Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0344329 (collapse)
28,634 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Receptor binding and biological activity properties of human interleukin-1 beta can be dissociated by mutating a single amino acid, arginine 127, to glycine (IL-1 beta R----G) [Gehrke et al. (1990) J. Biol. Chem. 265, 5922-5925]. The mechanism underlying the reduced biological activity has been examined by replacing arginine 127 with several other amino acids, followed by determination of biological activity using a T-helper cell proliferation assay. Mutant IL-1 beta proteins containing lysine, glutamic acid, tryptophan, or alanine in place of arginine 127 maintain biological activity. These data strongly suggest that IL-1 beta biological activity is not directly dependent upon the specific properties of charge, hydrophobicity/hydrophilicity, or side-chain group presented by the residue at position 127. Molecular modeling analyses indicate that the structural integrity of the antiparallel beta-strand 1/12 pair is disturbed in the glycine 127 mutant protein. Collapse of beta-strand 1 into a hydrated space between strands 1, 2, and 4 could structurally alter a cleft in IL-1 beta that contains a cluster of highly conserved amino acids, including a key aspartic acid residue [Ju et al. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 2658-2662]. Mutagenesis data and the differential activities of the IL-1 beta R----G and IL-1 receptor antagonist proteins in stimulating early and late gene expression [Conca et al. (1991) J. Biol. Chem. 266, 16265-16268] suggest that multiple receptor-ligand contacts, exclusive of those required for receptor binding, are required for the stimulation of full IL-1 biological activity.
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PMID:Multiple amino acid substitutions suggest a structural basis for the separation of biological activity and receptor binding in a mutant interleukin-1 beta protein. 138 53

The equilibrium unfolding transitions for the human M form of alpha 1-antitrypsin have been determined using a number of techniques reflecting changes in tryptophan fluorescence lifetime and quenching, exposure of tryptophan to solvent, secondary structure and the Stokes' radius of the protein. The denaturation curves are more complex than is usual for globular proteins and indicate the presence of multiple equilibrium intermediates in the presence of denaturant. This is in marked contrast to the more co-operative transition of the cleaved inhibitor. In addition, a recombinant non-glycosylated alpha 1-antitrypsin has been shown to have a closely similar conformation to the human M protein and to exhibit very similar reversible unfolding transitions, and hence similar stability and co-operativity. Differences in tryptophan environment are reflected in the dequenching of tryptophan fluorescence and reduced asymmetry in the near ultraviolet circular dichroism of the non-glycosylated protein, suggesting direct interaction of glycosyl residues with a tryptophan. Both the M type and the recombinant protein exhibit similar patterns of folding, with rapid collapse to a compact intermediate reminiscent of the widely observed molten globule state that folds more slowly to the native protein. The papain-cleaved M form also folds through a similar compact state in the absence of the C-terminal peptide that results from cleavage. It is concluded that part of the C-terminal 36 residue peptide interacts strongly with the main body of the protein in the folded inhibitor. This interaction will also be important during early stages of folding of the intact protein to direct the folding pathway. The lack of glycosylation leads to an increase in aggregation of the recombinant protein upon refolding, especially after extended denaturation times. The more rapid turnover of the recombinant protein in vivo is shown not to be due to a lower thermodynamic stability, but may be associated with a lower kinetic stability arising from the increased tendency to aggregation.
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PMID:Effects of glycosylation on the folding and stability of human, recombinant and cleaved alpha 1-antitrypsin. 154 2

SP-B is a protein in pulmonary surfactant that is, in greatest part, responsible for resistance to surface tension and prevention of collapse of pulmonary alveoli. Peptides of 21 residues, synthesized following the sequence of SP-B or resembling the hydrophobic and hydrophilic domains of SP-B (such as RLLLLRLLLLRLLLLRLLLLR, R, Arg, and L, Leu), enhanced the abilities of phospholipids to reduce surface tension both in vitro and in vivo. Intermittent positively charged residues were essential for this activity. The SP-B-like peptides were found by tryptophan fluorescence to partition within the phospholipid layer in contact with both polar head groups and acyl side chains. These data, together with findings that the SP-B-related peptides increase inter- and intramolecular order of the phospholipid layer, suggest that SP-B resists surface tension by increasing lateral stability of the phospholipid layer.
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PMID:Pulmonary surfactant protein B (SP-B): structure-function relationships. 194 32

The conformations of human, equine, and porcine pituitary prolactins, as evidenced by various optical properties, have been compared. The alpha-helix contents of all three proteins are essentially identical to each other (60 +/- 5%), as well as to prolactins isolated from other mammalian species. Direct absorption (zero and second-order), difference absorption, fluorescence emission, and circular dichroism spectra suggest that the majority of tyrosine and tryptophan side chains in these three proteins exist in very similar microenvironments within the folded forms of the hormones. Thus, the general conformational properties of these molecules are closely related to each other, and to other mammalian prolactins. Molar extinction and absorptivity values have been obtained at the absorption maximum of each species. In addition, a second molar extinction value has been determined at a particular wavelength found to be different for each, and which appears to be independent of the conformational state of the molecule. These absorptivities are useful in providing accurate prolactin concentrations in the 10(0) to 10(-2) mg/ml range. On incubation with the proteolytic enzyme thermolysin, all three hormones display an initial, short lag period during which little conformational change can be detected by difference absorption spectroscopy. For human and porcine prolactins, subsequent rates of proteolytically induced conformational collapse were found to be essentially identical. However, under similar conditions, equine prolactin loses its conformation significantly more slowly.
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PMID:Studies on prolactin: conformational comparison of human, equine, and porcine pituitary prolactins. 666 32

Two models are commonly used to describe the poorly understood earliest steps of protein folding. The framework model stresses very early formation of nascent secondary structures, which coalesce into a compact, molten, globule-like form from which tertiary structure slowly develops. The hydrophobic collapse model gives overriding precedence to a nonspecific collapse of the polypeptide chain which facilitates subsequent formation of specific secondary and tertiary structure. Here we report our analysis of the earliest observable events of the major folding pathway of barstar, a small protein. We compare the kinetics of folding using circular dichroism at 222 nm and 270 nm, intrinsic tryptophan fluorescence, fluorescence of the hydrophobic dye 8-anilino-1-naphthalene-sulphonic acid on binding, and restoration of tryptophan-dansyl fluorescence energy transfer as structure-monitoring probes. We show that the polypeptide chain rapidly collapses (within 4 ms) to a compact globule with a solvent-accessible hydrophobic core, but with no optically active secondary or tertiary structure. Thus the earliest event of the major folding pathway of barstar is a nonspecific hydrophobic collapse that does not involve concomitant secondary structure formation.
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PMID:Initial hydrophobic collapse in the folding of barstar. 747 69

Modifications in the exposure to the solvent of hydrophobic residues, changes in their organization into surface hydrophobic patches, and alterations in the dimerization equilibrium of beta-lactoglobulin upon thermal treatment at neutral pH were studied. Exposure of tryptophan residues was temperature dependent and was essentially completed on the time scale of seconds. Reorganization of generic hydrophobic protein patches on the protein surface was monitored through binding of 1,8-anilinonaphthalenesulfonate, and was much slower than changes in tryptophan exposure. Different phases in surface hydrophobicity changes were related to the swelling and the subsequent collapse of the protein, which formed a metastable swollen intermediate. Heat treatment of beta-lactoglobulin also resulted in the formation of soluble oligomeric aggregates. The aggregation process was studied as a function of temperature, demonstrating that (i) dimer dissociation was a necessary step in a sequential polymerization mechanism and (ii) cohesion of hydrophobic patches was the major driving force for aggregation.
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PMID:Reversible and irreversible modifications of beta-lactoglobulin upon exposure to heat. 794 98

SP-B is the protein in pulmonary surfactant with the greatest capacity to augment the phospholipids, ability to resist surface tension, and capability to prevent collapse of pulmonary alveoli. Synthetic peptides derived from the structure of SP-B and simplified analogues of these SP-B-derived peptides were found by tryptophan fluorescence to partition within the phospholipid layer in contact with both polar head groups and acyl side chains of the phospholipids. The intermittent hydrophilic basic residues were found to be essential for full activity, probably because of electrostatic interactions formed with phosphates of the polar head groups. The hydrophobic stretches of residues in SP-B and the related peptides supplement the activity through interaction with the phospholipid acyl side chains. By increasing intermolecular and intramolecular order of the phospholipid layer and thereby stability of the layer, the SP-B analogues provide strong surfactant activity. Simplified peptide analogues of SP-B, dispersed in DPPC and POPG, provide strong surfactant activity in vitro and in the lungs of premature infant rabbits, rhesus monkeys, and humans.
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PMID:Protein-phospholipid interactions in pulmonary surfactant. The Parker B. Francis Lectureship. 813 14

The refolding kinetics of hen lysozyme have been studied using a range of fluorescent probes. These experiments have provided new insight into the nature of intermediates detected in our recent hydrogen-exchange labeling studies [Radford, S.E., et al. (1992) Nature 358, 302-307], which were performed under the same conditions. Protection from exchange results primarily from the development of stabilizing side-chain interactions, and the fluorescence studies reported here have provided a new perspective on this aspect of the refolding process. The intrinsic fluorescence of the six tryptophan residues and its susceptibility to quenching by iodide have been used to monitor the development of hydrophobic structure, and these studies have been complemented by experiments involving binding to a fluorescent hydrophobic dye 1-anilino-naphthalenesulfonic acid (ANS). Formation of fixed tertiary interactions of aromatic residues has been monitored by near-UV circular dichorism, while development of a competent active site has been probed by binding to a competitive inhibitor bearing a fluorescent label, 4-methylumbelliferyl-N,N'-diacetyl-beta-chitobiose. The combination of these techniques has enabled us to monitor the development both of the hydrophobic core of the protein and of interactions between the two folding domains. If the behavior of the tryptophans is representative of the hydrophobic residues of the protein in general, it seems that collapse is already substantial in species formed within the first few milliseconds of refolding and is highly developed in later intermediates which nonetheless appear to lack many fixed tertiary interactions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tertiary interactions in the folding pathway of hen lysozyme: kinetic studies using fluorescent probes. 817 95

The interaction of apocalmodulin (apoCaM) with a peptide (Neurop) based on the primary sequence of the calmodulin-binding domain of neuromodulin has been studied by fluorescence spectroscopy. The 1:1 complex (12 microM) formed between apoCaM and the Neurop peptide is extremely sensitive to salt and is half dissociated in less than 0.1 M KCl, suggesting that electrostatic interactions contribute strongly to complex formation. Ion pair interactions are frequently sensitive to high hydrostatic pressure due to electrostriction effects in the solvated ion state. Application of high pressure to the apoCaM.Neurop complex causes a red shift of the Neurop tryptophan emission center of mass and a reduced residual anisotropy but with insignificant reduction in quantum yield. The transition is smooth, reversible, and apparently two-state with a midpoint pressure of approximately 0.8 kbar. The residual anisotropy, quantum yield, and center of mass of the emission spectrum are consistent with the movement of the tryptophan side chain to a more solvated, slightly less restricted environment upon the pressure-induced transition. The pressure effect is independent of the concentration of the complex. These and other data are consistent with the pressure-induced reorganization being a unimolecular event not requiring dissociation of the complex. A volume change of approximately 66 mL mol-1 and a free energy change of approximately 1.7 kcal mol-1 are associated with the reorganization. The residual interactions maintaining the complex under high pressure are characterized by low standard molar volume and/or high standard free energy changes upon disruption but are destroyed by 200 mM KCl. It is postulated that the main effect of salt on the complex at high pressure is to drive the collapse of the hydrophobic pocket to which the peptide is binding.
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PMID:Molecular recognition by calmodulin: pressure-induced reorganization of a novel calmodulin-peptide complex. 863 91

The UV dynamic fluorescence and CD of several Pseudomonas aeruginosa azurins bearing single amino acid mutation have been studied. Two classes of mutants were examined. In the first class, two hydrophobic residues in the core of the protein, Ile 7 and Phe 110, nearest to the azurin single tryptophan Trp 48, were substituted by a serine (mutants 17S and F110S). In the second class, two residues in the outer sphere of the copper ligand field were changed, obtaining the following mutants: M44K, H35F, H35L, and H35Q. All these proteins showed two fluorescence lifetimes in the copper-containing form, but only one in the copper-free form. The lifetime of the latter derivatives was different from either those of the metal-bound samples, definitely ruling out the presence of apo-like species in the holo protein. Copper-free 17S and F110S showed a more complex fluorescence decay profile requiring a distribution of lifetimes rather than a single lifetime. Holo F110S was also better fitted, in the limit of confidence, with two distributions rather than a pair of lifetimes. Time-resolved anisotropy of these two mutants as well as of wild-type (wt) protein showed two components (rotational times for wt < or = 200 ps and 7 ns, respectively). These components were not affected significantly by copper removal in the case of wt protein. Instead, the short rotational component of the mutants dropped dramatically to values near zero, indicating a much greater mobility of the tryptophanyl residue in the mutant apo azurins. These data were supported by CD measurements showing a small effect of the copper presence in the region below 250 nm, i.e., in the secondary structure, but almost a collapse of the aromatic asymmetry at 270-295 nm related to a relaxation of the structural constraint around the tryptophan. Altogether these data show that copper does not play a structural role in wt azurin, whereas it is crucial in the stabilization of 17S and F110S mutants. Furthermore, although the metal site geometry is rigidly kept in wt apo-azurin, it regains the native form only in the presence of the metal in the "core" mutants. This finding is important for the theory of entatic states in metalloproteins (Williams RJP, 1995, Eur J Biochem 234:363-381).
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PMID:Probing the structure and mobility of Pseudomonas aeruginosa azurin by circular dichroism and dynamic fluorescence anisotropy. 893 Nov 43


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