以动物脏器——猪腰渣为原料提取氨基酸

<正> 利用本厂生产的废渣——猪腰渣为原料,提取精氨酸、组氨酸,余下的酸性氨基酸和中性氧基酸作为本厂产品的营养添加剂,是实验的主题。围绕这个题目,我们有两个实验方案:第一法,腰渣经酸水解浓缩减酸脱色后。以串接的大小二根732阳离子柱吸附全部氨基酸,根据氨基酸在柱上的色谱分布按区段分头洗脱,以缩短生产周期。用此法进行三批试验,得精氨酸收率为3.9%,2.1%,4.0%,组氨酸收率为0.4%和1%,从试验得率,讨论了水解完全后继续     

Conformation of amino acid residue contiguous to helical polypeptide

The calculation of the conformational energy of the terminal D - or L -alanine residue contiguous to an α-helical polypeptide, polyalanine, was made. Both L -and D -residues contiguous to the carboxyl terminal of α-helical poly(L -alanine) are considered to prefer the α-helical conformation due to the effect of the α-helical structure of the polymer. The residue at the amino terminal is found to be less affected by the α-helical structure of the polymer.     

An amino acid residue whose change by mutation affects drug binding to the HERG channel

We did the experiments to search for amino acids that affect quinidine binding to the HERG channel, and have identified an amino acid whose change by mutation affects the binding of various drugs. The residue is located at position 647 in the S6 and is not involved in the recently identified methanesulfonanilide binding pocket. The homology model of the HERG channel indicated that the residue faces toward the outside of the channel pore. We conclude that the residue at position 647 does not interact directly with drug molecules but plays an important role in keeping the binding site's high affinity for drugs.     

New scoring matrix for amino acid residue exchanges based on residue characteristic physical parameters

Based on residue characteristic physical parameters, a new scoring matrix, called EMPAR, for amino acid exchanges in proteins was obtained. When comparing protein sequences for detecting homologies, the use of this matrix in place of the Dayhoff log-odds matrix yields results that reflect the topological similarities in the proteins. The use of EMPAR is equivalent to the parametric correlates coefficient approach of Ooi and his colleagues. This matrix correlates at 0.63 with the Dayhoff matrix.     

Dependence of alpha-helical and beta-sheet amino acid propensities on the overall protein fold type

ABSTRACT: BACKGROUND: A large number of studies have been carried out to obtain amino acid propensities for alpha- helices and beta-sheets. The obtained propensities for alpha-helices are consistent with each other, and the pair-wise correlation coefficient is frequently high. On the other hand, the beta-sheet propensities obtained by several studies differed significantly, indicating that the context significantly affects beta-sheet propensity. RESULTS: We calculated amino acid propensities for alpha-helices and beta-sheets for 39 and 24 protein folds, respectively, and addressed whether they correlate with the fold. The propensities were also calculated for exposed and buried sites, respectively. Results showed that alpha-helix propensities do not differ significantly by fold, but beta-sheet propensities are diverse and depend on the fold. The propensities calculated for exposed sites and buried sites are similar for alpha-helix, but such is not the case for the beta-sheet propensities. We also found some fold dependence on amino acid frequency in beta-strands. Folds with a high Ser, Thr and Asn content at exposed sites in beta-strands tend to have a low Leu, Ile, Glu, Lys and Arg content (correlation coefficient = 0.90) and to have flat beta-sheets. At buried sites in beta-strands, the content of Tyr, Trp, Gln and Ser correlates negatively with the content of Val, Ile and Leu (correlation coefficient = 0.93). "All-beta" proteins tend to have a higher content of Tyr, Trp, Gln and Ser, whereas alpha/beta proteins tend to have a higher content of Val, Ile and Leu. CONCLUSIONS: The alpha-helix propensities are similar for all folds and for exposed and buried residues. However, beta-sheet propensities calculated for exposed residues differ from those for buried residues, indicating that the exposed-residue fraction is one of the major factors governing amino acid composition in beta-strands. Furthermore, the correlations we detected suggest that amino acid composition is related to folding properties such as the twist of a beta-strand or association between two beta sheets.     

Context-dependence of amino acid residue pairing in antiparallel beta-sheets.

In an effort to understand the driving forces behind antiparallel beta-sheet assembly, we have investigated the mutational tolerance of four pairs of residues in CspA, the major cold shock protein of E. coli. Two buried pairs and two exposed pairs of neighboring amino acids were separately randomized and the corresponding effects on protein stability were assessed using a protein expression screen. The thermal denaturation of a subset of the recovered proteins was measured by circular dichroism spectroscopy in order to determine the range of stabilities sampled by the expressed mutants. As anticipated, buried sites are substantially less tolerant of substitutions than exposed sites with more than half of the exposed residue combinations giving rise to stably folded proteins. The two exposed residue pairs, however, display different degrees of tolerance to substitution and accept different residue pair combinations. Except for the prohibition of proline from interior strand positions, no obvious correlations of mutant stability with any single parameter such as beta-sheet propensity or hydrophobicity can be detected. Mutant combinations recovered in both orientations (e.g. XY and YX) at a given exposed pair site often show markedly different stabilities, indicating that the local environment plays a substantial role in modulating the pairing preferences of residues in beta-sheets.     

Murine alpha-fetoprotein: N-terminal amino acid sequence and C-terminal residue.

We have purified to homogeneity murine alpha-fetoprotein (MAFP) and determined the amino acid sequence of the first twenty-four residues. The N-terminal sequence obtained shows a high degree of homology with human and rat AFP's, but not human or rat albumins. The C-terminal residue is the same as human and “slow” rat AFP, but different from the corresponding albumins. We conclude that the AFP's are derived from homologous genes which are at best distantly related to the ancestral gene for albumin. The single C-terminal residue and N-terminal sequence suggests that the multiple forms of MAFP observed by others are due to carbohydrate micro-heterogeneity.     

Method to protect a targeted amino acid residue during random mutagenesis

To generate a random mutant library that is free from mutation at a particular amino acid residue, we replace the codon of interest with a detachable, short DNA sequence containing a BsaXI recognition site. After PCR mutagenesis, this sequence is removed and intramolecular ligation of the sequences flanking the insert regenerates the gene. The three-base cohesive ends for ligation correspond to the codon for the targeted residue and any sequences with mutations at this site will fail to ligate. As a result, only the variants that are free from mutation at this site are in the proper reading frame. In a random library of C₃₀ carotenoid synthase CrtM, this method was used to exclude readily accessible mutations at position F26, which confer C₄₀ synthase function. This enabled us to identify two additional mutations, W38C and E180G, which confer the same phenotype but are present in the random library at much lower frequencies.     

Support Vector Machine-based classification of protein folds using the structural properties of amino acid residues and amino acid residue pairs

MOTIVATION: Fold recognition is a key step in the protein structure discovery process, especially when traditional sequence comparison methods fail to yield convincing structural homologies. Although many methods have been developed for protein fold recognition, their accuracies remain low. This can be attributed to insufficient exploitation of fold discriminatory features. RESULTS: We have developed a new method for protein fold recognition using structural information of amino acid residues and amino acid residue pairs. Since protein fold recognition can be treated as a protein fold classification problem, we have developed a Support Vector Machine (SVM) based classifier approach that uses secondary structural state and solvent accessibility state frequencies of amino acids and amino acid pairs as feature vectors. Among the individual properties examined secondary structural state frequencies of amino acids gave an overall accuracy of 65.2% for fold discrimination, which is better than the accuracy by any method reported so far in the literature. Combination of secondary structural state frequencies with solvent accessibility state frequencies of amino acids and amino acid pairs further improved the fold discrimination accuracy to more than 70%, which is approximately 8% higher than the best available method. In this study we have also tested, for the first time, an all-together multi-class method known as Crammer and Singer method for protein fold classification. Our studies reveal that the three multi-class classification methods, namely one versus all, one versus one and Crammer and Singer method, yield similar predictions. AVAILABILITY: Dataset and stand-alone program are available upon request.     

Predicting disease-associated substitution of a single amino acid by analyzing residue interactions

Background  

The rapid accumulation of data on non-synonymous single nucleotide polymorphisms (nsSNPs, also called SAPs) should allow us to further our understanding of the underlying disease-associated mechanisms. Here, we use complex networks to study the role of an amino acid in both local and global structures and determine the extent to which disease-associated and polymorphic SAPs differ in terms of their interactions to other residues.     

Constructing amino acid residue substitution classes maximally indicative of local protein structure

Using an information theoretic formalism, we optimize classes of amino acid substitution to be maximally indicative of local protein structure. Our statistically-derived classes are loosely identifiable with the heuristic constructions found in previously published work. However, while these other methods provide a more rigid idealization of physicochemically constrained residue substitution, our classes provide substantially more structural information with many fewer parameters. Moreover, these substitution classes are consistent with the paradigmatic view of the sequence-to-structure relationship in globular proteins which holds that the three-dimensional architecture is predominantly determined by the arrangement of hydrophobic and polar side chains with weak constraints on the actual amino acid identities. More specific constraints are imposed on the placement of prolines, glycines, and the charged residues. These substitution classes have been used in highly accurate predictions of residue solvent accessibility. They could also be used in the identification of homologous proteins, the construction and refinement of multiple sequence alignments, and as a means of condensing and codifying the information in multiple sequence alignments for secondary structure prediction and tertiary fold recognition. © 1996 Wiley-Liss, Inc.     

Tuning the biological properties of amphipathic alpha-helical antimicrobial peptides: rational use of minimal amino acid substitutions

In nature, alpha-helical antimicrobial peptides present the small and flexible residue glycine at positions 7 or 14 with a significant frequency. Based on the sequence of the non-proteinogenic alpha-helical model peptide P1(Aib7), with a potent, broad spectrum antimicrobial activity, six peptides were designed by effecting a single amino acid substitution to investigate how tuning the structural characteristics at position 7 could lead to optimization of selectivity without affecting antimicrobial activity against a broad panel of multidrug resistant bacterial and yeast indicator strains. The relationship between structural features (size/hydrophobicity of the side chain as well as conformation and flexibility) and biological activity, in terms of minimum inhibitory concentration, membrane permeabilization kinetics and lysis of red blood cells are discussed. On conversion of the peptide to proteinogenic residues, these principles allowed development of a potent antimicrobial peptide with a reduced cytotoxicity. However, while results suggest that both hydrophobicity of residue 7 and chain flexibility at this position can be modulated to improve selectivity, position 14 is less tolerant of substitutions.     

An amino acid residue (S201) in the retinal binding pocket regulates the photoreaction pathway of phoborhodopsin

Phoborhodopsin from Halobacterium salinarum (salinarum phoborhodopsin, spR also called HsSR II) is a photoreceptor for the negative phototaxis of the bacterium. A unique feature of spR is the formation of a shorter wavelength photoproduct, P480, observed at liquid nitrogen temperature beside the K intermediate. Formation of similar photoproduct has not been reported in the other microbial rhodopsins. This photoproduct showed its maximum absorbance wavelength (λ(max)) at 482 nm and can thermally revert back to spR above -160 °C. It was revealed that P480 is a photoproduct of K intermediate by combination of an irradiation and warming experiment. Fourier transform infrared (FTIR) difference spectrum of P480 from spR in C-C stretching vibration region showed similar features with that of K intermediate, suggesting that P480 has a 13-cis-retinal chromophore. The appearance of a broad positive band at 1214 cm(-1) in the P480-spR spectrum suggested that configuration around C9═C10 likely be different between P480 and K intermediate. Vibrational bands in HOOP region (1035 to 900 cm(-1)) suggested that the chromophore distortion in K intermediate was largely relaxed in P480. The amount of P480 formed by the irradiation was greatly decreased by amino acid replacement of S201 with T, suggesting S201 was involved in the formation of P480. According to the crystal structure of pharaonis phoborhodopsin (ppR), a homologue of spR found in Natronomonas pharaonis, S201 should locate near the C14 of retinal chromophore. Thus, the interaction between S201 and C14 might be the main factor affecting formation of P480.     

An essential arginine residue in human prostatic acid phosphatase

Treatment of human prostatic acid phosphatase (orthophosphoric-monoester phosphohydrolase (acid optimum), EC 3.1.3.2) with either of the arginine-specific modifiers 2,3-butanedione or 1,2-cyclohexanedione in borate buffer at pH 8.1 leads to loss of activity. The inactivation by cyclohexanedione can be partially reversed by 0.2 M hydroxylamine. The rate of inactivation by both modifiers is decreased in the presence of the competitive inhibitors L-(+)-tartrate or inorganic phosphate but not in the presence of the non-inhibitor D-(-)-tartrate. Amino acid analysis of modified acid phosphatase indicates that only arginines are modified and that L-(+)-tartrate protects at least two arginyl residues from modification. A likely role of these arginyl residues is their involvement in binding the negatively charged phosphate group of the substrate.     

New amino acid residue type identification experiments valid for protonated and deuterated proteins

Two experiments are presented that yield amino acid type identification of individual residues in a protein by editing the ¹H?C¹⁵N correlations into four different 2D subspectra, each corresponding to a different amino acid type class, and that can be applied to deuterated proteins. One experiment provides information on the amino acid type of the residue preceding the detected amide ¹H?C¹⁵N correlation, while the other gives information on the type of its own residue. Versions for protonated proteins are also presented, and in this case it is possible to classify the residues into six different classes. Both sequential and intraresidue experiments provide highly complementary information, greatly facilitating the assignment of protein resonances. The experiments will also assist in transferring the assignment of a protein to the spectra obtained under different experimental conditions (e.g. temperature, pH, presence of ligands, cofactors, etc.).     

Structural transition of a 15 amino acid residue peptide induced by GM1

The ganglioside GM1-binding peptide, p3, with a sequence of VWRLLAPPFSNRLLP, displayed a clear structural alteration depending on the presence or absence of GM1 micelles. The three-dimensional structures of the p3 peptide in the free and GM1 bound states were analyzed using two-dimensional NMR spectroscopic experiments with distance-restrained simulated annealing calculations. The NMR experiments for the p3 peptide alone indicated that the peptide has two conformers derived from the exchange of cis and trans forms at Pro(7)-Pro(8). Further study with theoretical modeling revealed that the p3 peptide has a curb conformation without regular secondary structure. On the other hand, the NMR studies for the p3 peptide with the GM1 micelles elucidated a trans conformer and gave a structure stabilized by hydrophobic interactions of beta- and helical turns. Based on these structural investigations, tryptophan, a core residue of the hydrophobic cluster, might be an essential residue for the recognition of the GM1 saccharides. The dynamic transition of the p3 peptide may play an important role in the function of GM1 as a multiple receptor as in the traditional pathway of the infection by cholera toxin.     

Effect of constituting amino acid residue numbers on molecularly imprinted chiral recognition sites

In the present study, the effect of constituting amino acid residue numbers of oligopeptide derivatives, which are candidate materials to construct molecular recognition sites, on chiral recognition ability was investigated. Chiral recognition sites were formed from oligopeptide derivatives, of which constituting amino acid residue numbers were three to six, by adopting an alternative molecular imprinting. It was made clear that the number four, in other words, the tetrapeptide derivative, is the best candidate material to form a chiral recognition site.     

A single residue in leucyl-tRNA synthetase affecting amino acid specificity and tRNA aminoacylation

Human mitochondrial leucyl-tRNA synthetase (hs mt LeuRS) achieves high aminoacylation fidelity without a functional editing active site, representing a rare example of a class I aminoacyl-tRNA synthetase (aaRS) that does not proofread its products. Previous studies demonstrated that the enzyme achieves high selectivity by using a more specific synthetic active site that is not prone to errors under physiological conditions. Interestingly, the synthetic active site of hs mt LeuRS displays a high degree of homology with prokaryotic, lower eukaryotic, and other mitochondrial LeuRSs that are less specific. However, there is one residue that differs between hs mt and Escherichia coli LeuRSs located on a flexible closing loop near the signature KMSKS motif. Here we describe studies indicating that this particular residue (K600 in hs mt LeuRS and L570 in E. coli LeuRS) strongly impacts aminoacylation in two ways: it affects both amino acid discrimination and transfer RNA (tRNA) binding. While this residue may not be in direct contact with the amino acid or tRNA substrate, substitutions of this position in both enzymes lead to altered catalytic efficiency and perturbations to the discrimination of leucine and isoleucine. In addition, tRNA recognition and aminoacylation is affected. These findings indicate that the conformation of the synthetic active site, modulated by this residue, may be coupled to specificity and provide new insights into the origins of selectivity without editing.