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11.
Monitoring calcium-induced conformational changes in recoverin by electrospray mass spectrometry. 总被引:1,自引:1,他引:0
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T. A. Neubert K. A. Walsh J. B. Hurley R. S. Johnson 《Protein science : a publication of the Protein Society》1997,6(4):843-850
Recoverin is a calcium-binding protein that regulates the vertebrate photoresponse by inhibiting rhodopsin kinase in response to high calcium concentrations. It is heterogeneously N-acylated by myristoyl and related fatty acyl residues that are thought to act as "calcium-myristoyl switches," whereby, in the presence of Ca2+, the N-terminal acyl group is extended away from recoverin and, in the absence of calcium, it is more closely associated with the protein. Here we use electrospray ionization mass spectrometry (ESI/MS) to examine hydrogen isotopic exchange rates for specific regions of both acylated and nonacylated recoverin in the presence and absence of calcium. The deuterium exchange rates of three regions in the hydrophobic myristoyl binding pocket of acylated recoverin decreased in the absence of calcium. This effect is most likely due to the closer association of the acyl group with the protein under these conditions. In contrast, rates of deuterium incorporation increased in the absence of calcium for other regions, including the two functional calcium-binding sites. In addition to supporting the calcium-myristoyl switch hypothesis, a comparison of the behavior of acylated and unacylated recoverin revealed that the N-acyl group (N-lauroyl or N-myristoyl) exerts a significant stabilizing influence on the dynamics of recoverin. We demonstrate that the new technique of monitoring hydrogen isotopic exchange by ESI/MS can be used to obtain useful information concerning protein structures in solution using smaller amounts of protein and under more physiologically relevant conditions than is typically possible with NMR or X-ray crystallography. 相似文献
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甾体激素受体超家族的基因调控机制 总被引:4,自引:0,他引:4
甾体激素受体超家族是一类基因反式作用因子,对RNA聚合酶Ⅱ转录的某些蛋白质基因和RNA聚合酶Ⅰ转录的核糖体RNA基因均有正或负的转录调节作用.超家族对RNA polⅡ转录的基因调控的机理包括受体激活,相关蛋白解离,磷酸化,同源/异源二聚化,核转位,与正/负激素应答元件及相应转录蛋白作用,最终激活或抑制特异靶基因的转录.甾体激素对RNA polⅠ转录的基因的调节作用以及超家族中的经典受体和孤儿受体非配合的激活机制是目前研究的热点. 相似文献
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The amide functional group is ubiquitous in nature and one of the most important motifs in pharmaceuticals, agrochemicals, and other valuable products. While coupling amides and carboxylic acids is a trivial synthetic transformation, it often requires protective group manipulation, along with stoichiometric quantities of expensive and deleterious coupling reagents. Nature has evolved a range of enzymes to construct amide bonds, the vast majority of which utilize adenosine triphosphate to activate the carboxylic acid substrate for amine coupling. Despite the fact that these enzymes operate under mild conditions, as well as possessing chemoselectivity and regioselectivity that obviates the need for protecting groups, their synthetic potential has been largely unexplored. In this review, we discuss recent research into the discovery, characterization, and development of amide bond forming enzymes, with an emphasis on stand-alone ligase enzymes that can generate amides directly from simple carboxylic acid and amine substrates. 相似文献
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Perry A. Frey Adrian D. Hegeman Frank J. Ruzicka 《Critical reviews in biochemistry and molecular biology》2013,48(1):63-88
ABSTRACTThe radical S-adenosylmethionine (SAM) superfamily currently comprises more than 2800 proteins with the amino acid sequence motif CxxxCxxC unaccompanied by a fourth conserved cysteine. The charcteristic three-cysteine motif nucleates a [4Fe–4S] cluster, which binds SAM as a ligand to the unique Fe not ligated to a cysteine residue. The members participate in more than 40 distinct biochemical transformations, and most members have not been biochemically characterized. A handful of the members of this superfamily have been purified and at least partially characterized. Significant mechanistic and structural information is available for lysine 2,3-aminomutase, pyruvate formate-lyase, coproporphyrinogen III oxidase, and MoaA required for molybdopterin biosynthesis. Biochemical information is available for spore photoproduct lyase, anaerobic ribonucleotide reductase activation subunit, lipoyl synthase, and MiaB involved in methylthiolation of isopentenyladenine-37 in tRNA. The radical SAM enzymes biochemically characterized to date have in common the cleavage of the [4Fe–4S]1 + –SAM complex to [4Fe–4S]2 +–Met and the 5′ -deoxyadenosyl radical, which abstracts a hydrogen atom from the substrate to initiate a radical mechanism. 相似文献
16.
David W. Greening Eugene A. Kapp Hong Ji Terry P. Speed Richard J. Simpson 《Biochimica et Biophysica Acta - Proteins and Proteomics》2013,1834(11):2396-2407
The secretopeptidome comprises endogenous peptides derived from proteins secreted into the tumour microenvironment through classical and non-classical secretion. This study characterised the low-Mr (< 3 kDa) component of the human colon tumour (LIM1215, LIM1863) secretopeptidome, as a first step towards gaining insights into extracellular proteolytic cleavage events in the tumour microenvironment. Based on two biological replicates, this secretopeptidome isolation strategy utilised differential centrifugal ultrafiltration in combination with analytical RP-HPLC and nanoLC-MS/MS. Secreted peptides were identified using a combination of Mascot and post-processing analyses including MSPro re-scoring, extended feature sets and Percolator, resulting in 474 protein identifications from 1228 peptides (≤ 1% q-value, ≤ 5% PEP) — a 36% increase in peptide identifications when compared with conventional Mascot (homology ionscore thresholding). In both colon tumour models, 122 identified peptides were derived from 41 cell surface protein ectodomains, 23 peptides (12 proteins) from regulated intramembrane proteolysis (RIP), and 12 peptides (9 proteins) generated from intracellular domain proteolysis. Further analyses using the protease/substrate database MEROPS, (http://merops.sanger.ac.uk/), revealed 335 (71%) proteins classified as originating from classical/non-classical secretion, or the cell membrane. Of these, peptides were identified from 42 substrates in MEROPS with defined protease cleavage sites, while peptides generated from a further 205 substrates were fragmented by hitherto unknown proteases. A salient finding was the identification of peptides from 88 classical/non-classical secreted substrates in MEROPS, implicated in tumour progression and angiogenesis (FGFBP1, PLXDC2), cell–cell recognition and signalling (DDR1, GPA33), and tumour invasiveness and metastasis (MACC1, SMAGP); the nature of the proteases responsible for these proteolytic events is unknown. To confirm reproducibility of peptide fragment abundance in this study, we report the identification of a specific cleaved peptide fragment in the secretopeptidome from the colon-specific GPA33 antigen in 4/14 human CRC models. This improved secretopeptidome isolation and characterisation strategy has extended our understanding of endogenous peptides generated through proteolysis of classical/non-classical secreted proteins, extracellular proteolytic processing of cell surface membrane proteins, and peptides generated through RIP. The novel peptide cleavage site information in this study provides a useful first step in detailing proteolytic cleavage associated with tumourigenesis and the extracellular environment. This article is part of a Special Issue entitled: An Updated Secretome. 相似文献
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Nadrian C. Seeman 《Journal of biomolecular structure & dynamics》2013,31(1):11-34
Abstract The simplest form of macromolecular design involves the ligation of nucleic acids. Recent results on the concatenation of nucleic acid junctions show that these molecules can act as fairly rigid macromolecular valence clusters on the nanometer scale. These clusters can be joined to form closed stick figures in which each edge is double helical DNA or RNA and each vertex is a nucleic acid junction. The geometrical criteria for forming discrete-closed and periodic structures from these components are established. The helicity of each edge limits the possible structures that can be formed. The formation of a periodic array from nucleic acid junction building blocks is compared with the crystallization of molecular systems. This comparison leads to a new interpretation of the nature of order in the solid state for molecular crystals. The suggestion is made that the structure of a solid molecular system described by the fewest unique orthogonal (Fourier) components is the one which will be entropically favored, since it contains the least information. This is the crystalline state, with a small number of molecules per asymmetric unit. The free energy from the proposed entropie driving force responsible for this behavior is available, in principle, to correct small deviations from ideality in forming covalent crystals from nucleic acid junction components, as well as in non-bonded molecular systems. Nucleic acid junction periodic arrays provide an appropriate vehicle with which to test this interpretation. 相似文献
19.
Gerrit J. Poelarends Hector Serrano Jamison P. Huddleston William H. Johnson Jr.Christian P. Whitman 《FEBS letters》2013
trans-3-Chloroacrylic acid dehalogenase (CaaD) catalyzes the hydrolytic dehalogenation of trans-3-haloacrylates to yield malonate semialdehyde by a mechanism utilizing βPro-1, αArg-8, αArg-11, and αGlu-52. These residues are implicated in a promiscuous hydratase activity where 2-oxo-3-pentynoate is processed to acetopyruvate. The roles of three nearby residues (βAsn-39, αPhe-39, and αPhe-50) are unexplored. Mutants were constructed at these positions (βN39A, αF39A, αF39T, αF50A and αF50Y) and kinetic parameters determined along with those of the αR8K and αR11K mutants. Analysis indicates that αArg-8, αArg-11, and βAsn-39 are critical for dehalogenase activity whereas αArg-11 and αPhe-50 are critical for hydratase activity. Docking studies suggest structural bases for these observations. 相似文献
20.