane protein prestin plays a central role in this process. We have previously shown that membrane cholesterol modulates the peak voltage of prestin-associated nonlinear capacitance in vivo and in vitro. The present study explores the effects of membrane cholesterol and docosahexaenoic acid content on the peak and magnitude of prestin-associated charge movement in a human embryonic kidney (HEK 293) cell model. Increasing membrane cholesterol results in a hyperpolarizing shift in the peak voltage of the nonlinear capacitance (Vpkc) and a decrease in the total charge movement. Both measures depend linearly on membrane cholesterol concentration. Incubation of cholesterol-loaded cells in cholesterol-free media partially restores the Vpkc toward normal values but does not have a compensatory effect on the total charge movement. Decreasing membrane cholesterol results in a depolarizing shift in Vpkc that is restored toward normal values upon incubation in cholesterol-free media. However, cholesterol depletion does not alter the magnitude of charge movement. In contrast, increasing membrane docosahexaenoic acid results in a hyperpolarizing shift in Vpkc that is accompanied by an increase in total charge movement. Our results quantify the relation between membrane cholesterol concentration and prestin-associated charge movement and enhance our understanding of how membrane composition modulates prestin function. 相似文献
69.
Morrell JL Tomlin GC Rajagopalan S Venkatram S Feoktistova AS Tasto JJ Mehta S Jennings JL Link A Balasubramanian MK Gould KL 《Current biology : CB》2004,14(7):579-584
The Schizosaccharomyces pombe septation initiation network (SIN) triggers actomyosin ring constriction, septation, and cell division. It is organized at the spindle pole body (SPB) by the scaffold proteins Sid4p and Cdc11p. Here, we dissect the contributions of Sid4p and Cdc11p in anchoring SIN components and SIN regulators to the SPB. We find that Sid4p interacts with the SIN activator, Plo1p, in addition to Cdc11p and Dma1p. While the C terminus of Cdc11p is involved in binding Sid4p, its N-terminal half is involved in a wide variety of direct protein-protein interactions, including those with Spg1p, Sid2p, Cdc16p, and Cdk1p-Cdc13p. Given that the localizations of the remaining SIN components depend on Spg1p or Cdc16p, these data allow us to build a comprehensive model of SIN component organization at the SPB. FRAP experiments indicate that Sid4p and Cdc11p are stable SPB components, whereas signaling components of the SIN are dynamically associated with these structures. Our results suggest that the Sid4p-Cdc11p complex organizes a signaling hub on the SPB and that this hub coordinates cell and nuclear division. 相似文献
70.