Abstract: BACKGROUND: A microorganism is a complex biological system able to preserve its functional features against external perturbations and the ability of the living systems to oppose to these external perturbations is defined "robustness". The antibiotic resistance, developed by different bacteria strains, is a clear example of robustness and of ability of the bacterial system to acquire a particular functional behaviour in response to environmental changes. In this work we have modeled the whole mechanism essential to the methicillin-resistance through a systems biology approach. The methicillin is a beta-lactamic antibiotic that act by inhibiting the penicillin-binding proteins (PBPs). These PBPs are involved in the synthesis of peptidoglycans, essential mesh-like polymers that surround cellular enzymes and are crucial for the bacterium survival. METHODOLOGY: The network of genes, mRNA, proteins and metabolites was created using CellDesigner program and the data of molecular interactions are stored in Systems Biology Markup Language (SBML). To simulate the dynamic behaviour of this biochemical network, the kinetic equations were associated with each reaction. CONCLUSIONS: Our model simulates the mechanism of the inactivation of the PBP by methicillin, as well as the expression of PBP2a isoform, the regulation of the SCCmec elements (SCC: staphylococcal cassette chromosome) and the synthesis of peptidoglycan by PBP2a. The obtained results by our integrated approach show that the model describes correctly the whole phenomenon of the methicillin resistance and is able to respond to the external perturbations in the same way of the real cell. Therefore, this model can be useful to develop new therapeutic approaches for the methicillin control and to understand the general mechanism regarding the cellular resistance to some antibiotics.
Abstract: The amino acid sequence and glycan structure of PD-L1, PD-L2 and PD-L3, type 1 ribosome-inactivating proteins isolated from Phytolacca dioica L. leaves, were determined using a combined approach based on peptide mapping, Edman degradation and ESI-Q-TOF MS in precursor ion discovery mode. The comparative analysis of the 261 amino acid residue sequences showed that PD-L1 and PD-L2 have identical primary structure, as it is the case of PD-L3 and PD-L4. Furthermore, the primary structure of PD-Ls 1-2 and PD-Ls 3-4 have 81.6% identity (85.1% similarity). The ESI-Q-TOF MS analysis confirmed that PD-Ls 1-3 were glycosylated at different sites. In particular, PD-L1 contained three glycidic chains with the well known paucidomannosidic structure (Man)(3) (GlcNAc)(2) (Fuc)(1) (Xyl)(1) linked to Asn10, Asn43 and Asn255. PD-L2 was glycosylated at Asn10 and Asn43, and PD-L3 was glycosylated only at Asn10. PD-L4 was confirmed to be not glycosylated. Despite an overall high structural similarity, the comparative modeling of PD-L1, PD-L2, PD-L3 and PD-L4 has shown potential influences of the glycidic chains on their adenine polynucleotide glycosylase activity on different substrates.
Abstract: Miraculin is a plant protein that displays the peculiar property of modifying taste by swiching sour into a sweet taste. Its monomer is flavourless at all pH as well as at high concentration; the dimer form elicits its taste-modifying activity at acidic pH; a tetrameric form is also reported as active. Two histidine residues, located in exposed regions, are the main responsible of miraculin activity, as demonstrated by mutagenesis studies. Since structural data of miraculin are not available, we have predicted its three-dimensional structure and simulated both its dimer and tetramer forms by comparative modelling and molecular docking techniques. Finally, molecular dynamics simulations at different pH conditions have indicated that at acidic pH the dimer assumes a widely open conformation, in agreement with the hypotheses coming from other studies.
Abstract: The living organisms may be studied as a whole complex system. The "omics sciences" tend at understanding and describing the global information of genes, mRNA, proteins, and metabolites. The aim of the Bioinformatics should be that of developing methods not only able to study the individual components of a system, but also to represent and simulate the relationships between all these components.
Abstract: Recent studies suggest that protein folding should be revisited as the emergent property of a complex system and that the nature allows only a very limited number of folds that seem to be strongly influenced by geometrical properties. In this work we explore the principles underlying this new view and show how helical protein conformations can be obtained starting from simple geometric considerations. We generated a large data set of C-alpha traces made of 65 points, by computationally solving a backbone model that takes into account only topological features of the all-alpha proteins; then, we built corresponding tertiary structures, by using the sequences associated to the crystallographic structures of four small globular all-alpha proteins from PDB, and analysed them in terms of structural and energetic properties. In this way we obtained four poorly populated sets of structures that are reasonably similar to the conformational states typical of the experimental PDB structures. These results show that our computational approach can capture the native topology of all-alpha proteins; furthermore, it generates backbone folds without the influence of the side chains and uses the protein sequence to select a specific fold among the generated folds. This agrees with the recent view that the backbone plays an important role in the protein folding process and that the amino acid sequence chooses its own fold within a limited total number of folds.
Abstract: Salt bridges can play important roles in protein structure and function and have stabilizing and destabilizing effects in protein folding. ESBRI is a software available as web tool which analyses the salt bridges in a protein structure, starting from the atomic coordinates. In the case of protein complexes, the salt bridges between protein chains can be evaluated, as well as those among specific charged amino acids and the different protein subunits, in order to obtain useful information regard the protein-protein interaction. AVAILABILITY: The service is available at the URL: http://bioinformatica.isa.cnr.it/ESBRI/
Abstract: The importance of computational methods for the simulation and analysis of biological systems has increased during the last years. In particular, methods to predict binding energies are developing not only with the aim of ranking the affinities between two or more complexes, but also to quantify the contribution of different types of interaction. In this work, we present the application of HINT, a non Newtonian force field, to rank the affinities of complexes formed by estrogen receptors (ER) alpha and beta and different estrogen responsive elements (ERE) near the estrogen-regulated genes. We used the crystallographic coordinates of the DNA binding domain of ERalpha complexed to a consensus ERE as a starting point to simulate several complexes in which some nucleotides in the ERE sequence were mutated. Moreover, we used homology modeling methods to create the structure of the complexes between the DNA binding domain of ERbeta (for which no experimental structures are currently available) and the same ERE sequences. Our results show that HINT is able to rank the affinities of ERalpha and ERbeta for different ERE sequences, and to correctly identify the positions on the DNA sequence that are most important for binding affinity. Moreover, the HINT output gives us the opportunity to identify and quantify the role played by each single atom of amino acids and nucleotides in the binding event, as well as to predict the effect on the binding affinity for other nucleotide mutations.
Abstract: Multiple sequence alignment analysis of ribosome inactivating proteins (RIPs) has revealed the occurrence of an invariant seryl residue in proximity of the catalytic tryptophan. The involvement of this seryl residue in the catalytic mechanism of RIPs was investigated by site-directed mutagenesis in PD-L4, type 1 RIP isolated from Phytolacca dioica leaves. We show that the replacement of Ser211 with Ala apparently does not influence the N-beta-glycosidase activity on ribosomes (determined as IC(50) in a cell-free system), but it reduces the adenine polynucleotide glycosylase activity (APG), assayed spectrophotometrically on other substrates such as DNA, rRNA, and poly(A). The ability of PD-L4 to deadenylate polynucleotides appears more sensitive to the Ser211Ala replacement when poly(A) is used as substrate, as only 33% activity is retained by the mutant, while with more complex and heterogeneous substrates such as DNA and rRNA, its APG activity is 73% and 66%, respectively. While the mutated protein shows a conserved secondary structure by CD, it also exhibits a remarkably enhanced tryptophan fluorescence. This indicates that, although the overall protein tridimensional structure is maintained, removal of the hydroxyl group locally affects the environment of a Trp residue. Modelling and docking analyses confirm the interaction between Ser211 and Trp207, which is located within the active site, thus affecting RIP adenine polynucleotide glycosylase activity. Data accumulated so far confirm the potential involvement of Ser211 in the catalytic mechanism of type 1 RIP PD-L4 and a possible role in stabilizing the conformation of Trp207 side chain, which participates actively in the protein enzymatic activity.
Abstract: BACKGROUND: The knowledge of the three-dimensional structure of globular proteins is fundamental for a detailed investigation of their functional properties. Experimental methods are too slow for structure investigation on a large scale, while computational prediction methods offer alternatives that are continuously being improved. The international Comparative Assessment of Structure Prediction (CASP), an "a posteriori" evaluation of the quality of theoretical models when the experimental structure becomes available, demonstrates that predictions can be successful as well as unsuccessful, and this suggests the necessity for evaluations able to discard "a priori" the wrong models. RESULTS: We analyzed different structural properties of globular proteins for experimentally solved proteins belonging to the four different structural classes: "mainly alpha", "mainly beta", "alpha/beta" and "alpha+beta". The properties were found to be linearly correlated to protein molecular weight, but with some differences among the four classes. These results were applied to develop an evaluation test of theoretical models based on the expected globular properties of proteins. To verify the success of our test, we applied it to several protein models submitted to the sixth edition of CASP. The best theoretical models, as judged by CASP assessors, were in agreement with the expected properties, while most of the low-quality models had not passed our evaluations. CONCLUSION: This study supports the need for careful checks to avoid the diffusion of incorrect structural models. Our test allows the evaluation of models in the absence of experimental reference structures, thereby preventing the diffusion of incorrect structural models and the formulation of incorrect functional hypotheses. It can be used to check the globularity of predicted models, and to supplement other methods already used to evaluate their quality.
Abstract: In order to simulate the conformational changes occurring when a protein interacts with its receptor, we firstly evaluated the structural differences between the experimental unbound and bound conformations for selected proteins and created theoretical complexes by replacing, in each experimental complex, the protein-bound with the protein-unbound chain. The theoretical models were then subjected to additional modeling refinements to improve the side chain geometry. Comparing the theoretical and experimental complexes in term of structural and energetic factors is resulted that the refined theoretical complexes became more similar to the experimental ones. We applied the same procedure within an homology modeling experiment, using as templates the experimental structures of human interleukin-1beta (IL-1beta) unbound and bound with its receptor, to build models of the homologous proteins from mouse and trout in unbound and bound conformations and to simulate the interaction with the related receptors. Our results suggest that homology modeling techniques are sensitive to differences between bound and unbound conformations, and that modeling with accuracy the side chains in the complex improves the interaction and molecular recognition. Moreover, our refinement procedure could be used in protein-protein interaction studies and, also, applied in conjunction with rigid-body docking when is not available the protein-bound conformation.
Abstract: Multiple sequence alignments are successfully applied in many studies for under- standing the structural and functional relations among single nucleic acids and protein sequences as well as whole families. Because of the rapid growth of sequence databases, multiple sequence alignments can often be very large and difficult to visualize and analyze. We offer a new service aimed to visualize and analyze the multiple alignments obtained with different external algorithms, with new features useful for the comparison of the aligned sequences as well as for the creation of a final image of the alignment. The service is named FASMA and is available at http://bioinformatica.isa.cnr.it/FASMA/.
Abstract: PreSSAPro is a software, available to the scientific community as a free web service designed to provide predictions of secondary structures starting from the amino acid sequence of a given protein. Predictions are based on our recently published work on the amino acid propensities for secondary structures in either large but not homogeneous protein data sets, as well as in smaller but homogeneous data sets corresponding to protein structural classes, i.e. all-alpha, all-beta, or alpha-beta proteins. Predictions result improved by the use of propensities evaluated for the right protein class. PreSSAPro predicts the secondary structure according to the right protein class, if known, or gives a multiple prediction with reference to the different structural classes. The comparison of these predictions represents a novel tool to evaluate what sequence regions can assume different secondary structures depending on the structural class assignment, in the perspective of identifying proteins able to fold in different conformations. The service is available at the URL http://bioinformatica.isa.cnr.it/PRESSAPRO/.
Abstract: Amino acid propensities for secondary structures were used since the 1970s, when Chou and Fasman evaluated them within datasets of few tens of proteins and developed a method to predict secondary structure of proteins, still in use despite prediction methods having evolved to very different approaches and higher reliability. Propensity for secondary structures represents an intrinsic property of amino acid, and it is used for generating new algorithms and prediction methods, therefore our work has been aimed to investigate what is the best protein dataset to evaluate the amino acid propensities, either larger but not homogeneous or smaller but homogeneous sets, i.e., all-alpha, all-beta, alpha-beta proteins. As a first analysis, we evaluated amino acid propensities for helix, beta-strand, and coil in more than 2000 proteins from the PDBselect dataset. With these propensities, secondary structure predictions performed with a method very similar to that of Chou and Fasman gave us results better than the original one, based on propensities derived from the few tens of X-ray protein structures available in the 1970s. In a refined analysis, we subdivided the PDBselect dataset of proteins in three secondary structural classes, i.e., all-alpha, all-beta, and alpha-beta proteins. For each class, the amino acid propensities for helix, beta-strand, and coil have been calculated and used to predict secondary structure elements for proteins belonging to the same class by using resubstitution and jackknife tests. This second round of predictions further improved the results of the first round. Therefore, amino acid propensities for secondary structures became more reliable depending on the degree of homogeneity of the protein dataset used to evaluate them. Indeed, our results indicate also that all algorithms using propensities for secondary structure can be still improved to obtain better predictive results.
Abstract: The colour of buffalo (Bubalus bubalis L.) meat is darker than bovine meat. Since meat colour depends on the concentration of myoglobin (Mb) and its oxidation state, we have determined the main structural and functional properties of buffalo Mb. Buffalo Mb was purified from longissimus dorsi muscles and its molecular mass determined by ESI Q-TOF mass spectrometry. The molecular mass 17,034.50 was 86.20 Da higher than the bovine Mb. This was confirmed by analysing its primary structure, using a combined approach based on Edman degradation and MALDI-TOF mass spectrometry. Comparing the amino acid sequences of both Mbs, we found three amino acid differences out of 153 amino acid residues. One is a conservative substitution (D(bov)141E(buf)), and the other two (A(bov)19T(buf) and A(bov)117D(buf)) are nonconservative. These amino acid substitutions are unlikely to cause structural changes because they are located far from the heme binding pocket, as revealed by the 3D structure of buffalo Mb elaborated by homology modelling. Stability analyses show no difference with the bovine Mb for helix E and only minor differences in the stability values for helices A and G. Moreover, autoxidation rates of purified buffalo and bovine myoglobins at 37 degrees C, pH 7.2, were almost identical, 0.052+/-0.001 h(-1) and 0.054+/-0.002 h(-1), respectively, as were their oxygen-binding Kd values, 3.7+/-0.1 microM and 3.5+/-0.1 microM, respectively. The percent of MetMb values were almost identical. The results presented here suggest that the darker buffalo meat depends on factors other than the oxidation rate of its Mb, as, for example, the Mb content (0.393+/-0.005 g/100 g of tissue) and consequently MetMb, which are almost twice as high as bovine meat (Mb: 0.209+/-0.003 g/100 g of tissue).
Abstract: Celiac disease (CD) is sustained by abnormal intestinal mucosal T-cell response to gluten and it is strongly associated with HLA class II molecules encoded by DQA1*0501/DQB1*02 (DQ2) or DQA1*03/DQB1*0302 (DQ8). The in vitro stimulatory activity of gliadin increases after treatment with tissue transglutaminase (tTG) which catalyses the deamidation of specific residues of glutamine to glutamate that can serve as anchors for binding to DQ2 as well as to DQ8 molecules. We modelled the three-dimensional structure of the DQ2 dimer protein, the most frequent in celiac patients, by using a homology modelling strategy, and deposited the model in the Protein Data Bank (PDB). Then, we simulated the interactions of DQ2 with different gluten peptides and the deamidation of specific peptide glutamines in the known p4, p6, p7 and p9 anchor positions, as well as in p1 and p5 positions, and other substitutions for which experimental effects on binding are available by previous experimental studies. By evaluating the energy of interaction and the H-bond interactions, we were able to distinguish what substitutions improve the interaction peptide-DQ2, in agreement with previously published experimental data. By analysing the peptide-DQ2 complex at the atom level, we observed that these glutamate side chains can interact with specific positively charged amino acids of DQ2, absent in other HLA alleles not related to celiac disease. The simulation was also extended to other peptides, related to celiac disease but for which no experimental data exists about the effects of glutamine deamidation. Our results give an interpretation at the molecular level of previously reported binding experimental data and open a new window to gain further insights about peptide recognition in celiac disease.
Abstract: We have investigated the molecular mechanisms that produce different structural and functional behavior in the monomeric and trimeric forms of seminal vesicle protein no. 4, a protein with immunomodulatory, anti-inflammatory, and procoagulant activity secreted from the rat seminal vesicle epithelium. The monomeric and trimeric forms were characterized in solution by CD. Details of the self-association process and structural changes that accompany aggregation were investigated by different experimental approaches: trypsin proteolysis, sequence analysis, chemical modification, and computer modeling. The self-association process induces conformational change mainly in the 1-70 region, which appears to be without secondary structure in the monomer but contains alpha-helix in the trimer. In vivo, proteolysis of seminal vesicle protein no. 4 generates active peptides and this is affected by the monomer/trimer state, which is regulated by the concentration of the protein. The information obtained shows how conformational changes between the monomeric and trimeric forms represent a crucial aspect of activity modulation.
Abstract: This paper presents original data regarding: the three-dimensional modelling of rainbow trout (Oncorhynchus mykiss) and sea bass (Dicentrarchus labrax) IL-1beta, the modelling of trout IL-1 receptor type I (IL-1RI) and the modelling of trout IL-1beta bound to its receptor. The 3D models of trout and sea bass IL-1beta molecules were predicted by comparison with those already available of human and mouse, and, in both cases, a structure consisting of a beta-trefoil fold was obtained, a motif well conserved during evolution of IL-1beta-related proteins. Moreover, a model for the rainbow trout IL-1 receptor alone and complexed with IL-1beta was predicted and compared to the murine model. Both ligand-receptor complex models were compared with the known crystal structure of the human IL-1beta/IL-1R complex. A cross-interaction of trout IL-1beta with the mouse receptor was also simulated. Such analysis and the predicted interaction energies calculated from the models have helped to explain the different biological efficacies of mammalian and fish IL-1beta molecules in assays based on mammalian target cells. The obtained data are discussed on the basis of evolutionary and applied perspectives.
Abstract: It is known that low-dose aspirin is effective in coronary artery therapy, although it has not yet been clarified how it exerts its action. Here, we report that treatment of coronary artery patients with 100 mg/day of aspirin does not attenuate thrombin generation, but reduces free thrombin by favouring the formation of thrombin/antithrombin (TAT) complexes. Antithrombin hyperactivation is mediated by inhibition of platelet factor 4 release from alpha-granules, leading to higher heparin availability.
Abstract: S-adenosyl-L-methionine (SAM), an important metabolic intermediate of mammals, is a well-known therapeutic agent. The molecule is chemically unstable, both in solution and in dry state, and forms different degradation products. Because the chemical instability represents a real problem during the preparation of therapeutic formulations, we investigated the capacity of some sugars to improve the SAM stability over time. In the present work, we demonstrated that the disaccharide trehalose exercises a protective effect towards the lyophilized SAM slackening its degradation (65% of SAM was detected after 50 days at 37 degrees C). A parallel study, performed to stabilize the SAM into lyophilized yeast cells enriched in the sulfonium compound, assessed the positive effect of trehalose also in whole cells, but in lesser measure.
Abstract: High-performance liquid chromatography purification followed by mass spectrometry analyses highlighted that human senile cataractous lens includes a 8182 Da species which is absent in the normal lens, whereas a 8566/8583 Da species is present in both lenses. Western blot analysis identified both species as ubiquitin. The species at lower molecular weight is a shorter form due to the cleavage of the C-terminal residues 73-76. As it is the last amino acid of ubiquitin which is involved in the protein degradation mechanism, we suggest that this structure modification compromises the function of ubiquitin and consequently the physiologically occurring degradation of the lens proteins.
Abstract: The effect of porins, major hydrophobic outer membrane proteins purified from Salmonella typhimurium, on human blood coagulation was investigated. It was found that micromolar concentrations of porins accelerated markedly human blood coagulation in vitro. Using appropriate experiments, data were obtained showing that the main target of the porin-induced procoagulant effect was thrombin. A possible binding of porins with thrombin has been suggested to be the basis of this effect. The implications of this finding in the pathogenesis of the disseminated intravascular coagulation syndrome (DIC) occurring during the Gram-negative septic shock is discussed.
Abstract: Homology modelling of the human eIF-5A protein has been performed by using a multiple predictions strategy. As the sequence identity between the target and the template proteins is nearly 30%, which is lower than the commonly used threshold to apply with confidence the homology modelling method, we developed a specific predictive scheme by combining different sequence analyses and predictions, as well as model validation by comparison to structural experimental information. The target sequence has been used to find homologues within sequence databases and a multiple alignment has been created. Secondary structure for each single protein has been predicted and compared on the basis of the multiple sequence alignment, in order to evaluate and adjust carefully any gap. Therefore, comparative modelling has been applied to create the model of the protein on the basis of the optimized sequence alignment. The quality of the model has been checked by computational methods and the structural features have been compared to experimental information, giving us a good validation of the reliability of the model and its correspondence to the protein structure in solution. Last, the model was deposited in the Protein Data Bank to be accessible for studies on the structure-function relationships of the human eIF-5A.
Abstract: The aim of the study was to evaluate the effect of the protein Seminal Vesicle Protein No. 4 (SV-IV), a potent inhibitor of antithrombin III (antithrombin), on the coagulation of blood obtained from patients affected by hemophilia A. In the coagulating blood of these patients, the antithrombin/thrombin ratio was found to be markedly higher (about 44) than in normal individuals (about 4. 4). This high ratio was related to the low efficiency of thrombin-generating reactions induced by the factor VIII deficiency and to the high levels of free (not bound to serine proteases) antithrombin present in the hemophilic serum (antithrombin concentration was the same in normal and hemophilic plasma). The elevated concentration of free antithrombin in hemophiliacs was primarily a consequence of a reduced consumption caused by the scarce availability in the hemophilic serum of factors Xa and IIa, which are serine proteases possessing strong binding affinity for antithrombin. Addition of SV-IV to coagulating hemophilic blood reduced markedly the serum antithrombin and thrombin-antithrombin complexes, normalizing, as a consequence, the clotting time and other coagulation parameters. Similar results were obtained by using appropriate concentration of factor VIII.
Abstract: The nucleotide frequencies in the second codon positions of genes are remarkably different for the coding regions that correspond to different secondary structures in the encoded proteins, namely, helix, beta-strand and aperiodic structures. Indeed, hydrophobic and hydrophilic amino acids are encoded by codons having U or A, respectively, in their second position. Moreover, the beta-strand structure is strongly hydrophobic, while aperiodic structures contain more hydrophilic amino acids. The relationship between nucleotide frequencies and protein secondary structures is associated not only with the physico-chemical properties of these structures but also with the organisation of the genetic code. In fact, this organisation seems to have evolved so as to preserve the secondary structures of proteins by preventing deleterious amino acid substitutions that could modify the physico-chemical properties required for an optimal structure.
Abstract: The molecular properties of the human eukaryotic initiation factor 5A precursor and its site directed Lys50-->Arg variant have been investigated and compared. Structure perturbation methods were used to gain information about the protein architecture in solution. Intrinsic and extrinsic spectroscopic probes strategically located in the protein matrix detected the independent unfolding of two molecular regions. Three cysteines out of four were titrated in the native protein and the peculiar presence of a tyrosinate band at neutral pH was detected. At alkaline pH only two tyrosines out of three were titratable in the native protein, with an apparent pK of about 9.9. Native protein and its Lys50-->Arg variant reacted in a similar fashion to guanidine and to pH variation, but differently to thermal stress. The complex thermal unfolding of both proteins indicated the presence of intermediates. Spectroscopic data showed that these intermediates are differently structured. Consequently, the two proteins seem to have different unfolding pathways.
Abstract: We set up a method to get rapid information on the three-dimensional structure of peptide and proteins of known sequence. Both native and alkylated polypeptide is hydrolyzed with a number of proteases at different digestion times and the resulting mixtures are compared by HPLC analysis to establish the differences in the hydrolysis pathways of the folded and unfolded molecule. Then, the unfractionated digestion mixtures of the native polypeptide are submitted to automatic sequence analysis to identify the hydrolysis sites. The sequence of each fragment present in the mixtures is reconstructed and its amount determined by quantitative data of the sequence analyses. We used this approach to determine the amino acid surface accessibility of wheatwin1, a pathogenesis-related protein from wheat, and constructed a predictive three-dimensional model based on the knowledge of the tertiary structure of barwin, a highly homologous protein from barley. The procedure allowed us to quickly identify and quantify the hydrolysis at the susceptible bonds which could be classified as exposed, partially hidden, or inaccessible. The results were useful to evidentiate and discuss concordances and differences between experimental and model predicted accessibilities of amino acid residues. Proteins 1999;36:192-204.
Abstract: We investigated the relationships between the nucleotide substitution rates and the predicted secondary structures in the three states representation (alpha-helix, beta-sheet, and coil). The analysis was carried out on 34 alignments, each of which comprised sequences belonging to at least four different mammalian orders. The rates of synonymous substitution were found to be significantly different in regions predicted to be alpha-helix, beta-sheet, or coil. Likewise, the nonsynonymous rates also differ, although expectedly at a lower extent, in the three types of secondary structure, suggesting that different selective constraints associated with the different structures are affecting in a similar way the synonymous and nonsynonymous rates. Moreover, the base composition of the third codon positions is different in coding sequence regions corresponding to different secondary structures of proteins.
Abstract: The protein SV-IV, a major protein secreted from the rat seminal vesicle epithelium, is a basic protein with immunomodulatory, anti-inflammatory, and procoagulant activity. Predictions suggested that this protein is very flexible, with its three tyrosyl residues presumably located in water-exposed segments of the primary structure. The solution behaviour of the protein was investigated by two types of spectroscopic techniques. Modifications of the spectral characteristics of tyrosyl residues induced by changes of protein concentration were demonstrated by absorption and fluorescence experiments. In addition, secondary structure rearrangements associated with a possible self-association equilibrium were highlighted by far-UV CD spectra. The equilibrium, confirmed by chromatographic techniques, appears to control some biological properties of the protein.
Abstract: We have compared the X-ray structures of 13 thermophilic proteins with their mesophilic homologues, in order to bring out differences in the stability of helices. The energy terms of a helix-coil transition algorithm were used to evaluate helix stability. Helices of thermophilic proteins are more stable than the mesophilic homologues in 69% of cases. This is due mainly to intrinsic helical propensities of amino acids, whereas minor effects are linked to main chain H-bonds, side chain-side chain interactions, capping motifs and charge-dipole effects. Furthermore, the frequency of 10 helix stabilizing factors recognized by appropriate sequence patterns was evaluated. The only factor occurring significantly in the thermostable proteins was the lack of beta branched residues. Other factors do not show a definite trend, although their occurrence in proteins is believed to be important for stability. This is discussed in the light of protein engineering applications.
Abstract: Like cyclosporin A, cyclolinopeptide A binds specifically bovine cyclophilin A, inhibiting its peptidyl-prolyl cis-trans isomerase activity. We describe here the protein interaction with several synthetic analogues of cyclolinopeptide A, which are either homodetic or disulphide bridged heterodetic cyclopeptides characterized by different ring dimensions, in terms of dissociation and inhibition constants evaluated by fluorescence and inhibition of the enzyme activity, respectively. Dissociation constants from fluorescence experiments are practically identical and about 20-fold lower than for cyclosporin A. On the other hand, inhibition constants differ from compound to compound and are higher than for cyclosporin A. This result is therefore difficult to rationalize, but we would suggest decoupling between binding and inhibitory ability of cyclopeptides. The Pro1 residue of cyclolinopeptide A seems to play a fundamental role in determining the inhibition of the rotamase activity of cyclophilin A, as the homodetic analogue lacking this residue does not show any inhibitory ability. Similarly, heterodetic analogues with a ring size smaller than 7 residues do not display inhibition. We presume that the sequence -Pro-Pro-Phe-Phe- and a ring size of 8 residues for homodetic cyclic peptides could be used as starting points in the targeted synthesis of cyclopeptides able to bind both cyclosporin A and calcineurin. The only peptide showing similar values of the dissociation and inhibition constant is cyclolinopeptide A. This compound can be considered a novel model for the molecular design of immunosuppressant drugs.
Abstract: Thermal treatment of milk leads to non-enzymatic glycosylation of proteins through Maillard reaction. Free NH2 groups of basic amino acids react with the reducing carbonyl group of lactose forming the so-called Amadori products. Electrospray mass spectrometry analysis shows that beta-lactoglobulin (beta-LG), the major whey protein, undergoes lactosylation under industrial thermal treatment. In order to investigate the specificity of reactive sites for lactose binding the analysis of trypsin hydrolysates of beta-LG isolated from different industrial milks was performed. Results demonstrate that Lys-100 is a preferential lactosylation site of beta-LG during industrial milk treatment. These results were confirmed by an analysis of the three-dimensional model of the protein which showed that Lys-100 had the highest solvent accessibility and proximity to another amino group making Lys-100 the best candidate to lactosylation. Lys-47, previously identified by other authors, showed a good proximity to another Lys residue, but an intermediate level of exposition to solvent.
Abstract: The effect of two peptide derivatives of the rat SV-IV (SV-IV/A: 1-70 fragment; SV-IV/B: 71-90 fragment) on human blood coagulation was investigated. The SV-IV/A fragment was found to possess the same procoagulant activity of the native protein, whereas SV-IV/B retained only a very small fraction of the activity. The results obtained strongly suggest that the procoagulant activity of SV-IV/A is due, like SV-IV, to a selective inhibition of the antithrombin III (AT III) activation process induced by heparin, an essential cofactor of AT III. The main data supporting this hypothesis are the following: 1) the concentration of active serum AT III decreases when SV-IV/A is present in the clotting system; 2) the plasma treatment with SV-IV/A reduces the concentration of AT III, but not that of other plasma serine protease inhibitors; 3) the recalcification time (RT) of the plasma treated with a rabbit anti-AT III polyclonal antiserum is not modified by SV-IV/A; 4) the presence of SV-IV/A in a reaction mixture containing pure fibrinogen, alpha-thrombin, heparin, and AT III neutralizes the thrombin inhibition induced by AT III; 5) the concentration of the thrombin-AT III complexes, occurring in sera obtained from CaCl2-coagulated plasma, is markedly reduced in the presence of SV-IV/A; 6) appropriate concentrations of heparin neutralize the inhibitory effect of either SV-IV/A or SV-IV on the AT III activity in vitro.
Abstract: Chromatographic separation of alpha-crystallin incubated with [3H]-labelled galactose showed the radioactivity to be concentrated in the low molecular mass subunits (20 and 40 kDa). The effect of glycation on the structural organization of alpha-crystallin was evaluated by FPLC analysis of native (pH 6.8 and 8.2) and glycated protein in dissociating conditions. Results suggest that the glycation acts on the protein surface by altering its charge distribution.
Abstract: In this article we generalize the use of a relationship based on the occurrence of some characteristic temperatures in protein unfolding, which were originally highlighted for proteins showing the unfolding enthalpy-entropy convergence. On this basis, we show how to dissect the unfolding Gibbs energy of globular proteins in terms of solid-like and liquid-like contributions, untangling the protein energetics by a scheme which does not suffer from excessive intricacy. We also provide an experimental estimate of unfavorable polar contributions to the protein stability, by which it seems possible to evaluate the number of buried residues in individual proteins. A comparison is assessed with the so-called hard sphere model of globular proteins. Results seem to reconcile the view that the protein interior is liquid-like with the observation that protein organization resembles an assembly of closely packed spheres.
Abstract: We describe a white Italian kindred in which hereditary elliptocytosis (HE) is associated with abnormal level of alpha I/78 peptide in spectrin digest. Clinical phenotype varied among the family members ranging from asymptomatic to mild haemolytic HE. The original mutation responsible is a G-C substitution of the spectrin alpha-gene: alpha 45 Arg-->Thr (AGG-->ACG). The corresponding spectrin is designated spectrin Anastasia. Utilizing a secondary structure predictive method we suggest that this mutation has a poor capability to induce conformational changes of the tetramerization site and thus shows a moderate elliptocytogenic potential.
Abstract: Cyclophilin A, a peptidyl-prolyl cis-trans is isomerase that catalyzes the otherwise slow isomerization of Xaa-Pro imidic bond, specifically binds the immunosuppressant cyclosporin A. Herein we report evidence on binding of cyclolinopeptide A and its synthetic analogue, [Aib5,6-D-Ala8]cyclolinopeptide, to bovine cyclophilin A. Binding experiments were monitored by fluorescence, CD, and second-derivative spectroscopies, evidencing no remarkable rearrangement of protein structure organization. The possibility that cyclolinopeptide A could act as a substitute of cyclosporin A in the immunosuppression modulation is also briefly discussed.
Abstract: This study is concerned with the structural characterization in solution of the glutamate dehydrogenase from the Archaeon Sulfolobus solfataricus. At neutral pH both alpha-helix and beta-sheet constitute the secondary structure of this enzyme, on the basis of circular dichroism. A complex, temperature dependent self-association equilibrium regulates the formation of the enzyme quaternary structure, which seems to be accompanied by a reversible structural change. At 25 degrees C the enzyme is mostly represented by monomeric subunits at concentrations lower than 0.02 mg/ml, while oligomers are predominant at concentrations higher than 0.12 mg/ml. The mid-point of the association curve shifts from 0.05 mg/ml at 25 degrees C to about 0.1 mg/ml at 45 degrees C. Only the oligomeric form appears to be temperature resistant. Monomeric and oligomeric enzyme show distinct behaviour on guanidine hydrochloride perturbation at neutral pH. The monomer denaturation, although complex, is reversible. Two fluorescent tryptophan classes are detectable in the monomer, monitoring the independent unfolding of two regions through a multistate transition. Instead, the oligomeric protein shows a complex denaturation pattern with the tendency to aggregate irreversibly at high denaturant concentration.
Abstract: We find that isoenthalpic and isoentropic temperatures characterizing the unfolding of small globular proteins are linked by a simple relationship, which takes into account the occurrence of common values of specific unfolding enthalpy and entropy changes. The difference between these temperatures implies that the hydration effect favors protein folding over a quite large range of temperatures.
Abstract: This paper describes a method for the evaluation of the unfolding heat capacity change of proteins by their amino-acid composition. The method hinges on a set of hydration heat capacity changes of amino acids extracted from the Protein Data Bank of crystallographic structures (Oobatake, M. and Ooi, T. (1988) J. Biochem. (Tokyo) 104, 433-439). This avoids problems linked to the choice of an arbitrary reference state. The published values have been normalized with respect to the total surface area of each amino-acid residue and related to the non-polar surface. The relationship found for amino acids allows a straightforward estimate of the unfolding heat capacity change of globular proteins. Predicted values for a large set of proteins fall within the experimental error. The devised algorithm shows that the unfolding heat capacity change depends on chain length and provides an explanation for the physical limits imposed upon this quantity.
Abstract: The effect of malondialdehyde on structural features of bovine alpha-crystallin has been investigated by absorption and fluorescence spectroscopy as well as by far-UV circular dichroism. Experimental evidence suggests the occurrence of intermolecular cross-linking induced by malondialdehyde. This cross-linking does not seem to affect the tryptophan environment, as suggested by intrinsic protein fluorescence. On the contrary, the time dependence of far-UV dichroic activity indicates that the cross-linking is accompanied by a secondary structure change. The formation of high molecular mass aggregates, evidence by electrophoresis in denaturing conditions, leads to irreversible alpha-crystallin aggregation due to extensive intermolecular cross-linking. Since malondialdehyde is produced in vivo as a breakdown product of lipid peroxidation the possible involvement of this molecule in the pathological mechanism of cataract formation has been briefly discussed.
Abstract: The seminal vesicle protein No. 4 (SV-IV) secreted from the rat seminal vesicle epithelium, possesses immunosuppressive and anti-inflammatory properties and it is a potent inhibitor of platelet aggregation both in vivo and in vitro. This research aimed to investigate the possible effect of SV-IV on the process of human blood coagulation. Preliminary experiments showed that the recalcification time (RT) of platelet-poor plasma (PPP) samples, obtained from both normal subjects and patients affected by some hemorrhagic disorders, was found to be markedly reduced in the presence of micromolar amounts of SV-IV. It was demonstrated that the concentration of free antithrombin III (AT III) occurring in blood sera obtained from PPP samples recalcified in the presence of SV-IV was significantly decreased in comparison with sera obtained from PPP recalcified in the absence of SV-IV. It was also shown that PPP treatment with SV-IV significantly reduced the concentration of free AT III without affecting the levels of other plasma serine protease inhibitors, such as alpha 2-macroglobulin, alpha 1-antitrypsin and C1-inhibitor. In addition, the RT of PPP treated with a specific rabbit anti-AT III polyclonal antiserum (anti-AT III treated PPP) was not modified by SV-IV. These findings were confirmed by the observation that the addition of SV-IV into an in vitro coagulation system, containing pure fibrinogen, alpha-thrombin and AT-III, resulted in complex suppression of thrombin inhibition by AT III. No other steps of the blood clotting process (prothrombinase complex, factor XIII, fibrinogen concentration) were affected by SV-IV.
Abstract: SV-IV, a 9.8-kd protein isolated from rat seminal vesicle secretion, has been shown to have strong non-species-specific immunosuppressive, anti-inflammatory, antithrombotic, and antiphospholipase A2 properties. The present investigation was undertaken to determine the mechanism of action of its immunosuppressive effects. It was found that SV-IV is a potent inhibitor of interleukin-1 (IL-1) release from lipopolysaccharide (LPS)-activated human adherent monocytes and an effective inhibitor of IL-1-induced thymocyte proliferation. The ability of SV-IV to form a noncovalent dimeric association with IL-1 alpha but not with IL-1 beta, its ability to induce a marked decrease of IL-1 binding to its own receptors on the thymocyte surface, and its capacity to bind specifically to the macrophage plasma membrane might play an important role in the molecular mechanism of these inhibitory effects.
Abstract: A protein fragment (M(r) approximately 9000) isolated from the cortex of nonpathological calf lenses has been structurally characterized. The polypeptide structure was well organized (39% alpha-helix, 33% beta-structure, and 28% remainder) according to the far-ultraviolet circular dichroism. The fluorescence was heterogeneous for the presence of two tryptophan classes. Structure perturbation by pH and denaturant revealed cooperative structural transitions which are characteristics of a globular organization. A single-step unfolding curve induced by Gdn-HCl (midpoint = 1.38 M Gdn-HCl) was monitored by emission maximum shift as well as by far-ultraviolet circular dichroism. This transition was analyzed as a two-state process. The standard free energy of unfolding in the absence of the denaturant, delta Go (H2O), was found to be 10.80 +/- 0.25 kJ/mol at 20 degrees C and pH 7.4. The fragment also shows an unusual thermal resistance. Its structure was unperturbed up to 90 degrees C according to the fluorescence and dichroism. This last property, its peculiar amino acid composition, and the sequence of a small segment are shared, among crystallins, only with the N-terminal region of the alpha-crystallin B chain. A search for proteolysis sites along the alpha-crystallin B chain sequence revealed that it possesses specific points for proteinase attack. These sites are particularly exposed and clustered in a very flexible region in the middle of the protein sequence. They are also well represented in the C-terminal extension of the molecule while a few are buried in the N-terminal region.(ABSTRACT TRUNCATED AT 250 WORDS)
Abstract: The effect of temperature on the molecular structure of propylamine transferase from Sulfolobus solfataricus has been investigated. Sulfolobus solfataricus is an extreme thermophilic archaebacterium with an optimum living condition at 90 degrees C. The enzyme is an oligomeric (trimer) protein of molecular mass 112 kDa. The frictional ratio for the native protein suggests an irregularly shaped compact globular structure. The protein matrix is well organized as suggested by far ultraviolet circular dichroism at 25 degrees C (18% alpha helix, 43% beta structure, 19% beta bends and 20% unordered: root mean square = 7). Structural effects of temperature were investigated over 25-85 degrees C. The protein retains its quaternary structure in this temperature range. A highly reversible subtle conformational transition was detected by numerous structure-dependent techniques over 40-50 degrees C, with a midpoint centered at 45 degrees C. Functional data also support this view. In fact, two enzyme forms, characterized by different catalytic properties, are present in solution. The Arrhenius plot suggests the occurrence of two different activation-energy-dependent processes, one at a temperature higher and one at a temperature lower than 45 degrees C. The transition has been considered as a molecular switch between two protein populations at equilibrium with different functional and structural properties, temperature modulated. A physiological role for the molecular switch has also been postulated. The protein also shows some subtle and reversible spectroscopic changes around 75 degrees C. The molecular basis of the thermophilic nature of this enzyme seems to reside in its capability to dynamically couple catalytic and structural events to the thermal properties of the ambient medium.
Abstract: The thermal stability of propylamine transferase from Sulfolobus solfataricus, an extreme thermophilic archaebacterium, has been characterized thermodynamically by a Van't Hoff analysis. Conformational transitions induced by guanidine hydrochloride, as well as by temperature, have been linked together in a scheme involving six equilibria, which arise from both dissociation and unfolding. The mechanism by which the protein achieves thermal stabilization is quite unusual. It is driven by a conformational equilibrium between two forms of different stability. The stability of each form towards denaturation is characterized by a specific temperature dependence. The low-temperature form, indicated as 'form A', is stable over 12-89 degrees C. Its stability maximum is 36.8 kJ/mol at 50 degrees C. 'Form B', which is populated at higher temperature, spans the interval 28-146 degrees C. Its stability maximum is 71.6 kJ/mol at 87 degrees C. A possible explanation for the mechanism underlying this behaviour is discussed assuming that two major terms contribute to stability, i.e. hydrophobic interactions arising from burying of the accessible surface residues as well as conformational entropy. The thermal stabilization of the enzyme seems to depend on effects related to both an overall increase of flexibility and a concomitant decrease of the area buried upon folding. In this regard proteins from extreme thermophilic organisms appear to be a useful model to shed new light on the general problem of protein stability.
Abstract: beta s-Crystallin has been purified to homogeneity. Its structural features and conformational behavior have been studied in solution. Protein secondary structure was estimated by curve fitting of far-UV circular dichroism spectra, which gave 16% alpha-helix, 45% beta-sheet, 12% bends, and 27% remainders. This result indicates that the structural organization of beta s-crystallin is reasonably similar to that of other beta and gamma family members. A comparison assessed between beta s- and gamma 2-crystallin by the use of predictive methods (flexibility and volume plots) reveals that the two proteins differ in respect to their local flexibility and packing, although they show similar overall organization. The interdomain and the C-terminal regions were found to be more flexible in beta s-crystallin. This finding can be explained by the presence of smaller amino acid residues within these structural districts. The location of one out of four tryptophans, i.e., Trp-162, in a flexible and exposed region of the protein was found to be the origin of the fluorescence heterogeneity. In fact, the fluorescence emission maximum of the native protein, centered at 328 nm, is due to two emitting centers, whose emission maxima are located at 323 and 330 nm, respectively, as evidenced by acrylamide quenching of fluorescence. The effect of perturbing agents, such as pH and guanidine hydrochloride, on the conformational behavior of beta s has also been evaluated by numerous spectroscopic techniques. The range of pH stability was between 6.5 and 8.(ABSTRACT TRUNCATED AT 250 WORDS)
Abstract: A single-step separation of calf lens gamma-crystallin into six protein components is described. UV absorption spectra, characterized by the presence of high absorbance in the 240-250 nm and 310-360 nm spectral regions as well as by fluorescence emission above 400 nm, are shown by six components. alpha-, beta and beta S crystallins have been compared with the gamma-fraction for the presence of non-tryptophan fluorescence. The chromophores responsible for this non-tryptophan fluorescence were found to be associated with gamma-crystallin components only. The spectral features of one selected gamma-crystallin component (characterized by an isoelectric point of 7.68) have been examined. Results seem to suggest the presence of oxidative products of tryptophan. Implications of these findings for the expression of human and bovine genes are also considered.
Abstract: The flexibility plot of a protein lies on the observation that amino acid residues with the highest turn potential, i.e. located in highly mobile regions of protein surface, also possess the smallest volumes as well as the lowest hydrophobicities. The plot is generated by shifting a five residue window along the protein sequence and calculating the value of the hydrophobicity-volume product for consecutive quintuplets of amino acid residues. The concomitant occurrence of small volumes and low hydrophobicities results in very deep minima. A threshold value has also been introduced in order to discriminate significant minima. To substantiate the interpretation that the selected minima actually indicate very flexible segments of a protein (loops, turns, etc.), we have compared plots obtained for model proteins (lysozyme, myoglobin, ribonuclease, trypsin, thermolysin and T4 lysozyme) with X-ray thermal factors profiles available for the same proteins. When compared to thermal profiles, the majority of flexible segments evidenced by our plots have been found to be in agreement with regions characterized by high thermal factors. Results have also been discussed in the light of local organization possessed by examined proteins.
Abstract: A flexible package designed to study protein structure is described. The package is devoted to the analysis of protein sequences by drawing structural profiles of specific structure-related amino acid parameters. An Aminoacidic Parameters Data Bank (CHAMP) containing 32 different series of physico-chemical parameters of amino acids is available. Sequences can be loaded from any ASCII format data bank or from keyboard. The program possesses a routine which enables easy updating of the protein data bank and CHAMP Data Bank. FAST reads statistical correlations between two plots in order to identify structural similarities. Plots can be printed, saved or used for correlation, comparison or graph overlap by using common spreadsheets (e.g. Lotus 123). Plots can be smoothed by a running mean or a running median. The program also has a special feature--a global flexibility analysis of proteins. The package runs on IBM or compatibles and requires DOS 3.0 or later.
Abstract: A computer program is described that is designed to make the visual inspection of classical plots of protein properties (e.g. hydrophobicity, volume, etc.) as a function of sequence easier. An algorithm written in BASIC language has been used in order to generate a pseudo-tridimensional representation of the desired protein property. The data utilized by the program are arithmetic averages of the selected parameter obtained by using a five-residue window as a shuttle along the given amino acid sequence.
Abstract: alpha-, beta-, and gamma-crystallins have been purified from nonpathological lenses of calves. The pure proteins have been examined for nontryptophan fluorescence and fluorescent compounds have been found specifically bound to gamma 2-crystallin. The protein has been unfolded by 6 M guanidine hydrochloride (Gdn-HCl) and a separation of the fluorescent compounds has been obtained by gel chromatography in the presence of 6 M Gdn-HCl. The spectroscopic features (absorbance, fluorescence) of the protein returned to normal following removal of the chromophores. The low-molecular-weight separated fluorescent compounds have been fractionated and extracted from the Gdn-HCl solution by ethyl acetate. TLC chromatography has shown the presence of kynurenine, 3-OH-kynurenine, and free tryptophan. These data suggest that direct involvement of the intrinsic protein tryptophans in the photochemical processes leading to formation of fluorescent compounds has to be excluded. Free tryptophan and intrinsic metabolic factors are probably more relevant in determining the cataractous insult.
Abstract: Dynamic aspects of the heme-binding site of myoglobins derived from two phylogenetically distant species, namely sperm whale and bluefin tuna, have been investigated by studying steady-state and time-resolved emission properties of 2-p-toluidinyl-6-naphthalene sulfonic acid (TNS) apomyoglobin conjugates. Multi-frequency phase and modulation fluorometry data indicate that charge movements occur in the fluorophore environment during the excited state lifetime in the sperm whale myoglobin system. In the case of the bluefin tuna myoglobin TNS adduct these movements were not detected, indicating that the relaxation processes differ in the two types of myoglobins.
Abstract: The effects of denaturants on the solvent accessibility to tyrosyl residues of apomyoglobin have been examined by means of second-derivative spectroscopy in the near-ultraviolet. Three apomyoglobins, i.e., sperm whale, horse, and tuna, were selected because of the different distribution of tyrosyl residues in their primary structure. The results are consistent with the occurrence of two independent consecutive events in the guanidine-induced denaturation pattern of apomyoglobin. The first event, which is responsible for the lack of the ability to bind the heme, has been proved to involve conformational changes in both the domains, i.e., segments 1-79 and 80-153, identified in the myoglobin molecule. However, the conformational changes are not of the same type. In fact, the solvent accessibility to tyrosine HC2 is increased probably because of a partial unfolding of the 80-153 domain. Conversely, the solvent accessibility to tyrosine B2 is decreased, thus indicating that a refolding occurs in some region of the N-terminal moiety (1-79 domain) of the molecule.
Abstract: Unlike testosterone propionate and norandrostenolone decanoate, some new androstane derivatives did not cause any weight increase of the levator ani muscle and of the seminal vesicles in castrated rats. Actually, these new androsterone derivatives, characterized by the presence of a carboxyl group in the position 2 and a hydroxyl group in the 11 alpha or beta position, have entirely lost their affinity for the androgenic receptors of the prostate and of the skeletal muscles.
Abstract: The guanidine-induced unfolding of myoglobin as well as apomyoglobin has been found to involve the occurrence of at least a molecular intermediate observed at low denaturant concentrations, the molecular properties of which resemble those possessed by the acid-denatured form of the protein. The two partially unfolded forms show the same secondary structure and similar tryptophanyl fluorescence emission and polarization but exhibit marked differences in the tyrosine contributions to the near-ultraviolet circular dichroism and in the degree of solvent accessibility to tyrosyl residues. The molecular characterization of the two structural forms indicates that acids disorganize the 80-146 molecular domain identified in the myoglobin molecule to a great extent with respect to that induced by low guanidine concentration, whereas the structure of the 1-79 domain appears to be quite similar in the two molecular forms.
Abstract: The effects of heme removal on the molecular structure of tuna and sperm whale myoglobin have been investigated by comparing the solvent accessibility to the heme pocket of the two proteins with that of the corresponding apoproteins. Although the heme microenvironment of tuna myoglobin is more polar than that of sperm whale myoglobin, the accessibility of solvent to heme is identical in the two proteins as revealed by thermal perturbation of Soret absorption. The removal of heme produces loss of helical folding and increase of solvent accessibility but the effects are rather different for the two proteins. More precisely, the loss of helical structure upon heme removal is 50% for tuna myoglobin and 15% for sperm whale myoglobin; moreover, the solvent accessibility of the heme pocket of tuna apomyoglobin is 2-3-fold greater than that of sperm whale apomyoglobin. These results have been explained in terms of the lack of helical folding in segment D, the structural organization of which may have a relevant effect in regulating the accessibility of ligands to the heme. The effects produced by charged quenchers reveal that the ligand path from the surface of the molecule to the ion atom of the heme involves a positively charged residue which may reasonably be identified as Arg-45 (sperm whale myoglobin) or Lys-41 (tuna myoglobin) on the basis of recent X-ray crystallographic information.
Abstract: The accessibility of the heme binding site of two apomyoglobins, i.e. tuna and sperm whale apomyoglobin, has been evaluated by quenching the fluorescence of their ANS-conjugates. The quenching pattern obtained by using charged and uncharged quenchers revealed that the heme pocket of tuna apomyoglobin is more accessible than that of sperm whale. Moreover, a larger number of positively charged groups is present in the heme pocket of tuna apomyoglobin as indicated by comparing the extent of quenching produced by iodide and cesium ion. The relaxation time of ANS bound to tuna apomyoglobin is lower than that of the same chromophore bound to sperm whale globin thus indicating that there is some localized flexibility in the tuna globin.
Abstract: The mutual interference between the second-derivative bands of tyrosine and tryptophan in proteins has been evaluated in terms of the ratio r between two peak to peak distances. The r values have been found to be not only related to the tyrosine/tryptophan ratio but also dependent on the polarity of the medium in which tyrosyl residues are embedded. The results obtained on purified proteins have been found consistent with the available X-ray information and with the existing solvent perturbation data.
Abstract: The free energy of unfolding of several myoglobins from different animal species has been determined from their denaturation pattern by using the ligand binding model. The results indicate that no simple correlation exists between the free energy of unfolding of myoglobin and the basal metabolic rate of the animal species from which the myoglobin was isolated.
Abstract: The heart ventricle myoglobin of bluefin tuna has been purified to an apparent homogeneity. The amino acid analysis has revealed only a limited number of substitutions between the myoglobins of yellowfin and bluefin tuna. The alpha-helix content of tuna myoglobin has been found considerably lower than that of mammalian myoglobin. No correlation has been discovered between the conformational stability and alpha-helix content. Denaturation experiments have shown that the whole structure of tuna myoglobin results from the interaction of two structural units which represent the product of independent folding processes. The structure of tuna myoglobin has been found more open and disorganized than that of sperm whale. This result has been related to the low content of electrostatic interactions and explained in terms of evolutive adaptations.
Abstract: The free energy of unfolding of horse myoglobin has been calculated from the denaturation pattern induced by guanidine hydrochloride as well as by acid. The delta GH2O, i.e., the value in the absence of denaturant obtained by using the two-state transition model, was found to be 25% lower than that determined from the acid denaturation pattern, i.e., 12.0 kcal/mol, although the extent of protein denaturation produced by acid was much lower. The amount of helical structure surviving the acid-induced conformational change was estimated to be 50% of that present in the native protein, and it could be destroyed only after exposure of myoglobin samples kept at pH 3.0 to concentrated guanidine. From the guanidine denaturation pattern at acidic pH, a further variation of free energy of unfolding of 5.5 kcal/mol could be calculated, thus indicating that the overall free energy of unfolding determined from the two consecutive processes corresponds to 17.5 kcal/mol. The discrepancy between the two sets of data, i.e., guanidine unfolding at neutral pH and acid unfolding followed by addition of denaturant, has been considered to depend on the general assumption that the guanidine unfolding of myoglobin is a two-state process in the transition region. According to the recent experimental evidence showing the occurrence of at least two molecular events during the guanidine unfolding of apomyoglobin [Colonna, G., Balestrieri, C., Bismuto, E., Servillo, L., & Irace, G. (1982) Biochemistry 21, 212-215], the guanidine denaturation pattern of myoglobin was analyzed in terms of two independent steps.(ABSTRACT TRUNCATED AT 250 WORDS)
Abstract: The circular dichroic activity of tuna myoglobin in the far ultraviolet has been found to be lower than that of mammalian myoglobin, thus indicating a lower content of alpha-helix. Fluorescence and absorption studies have indicated that the structure of the N-terminal region of the molecule is essentially the same in all the examined apomyoglobins, whereas differences have been observed in the heme microenvironment. The prediction of secondary structure has revealed that the alpha-helical segments of tuna myoglobin, especially those involved in the formation of the heme pocket, are shorter than those of sperm whale myoglobin.
Abstract: The heme and cysteine microenvironments of bluefin tuna apomyoglobin have been investigated by examining the fluorescence properties of two extrinsic chromophores, i.e., ANS and 1,5-AEDANS. 1,5-AEDANS was covalently bound to the single cysteine residue found in the primary structure of tuna apomyoglobin. Recombination experiments with hemin showed that tuna apomyoglobin does not bind 1,5-AEDANS in the same binding site of the heme, although the fluorescence properties of the covalently bound 1,5-AEDANS strongly suggest that the dye is embedded in a rather nonpolar microenvironment. ANS was selected because of its ability to bind the apomyoglobin in the same nonpolar moiety of the heme. Acidification of apoMb--AEDANS to pH 3.0 produced an increase of 1,5-AEDANS fluorescence intensity and a shift of its emission maximum from 475 to 470 nm. In the same pH range apomyoglobin lost its ability to bind ANS. Two independent transitions were observed with increasing concentrations of guanidine. Low guanidine concentration (less than 1.0 M) unfolded the heme binding site as indicated by the disappearance of ANS fluorescence, whereas higher denaturant concentration was required to produce full normalization of 1,5-AEDANS emission spectrum.
Abstract: Indolamine N-methyltransferase (INMT) has been purified to an apparent homogeneity from rabbit lung, and some of its catalytic and physicochemical properties have been examined. The enzyme is a monomeric protein with a molecular weight of 31,500 +/- 1000, a molecular Stokes radius of 21.5 A, and a diffusion coefficient of 8.7 X 10(-7) cm2/s. The frictional ratio of the native enzyme (1.05) suggests that the shape of the molecule is nearly spherical. Denaturation experiments performed with increasing concentrations of guanidine hydrochloride (Gdn-HCl) at neural pH indicated that the active site of the enzyme was destroyed by a structural rearrangement of the protein molecule without large change in its size and shape. The final state reached in 6.0 M Gdn . HCl seemed to correspond to a disulfide cross-linked randomly coiled polypeptide. Full normalization of the fluorescent parameter was attained only in the presence of 0.1 M beta-mercaptoethanol. A structural rearrangement has been observed upon acidification of INMT from pH 7.0 to pH 2.0. At pH 4.5, most of the peptide backbone appeared to be unorganized, but further acidification to pH 2.0 produced a reorganization of protein structure which became able to bind 8-anilino-1-naphthalenesulfonate. The data support the hypothesis that the enzyme structure results from the close package of organized regions joined by structureless segments.
Abstract: The individual fluorescence of the two tryptophan residues (Trp-7 and Trp-14) of mammalian apomyoglobins has been resolved by comparing the fluorescence properties of these proteins to those of bluefin tuna apomyoglobin, which contains only Trp-14. The two tryptophan residues have been found to have different emission maxima, i.e., 321 for Trp-14 and 333 for Trp-7. The fluorescence of Trp-14 depends on the protonation of a sterically related histidyl residue in the pH range between 8.3 and 5.6, where no conformational change was detected. This residue has been identified as His-119. At pH 8.3 the quantum yield of Trp-7 is lower than that of Trp-14. An increase of the fluorescence intensity of Trp-7 occurs when the heme binding site of apomyoglobin is destroyed by acid or a low concentration of guanidine hydrochloride. An independent unfolding of the N-terminal district of the apomyoglobin molecular occurs on increasing the guanidine concentration. The two distinct structural transitions have been discussed in terms of two domains of tertiary structure.
Abstract: The molecular properties of cold-insoluble globulin have been investigated by velocity centrifugation, circular dichroism, and fluorescence at neutral and alkaline pH. The stability of the protein to thermal and guanidine hydrochloride has been evaluated under both conditions. The close parallelism between the properties of cold-insoluble globulin and those of the cell surface protein (fibronectin) serve to establish the essential identity of the structures of the two proteins derived from different sources. It is suggested that the cold-insoluble globulin is composed of several domains connected by flexible polypeptide segments. The large increase in the frictional ratio observed between pH 7.0 and 11.0 can be explained by an expansion of the flexible segments without significant change in the domains. These domains are stable to about 55 degrees C at pH 7.0 but only to about 40 degrees C at pH 11.0.
Abstract: The molecular structure of chick embryo fibroblast cell surface protein has been investigated by ultracentrifugation, circular dichroism, and fluorescence. Most measurements were restricted to alkaline solutions because of the limited solubility of this protein at more neutral pH values. A very high frictional ratio for the protein suggests an asymmetric structure. However, there are elements of organized structure since typical thermal transition curves were found by several methods. Consequently, a model in which ordered domains are connected by flexible polypeptide chains seems to account for all the hydrodynamic and optical data.
Abstract: 1. The heart ventricle myoglobin of Atlantic bluefin tuna has been purified and its amino acid composition has been determined. 2. The perturbing effect of guanidine hydrochloride on the molecular structure of tuna ferrimyoglobin and its corresponding apoprotein has been investigated by Soret absorbance and ultraviolet fluorescence. 3. The conformation-free energy of unfolding delta G0 has been calculated by thermodynamic treatments of the data concerning guanidine unfolding. 4. The results have been compared with other known myoglobins, particularly those of yellowfin tuna.
Abstract: The perturbing effect of guanidium hydrochloride and pH on the molecular structure of water buffalo apomyoglobin has been investigated by circular dichroism in the far and near ultraviolet and by fluorescence. In the wavelength region between 320 and 260 nm the circular dichroic spectrum of the globin is highly structured and the contributions of the aromatic chromophores have been resolved. Buffalo apomyoglobin undergoes a structural transition at neutral pH which involves elements of the secondary and tertiary structure, as indicated by changes of dichroic activity of the peptide and aromatic chromophores and the fluorescence of the two tryptophanyl residues. The possibility of charge-transfer complex between indole and imidazole is discussed. A major structural transition with abrupt unfolding takes place in the pH region between 5.6 and 4.3. Below pH 4.3 the peptide helical residues, which survive the acid transition, appear to be resistent to further acidification to pH 2.0 while tryptophanyl emission is quenched and shifted to longer wavelengths. A structural transition occurs also in alkali above pH 10, which has been detected by the same techniques. The relationships between buffalo and sperm whale apomyoglobin are discussed.
Abstract: Second derivative spectroscopy has been used to resolve the complex protein spectrum in the near-ultraviolet region and the contributions of the three aromatic chromophores have been evaluated. A method for the direct quantitative determination of phenylalanine and tryptophan in proteins has been carried out. Phenylalanine determination has been carried out in the spectral region between 250 and 265 nm, where there are no significant contributions from other aromatic chromophores. Tryptophan determination has been performed in the 290-295-nm region and the experimental values have been corrected for the presence of tyrosine. The results obtained on 10 highly purified proteins have been found in good agreement with those obtained from sequence analysis.
Abstract: The effects of several denaturants and detergents on the structure and stability of cell surface protein have been evaluated by circular dichroism and fluorescence measurements. Cell surface protein undergoes a single broad transition in both urea and guanidinium chloride. Although guanidinium chloride is twice as effective as urea on a molar basis, both appear to eliminate all of the organized structure present in the native molecule. Nonionic surfactants and lysolecithin have little effect on cell surface protein. However, sodium dodecyl sulfate increases the alpha helical content and cetyltrimethylammonium bromide increases the beta structure of cell surface protein. The reorganization of the polypeptide backbone requires the loss of certain restraints imposed by tertiary interactions as evidenced by a decrease in ellipticity in the far ultraviolet and in the polarization of tryptophanyl fluorescence. These results along with the data of a previous paper (Alexander, S. S., Jr., Colonna, G., Yamada, K. M., Pastan, I., and Edelhoch, H. (1978) J. Biol. Chem. 253, 5820--5824) suggest the presence of structural domains distributed along the flexible polypeptide chain of cell surface protein.
Abstract: The primary structure of fibrinopeptides A and B from buffaloes breeding in Italy has been determined with a view to establishing whether this animal is an autochthonous species or is the result of recent radiation mutation. Some differences exist at the morphologic and physiologic levels between the Indian buffalo and that breeding in Italy, But they do not allow a clear evolutionary line to be traced between these species. The amino acid sequences, if compared with homologous sequences of the Indian buffalo, show one difference in the most variable region of fibrino-peptides A, in particular the substitution of a serine residue by a glycine residue in position 8. This difference supports the hypothesis of the autochthonous origin of the Italian buffalo.
