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71.
Multiple conformations of the sea anemone polypeptide anthopleurin-A in solution. 总被引:2,自引:2,他引:0 下载免费PDF全文
M. J. Scanlon R. S. Norton 《Protein science : a publication of the Protein Society》1994,3(7):1121-1124
Anthopleurin-A (AP-A) is a member of a family of sea anemone-derived polypeptides that interact with sodium channels in a voltage-dependent manner, producing a positive inotropic effect on the mammalian heart. There has been considerable interest in this molecule as a lead compound for the development of novel therapeutic agents. Earlier attempts to define the 3-dimensional structure of AP-A were complicated by the fact that it was found to exist in 2 conformations in solution. Using 1H- and 13C-NMR spectroscopy, we have now shown that this conformational heterogeneity arises from cis-trans isomerization about the Gly 40-Pro 41 peptide bond and that in the major form of the protein this peptide bond adopts a cis conformation. Furthermore, the increased sensitivity afforded by higher-field NMR has allowed identification of additional minor conformations of AP-A, the origin of which is presently unknown. We believe there will be many more examples of the detection by high-field NMR of previously unobserved minor conformations of proteins in solution. 相似文献
72.
给家兔皮下注射不同结构的铂配合物溶液、对肝、肾组织的可溶性组分进行凝胶和离子交换层析分离,研究了它们诱导金属硫蛋白合成的性质,发现顺铂只选择性地诱导肝脏合成MT,反铂对肝,肾都不诱导,K2PtCl4同时可在肝和肾脏中诱导MT的合成。并通过用Zn(NO3)2预先诱导肝和肾中合成MT,然后每日以2、4、4和8mgPt/kg的剂量连续皮下注射4天顺铂或反铂溶液后,在肝和肾中分离出大量的铂化硫蛋白,且用反 相似文献
73.
-Carboxy-cis,cis-muconate lactonizing enzyme and -carboxymuconolactone decarboxylase catalyze sequential reactions in the -ketoadipate pathway, the subunit sizes of the enzymes from Pseudomonas putida, biotype A, are 40000 and 13000, respectively. The cross reaction of antisera prepared against the enzymes was tested with the isofunctional enzymes formed by representatives of other bacterial species. Despite the differences in the subunit sizes of the enzymes, the antisera revealed the same general pattern: cross reaction was observed with the corresponding enzymes formed by other strains in the fluorescent Pseudomonas RNA homology group I and generally was not observed with enzymes from other Pseudomonas species or from other bacterial genera. Exceptions were provided by representatives of Pseudomonas cepacia. Members of this species are classified outside the fluorescent Pseudomonas RNA homology group. Nevertheless, the -carboxymuconolactone decarboxylases from these organisms formed precipitin bands with antisera prepared against the corresponding enzyme from P. putida, biotype A; the lactonizing enzymes from the two species did not appear to cross react. Immunodiffusion experiments with -carboxymuconolactone decarboxylase indicated that a common set of antigenic determinants for the enzyme is conserved among strains that have been classified together by other criteria; the relative immunological distances of the decarboxylases of each taxon from the reference P. putida, biotype A, enzyme were indicated by spurring patterns on Ouchterlony plates. These results suggested that the interspecific transfer of the structural gene for the enzyme is not a common event in Pseudomonas.Non-Standard Abbreviations CMLE
-carboxy-cis,cis-muconate lactonizing enzyme (EC 5.5.1.2)
- CMD
-carboxymuconolactone decarboxylase (EC 4.1.1.44)
- MLE
cis,cis-muconate lactonizing enzyme (EC 5.5.1.1)
- MI
muconolactone isomerase (EC 5.3.3.4)
Dedicated with affection and admiration to Professor R. Y. Stanier on his 60th birthday 相似文献
74.
75.
The WW module of the peptidyl-prolyl cis/trans isomerase Pin1 targets specifically phosphorylated proteins involved in the cell cycle through the recognition of phospho-Thr(Ser)-Pro motifs. When the microtubule-associated Tau protein becomes hyperphosphorylated, it equally becomes a substrate for Pin1, with two recognition sites described around the phosphorylated Thr212 and Thr231. The Pin1 WW domain binds both sites with moderate affinity, but only the Thr212-Pro213 bond is isomerized by the catalytic domain of Pin1. We show here that, in a peptide carrying a single recognition site, the WW module increases significantly the enzymatic isomerase activity of Pin1. However, with addition of a second recognition motif, the affinity of both the WW and catalytic domain for the substrate increases, but the isomerization efficacy decreases. We therefore conclude that the WW domain can act as a negative regulator of enzymatic activity when multiple phosphorylation is present, thereby suggesting a subtle mechanism of its functional regulation. 相似文献
76.
Solution NMR evidence for a cis Tyr-Ala peptide group in the structure of [Pro93Ala] bovine pancreatic ribonuclease A 下载免费PDF全文
Xiong Y Juminaga D Swapna GV Wedemeyer WJ Scheraga HA Montelione GT 《Protein science : a publication of the Protein Society》2000,9(2):421-426
Proline peptide group isomerization can result in kinetic barriers in protein folding. In particular, the cis proline peptide conformation at Tyr92-Pro93 of bovine pancreatic ribonuclease A (RNase A) has been proposed to be crucial for chain folding initiation. Mutation of this proline-93 to alanine results in an RNase A molecule, P93A, that exhibits unfolding/refolding kinetics consistent with a cis Tyr92-Ala93 peptide group conformation in the folded structure (Dodge RW, Scheraga HA, 1996, Biochemistry 35:1548-1559). Here, we describe the analysis of backbone proton resonance assignments for P93A together with nuclear Overhauser effect data that provide spectroscopic evidence for a type VI beta-bend conformation with a cis Tyr92-Ala93 peptide group in the folded structure. This is in contrast to the reported X-ray crystal structure of [Pro93Gly]-RNase A (Schultz LW, Hargraves SR, Klink TA, Raines RT, 1998, Protein Sci 7:1620-1625), in which Tyr92-Gly93 forms a type-II beta-bend with a trans peptide group conformation. While a glycine residue at position 93 accommodates a type-II bend (with a positive value of phi93), RNase A molecules with either proline or alanine residues at this position appear to require a cis peptide group with a type-VI beta-bend for proper folding. These results support the view that a cis Pro93 conformation is crucial for proper folding of wild-type RNase A. 相似文献
77.
Retinoic acid (RA) modulates differentiation and apoptosis of neural cells via RA receptors (RARs) and retinoid X receptors (RXRs). Neuroblastoma cells are potentially useful models for elucidating the molecular mechanisms of RA in neural cells, and responses to different isomers of RA have been interpreted in terms of differential homo- and heterodimerization of RXRs. The aim of this study was to identify the RXR types expressed in neuroblast and substrate-adherent neuroblastoma cells, and to study the participation of these RXRs in RAR heterodimers. RXRbeta was the predominant RXR type in N-type SH SY 5Y cells and S-type SH EP cells. Gel shift and supershift assays demonstrated that RARbeta and RARgamma predominantly heterodimerize with RXRbeta. In SH SY 5Y cells, RARgamma/RXRbeta was the predominant heterodimer binding to the DR5 RARE in the absence of 9-cis RA (9C), whereas the balance shifted in favor of RARbeta/RXRbeta in the presence of ligand. There was a marked difference between the N- and S-type neuroblastoma cells in retinoid receptor-DNA interactions, and this may underlie the differential effects of retinoids in these neuroblastoma cell types. There was no evidence to indicate that 9C functions via RXR homodimers in either SH SY 5Y or SH EP neuroblastoma cells. The results of this study suggest that interactions between retinoid receptors and other nuclear proteins may be critical determinants of retinoid responses in neural cells. 相似文献
78.
Adenosine triphosphate (ATP) plays an essential role in energy transfer within the cell. In the form of NAD, adenine participates in multiple redox reactions. Phosphorylation and ATP-hydrolysis reactions have key roles in signal transduction and regulation of many proteins, especially enzymes. In each cell, proteins with many different functions use adenine and its derivatives as ligands; adenine, of course, is present in DNA and RNA. We show that an adenine binding motif, which differs according to the backbone chain direction of a loop that binds adenine (and in one variant by the participation of an aspartate side-chain), is common to many proteins; it was found from an analysis of all adenylate-containing protein structures from the Protein Data Bank. Indeed, 224 protein-ligand complexes (86 different proteins) from a total of 645 protein structure files bind ATP, CoA, NAD, NADP, FAD, or other adenine-containing ligands, and use the same structural elements to recognize adenine, regardless of whether the ligand is a coenzyme, cofactor, substrate, or an allosteric effector. The common adenine-binding motif shown in this study is simple to construct. It uses only (1) backbone polar interactions that are not dependent on the protein sequence or particular properties of amino acid side-chains, and (2) nonspecific hydrophobic interactions. This is probably why so many different proteins with different functions use this motif to bind an adenylate-containing ligand. The adenylate-binding motif reported is present in "ancient proteins" common to all living organisms, suggesting that adenine-containing ligands and the common motif for binding them were exploited very early in evolution. The geometry of adenine binding by this motif mimics almost exactly the geometry of adenine base-pairing seen in DNA and RNA. 相似文献
79.
Culex mosquitoes have emerged as important model organisms for mosquito biology, and are disease vectors for multiple mosquito-borne pathogens, including West Nile virus. We characterized epoxide hydrolase activities in the mosquito Culex quinquefasciatus, which suggested multiple forms of epoxide hydrolases were present. We found EH activities on epoxy eicosatrienoic acids (EETs). EETs and other eicosanoids are well-established lipid signaling molecules in vertebrates. We showed EETs can be synthesized in vitro from arachidonic acids by mosquito lysate, and EETs were also detected in vivo both in larvae and adult mosquitoes by LC-MS/MS. The EH activities on EETs can be induced by blood feeding, and the highest activity was observed in the midgut of female mosquitoes. The enzyme activities on EETs can be inhibited by urea-based inhibitors designed for mammalian soluble epoxide hydrolases (sEH). The sEH inhibitors have been shown to play diverse biological roles in mammalian systems, and they can be useful tools to study the function of EETs in mosquitoes. Besides juvenile hormone metabolism and detoxification, insect epoxide hydrolases may also play a role in regulating lipid signaling molecules, such as EETs and other epoxy fatty acids, synthesized in vivo or obtained from blood feeding by female mosquitoes. 相似文献
80.
Megan I. Brasher Liliana Surmacz Bryan Leong Jocelyn Pitcher Ewa Swiezewska Eran Pichersky Tariq A. Akhtar 《The Plant journal : for cell and molecular biology》2015,82(6):903-914
Dolichol plays an indispensable role in the N‐glycosylation of eukaryotic proteins. As proteins enter the secretory pathway they are decorated by a ‘glycan’, which is preassembled onto a membrane‐anchored dolichol molecule embedded within the endoplasmic reticulum (ER). Genetic and biochemical evidence in yeast and animals indicate that a cis‐prenyltransferase (CPT) is required for dolichol synthesis, but also point to other factor(s) that could be involved. In this study, RNAi‐mediated suppression of one member of the tomato CPT family (SlCPT3) resulted in a ~60% decrease in dolichol content. We further show that the involvement of SlCPT3 in dolichol biosynthesis requires the participation of a distantly related partner protein, designated as CPT‐binding protein (SlCPTBP), which is a close homolog of the human Nogo‐B receptor. Yeast two‐hybrid and co‐immunoprecipitation assays demonstrate that SlCPT3 and its partner protein interact in vivo and that both SlCPT3 and SlCPTBP are required to complement the growth defects and dolichol deficiency of the yeast dolichol mutant, rer2?. Co‐expression of SlCPT3 and SlCPTBP in yeast and in E. coli confirmed that dolichol synthase activity strictly requires both proteins. Finally, organelle isolation and in vivo localization of fluorescent protein fusions showed that both SlCPT3 and SlCPTBP localize to the ER, the site of dolichol accumulation and synthesis in eukaryotes. 相似文献