Somatic cell variants of H-2k: b: A point mutation in the first extracellular domain results in altered immune recognition

A cell-surface-associated variant H-2K product was expressed by an Abelson virus-induced pre-B-cell line after chemical mutagenesis with ethyl methane sulfonate. The variant cell line (R8.313) was previously demonstrated to have altered allodeterminants in K^b as demonstrated by both K^b-specific monoclonal antibody binding and alloreactive cytotoxic T lymphocyte (CTL) cytolysis. The mutant H-2K ^b gene from R8.313 was cloned and characterized in detail. DNA sequence analysis of the region of the gene corresponding to the three extracellular domains identified a single point mutation resulting in a leucine-to-phenylalanine substitution at amino acid residue 82. The site of mutation within the 1 domain was confirmed by oligonucleotide hybridization analysis. Mouse L-cell fibroblasts transfected with the mutant gene were recognized with the same monoclonal antibody binding and CTL lytic pattern as the R8.313 cell line, confirming that the altered phenotype of the mutant cell line was due to a point mutation in the H-2K ^b gene. These data further extend the hypothesis that the region of amino acid residues 70–90 in the 1 domain is important in the formation of both antibody and CTL-defined recognition structures on major histocompatibility complex class I molecules.     

Spectrin αIIa variant in dominant and non-dominant spherocytosis

Several polymorphic mutations are located on the spectrin -chain; among these the variant termed IIa is characterized by an acid shift in the isoelectric point of the tryptic digest peptides 46 kDa and 35 kDa. In this variant a single amino acid substitution (alanine to aspartic acid) occured at position 972 of the spectrin -chain due to a point mutation (GCT to GAT) in the DNA. This variant, which seemed very rare in normal people, could be related to the recessive form of hereditary spherocytosis (HS) and could be absent in the dominant form of the disease. We have studied the IIa variant by denaturing electrophoresis of the spectrin tryptic digest peptides from 179 subjects: 46 controls, 78 patients with dominant (d) or non dominant (nd) HS and 55 relatives of the patients. The confirmation of the results was obtained at the DNA level in 41 subjects. The frequency of the chromosome bearing the IIa mutation was 7.6% in controls and higher (about 12–14%) in members of families with dHS as well ndHS. However, the family trees clearly showed that the mutation and the HS disease gene(s) were located on different chromosomes and inherited independently from each other. Furthermore, our study allows the conclusion that in most (if not all) cases of dHS, the IIa the variant is not the cause, is not a marker, and does not influence the phenotypic expression of the disease.     

Diverse polymorphism within a short coding region of the human aldehyde dehydrogenase-5 (ALDH5) gene

Human aldehyde dehydrogenase-5 gene (originally named as ALDHX) is expressed in liver and testis. The ALDH5 does not contain introns in the coding sequence for 517 amino acid residues. Within a short nucleotide region of the gene, the following three nucleotide changes were found in high frequencies, i.e., a silent CT at nucleotide (nt) 183, CT at nt 257 associated with a ValAla substitution, and TG at nt 320 associated with a ArgLeu substitution. The frequency of C at nt 183 is 81% in Caucasians and 65% in Japanese, and the difference is statistically not significant. The frequency of C at nt 257 is 76% in Caucasians and 55% in Japanese, and the difference is statistically significant (P = 0.02). The frequency of T at nt 320 is 71% in Caucasians, while it is only 27% in Japanese. The racial difference at nt 320 is highly significant (P < 0.001). No significant difference was found in the genotypes of the three nucleotide positions between alcoholic and nonalcoholic Caucasians within the limited numbers of subjects examined.     

An HLA-A2 population variant with structural polymorphism in the α3 region

The HLA-A2 antigen expressed by donor OZB can be distinguished from the main HLA-A2.1 subtype by isoelectric focusing - it is one charge unit more acidic — and by some alloreactive T-cell clones but not by cytolytic T lymphocyte lines. The structure of variant OZB has been examined by comparative peptide mapping with A2.1 and radiochemical sequence analysis. The two molecules were found to differ in a single tryptic peptide from the 0 region, spanning residues 220–243. The amino acid sequence of this peptide from variant OZB revealed that there was only one amino acid change of Glu instead of Ala at position 236, a hitherto invariant residue in class I HLA antigens. All previously characterized HLA or H-2 natural variants have structural changes restricted to the 1 and/or 2 domains. Thus, variant OZB is unique in that (1) it has one amino acid change in 3 and (2) it has no changes in l and 2. The only detected substitution of this variant may be accounted for by a single base change at the DNA level, suggesting that it might have resulted from a point mutation in the A2.1 gene. The structural features of variant OZB open a novel way to examine the influence of polymorphism in 3 on cytolytic T-cell recognition of naturally occurring class I antigens.Abbreviations CTL cytolytic T lymphocytes - HPLC high performance liquid chromatography - IEF isoelectric focusing - MHC major histocompatibility complex     

Sheep haemoglobin i or β b13(a10)gly → ser: an example of a cpg mutation in vertebrates. Characterization using fab-mass spectrometry and amino acid sequencing

• 1.1. The amino acid substitution which characterizes the haemoglobin I variant from sheep has been ascertained using a combination of Fast Atom Bombardment mass spectrometry and protein sequencing.
• 2.2. A Ser for Gly substitution at position 13 (10 of the A helix) was found in a polypeptide with the overall sequence of the β^B globin.
• 3.3. On the basis of the nucleotide sequence of the β^B-globin gene, a C to T transition occurring on a CpG doublet is considered to be responsible for the amino acid substitution.
• 4.4. This represents the first observation of a variant sheep Hb due to a mutation which is rather common in the human genome.
• 5.5. Amongst ruminants, serine is normally present at position 13 of goat and sheep ε¹¹ and γ chains and of bovine γ chain which had an independent and more ancient evolutionary origin than the β chains.

     

Conformational effects in the p53 protein of mutations induced during chemical carcinogenesis: Molecular dynamic and immunologic analyses

The tumor suppressor gene p53 has been identified as the most frequent target of genetic alterations in human cancers. Vinyl chloride, a known human carcinogen that induces the rare sentinel neoplasm angiosarcoma of the liver, has been associated with specific A T transversions at the first base of codons 249 and 255 of the p53 gene. These mutations result in an ArgTrp amino acid substitution at residue 249 and an IlePhe amino acid substitution at residue 255 in a highly conserved region in the DNA-binding core domain of the p53 protein. To determine the effects of these substitutions on the three-dimensional structure of the p53 protein, we have performed molecular dynamics calculations on this core domain of the wild-type and the Trp-249 and Phe-255 mutants to compute the average structures of each of the three forms. Comparisons of the computed average structures show that both mutants differ substantially from the wild-type structure in certain common, discrete regions. One of these regions (residues 204–217) contains the epitope for the monoclonal antibody PAb240, which is concealed in the wild-type structure but accessible in both mutant structures. In order to confirm this conformational shift, tumor tissue and serum from vinyl chloride-exposed individuals with angiosarcomas of the liver were examined by immunohistochemistry and enzyme-linked immunosorbent assay. Individuals with tumors that contained the p53 mutations were found to have detectable mutant p53 protein in their tumor tissue and serum, whereas individuals with tumors without mutations and normal controls did not.     

Resonant recognition model of neuropeptide Y family: hot spot amino acid distribution in the sequences

The resonant recognition model is used to predict structurally and functionally important amino acid residues (so-called hot spots) in the neuropeptide Y (NPY) family. Thirty-three polypeptides belong to this family. All of them consist of 36 amino acids. The model predicts that residues 10 and 28 in the polypeptides are hot spots. In the 33 polypeptides, most of the amino acids at residue 10 are acidic amino acids, glutamic acid and aspartic acid. Other minor amino acids, serine, glycine, and proline, have high probabilities of -turn occurrence. Amino acids at residue 28 are all branched hydrophobic amino acids, isoleucine, leucine, and valine. The profile for predicting hot spots indicates repeating patterns of residues 1–18 and residues 19–36. Absolute values at residue i and residue i + 18 are the same, but these residues have opposite signs. Therefore the model of the NPY family predicts hot spots concerning a combination of residue i and residue i + 18.     

Molecular heterogeneity underlying the G6PD Mediterranean phenotype

Summary As part of a study aiming to define the molecular basis of glucose-6-phosphate dehydrogenase (G6PD) deficiency, we analysed a sample from a Portugese boy with a family history of favism. Although the biochemical properties of red-cell G6PD from this subject were similar to those of the common variant G6PD Mediterranean, the corresponding mutation (563 CT) was not present. Instead, polymerase chain reaction (PCR) amplification and sequencing of the entire gene detected a CT transition at nucleotide 592 in exon VI, changing an arginine residue to a cysteine residue only 10 amino acids downstream from the Mediterranean mutation. Single-strand conformation polymorphism analysis of a PCR-amplified DNA fragment spanning exons VI and VII of the G6PD gene has detected the same mutation, confirmed by sequencing, in a G6PD-deficient patient from Southern Italy. We name this new variant G6PD Coimbra.     

Site-directed mutagenesis of Aspergillus niger NRRL 3135 phytase at residue 300 to enhance catalysis at pH 4.0

Increased phytase activity for Aspergillus niger NRRL 3135 phytaseA (phyA) at intermediate pH levels (3.0-5.0) was achieved by site-directed mutagenesis of its gene at amino acid residue 300. A single mutation, K300E, resulted in an increase of the hydrolysis of phytic acid of 56% and 19% at pH 4.0 and 5.0, respectively, at 37 degrees C. This amino acid residue has previously been identified as part of the substrate specificity site for phyA and a comparison of the amino acid sequences of other cloned fungal phytases indicated a correlation between a charged residue at this position and high specific activity for phytic acid hydrolysis. The substitution at this residue by either another basic (R), uncharged (T), or acidic amino acid (D) did not yield a recombinant enzyme with the same favorable properties. Therefore, we conclude that this residue is not only important for the catalytic function of phyA, but also essential for imparting a favorable pH environment for catalysis.     

Allelic variation in HLA-B and HLA-C sequences and the evolution of the HLA-B alleles

Several new HLA-B (B8, B51, Bw62)- and HLA-C (Cw6, Cw7)-specific genes were isolated either as genomic cosmid or cDNA clones to study the diversity of HLA antigens. The allele specificities were identified by sequence analysis in comparison with published HLA-B and -C sequences, by transfection experiments, and Southern and northern blot analysis using oligonucleotide probes. Comparison of the classical HLA-A, -B, and -C sequences reveals that allele-specific substitutions seem to be rare events. HLA-B51 codes only for one allelespecific residue: arginine at position 81 located on the 1 helix, pointing toward the antigen binding site. HLA-B8 contains an acidic substitution in amino acid position 9 on the first central sheet which might affect antigen binding capacity, perhaps in combination with the rare replacement at position 67 (F) on the ul helix. HLA-B8 shows greatest homology to HLA-Bw42, -Bw41, -B7, and-Bw60 antigens, all of which lack the conserved restriction sites Pst I at position 180 and Sac I at position 131. Both sites associated with amino acid replacements seem to be genetic markers of an evolutionary split of the HLA-B alleles, which is also observed in the leader sequences. HLA-Cw7 shows 98% sequence identity to the JY328 gene. In general, the HLA-C alleles display lower levels of variability in the highly polymorphic regions of the 1 and 2 domains, and have more distinct patterns of locus-specific residues in the transmembrane and cytoplasmic domains. Thus we propose a more recent origin for the HLA-C locus.     

The rates of evolution in some ribosomal components

Summary The rate of nucleotide substitution (k(nuc)) of 5s RNA was estimated to be (1.8 ± 0.5) × 10^–10 per site per year by comparing the nucleotide sequences of human andXenopus 5s RNA and using the geological time elapsed since the separation of mammals and amphibians. Similarly, k(nuc) of 5.8s rRNA was calculated to be 0.93 – 1.4 × 10^–10 per site per year from the sequences of rat hepatoma cells andSaccharomyces cerevisiae. For the comparison of these data with the amino acid substitution rate of known proteins, the k(nuc) values of 5s rRNA and 5.8s rRNA were converted to the rate of amino acid substitution (k(aa)). The k(aa) values in pauling units were 0.4 and 0.2 – 0.3, respectively.The average k(aa) of ribosomal proteins was also estimated to be 0.2 – 0.3 pauling from the N-terminal amino acid sequences of seventeen 30s ribosomal proteins ofBacillus stearothermophilus andEscherichia coli. Thus, the evolutionary rates of these ribosomal components studied here are similar to each other; they are considerably slower than that of the known cellular proteins. Most, if not all, of the replacements in ribosomal proteins occurred between amino acids of a chemically similar nature.     

Nucleotide sequence of a spectinomycin adenyltransferase AAD(9) determinant from Staphylococcus aureus and its relationship to AAD(3") (9)

Summary The nucleotide sequence of the spc determinant of the Staphylococcus aureus transposon Tn554 has been determined. This gene encodes a spectinomycin adenyltransferase, AAD(9), that mediates resistance to spectinomycin but not to streptomycin. The sequence predicts a 260 amino acid protein of molecular weight 28,943. A spectinomycin-sensitive mutant (spc-1) contains a GA transition resulting in substitution of threonine (ACA) for alanine (GCA) at residue 165. The predicted amino acid sequence is 36% homologous to that of a widely distributed, gramnegative streptomycin/spectinomycin adenyltransferase, AAD(3) (9), specified by the aadA determinant (Holingshead and Vapnek 1985).     

Human triosephosphate isomerase: Substitution of Arg for Gly at position 122 in a thermolabile electromorph variant,TPI-Manchester

Summary Denaturing gradient gel electrophoreses of polymerase chain reaction amplified DNA products and subsequent direct sequencing identified a G-to-A transition causing a replacement of Gly 122 with Arg in an electrophoretic mobility variant of human triosephosphate isomerase, TPI-Manchester. This was the only TPI electromorph variant detected in screening of > 3,400 humans in an Ann Arbor, Mich. population. This substitution is at the amino terminus or solvent interaction end of the fifth sheet of the / barrel structure. The TPI-Manchester variant is á thermolabile enzyme, but the stability of the variant enzyme is not sensitive to other denaturants. This amino acid substitution does not involve residues of the active site and does not detectably alter the kinetic properties of the enzyme. The data provide additional insight into the amino acid residues that are important for the maintenance of the structural characteristics of this very evolutionary constrained protein.     

Nucleotide sequence of the chloroplast gene responsible for triazine resistance in canola

Summary The nucleotide sequence for the psbA gene from a triazine resistant cultivar of B. napus (cv Triton) has been determined. This gene encodes an open reading frame of 353 amino acids that is highly homologous to other higher plant psbA genes at both the nucleotide and amino acid levels. As has been found for other triazine resistant psbA genes, the Triton psbA contains an A to G nucleotide change which results in a serine to glycine amino acid substitution at position 264. The B. napus psbA gene also has a G insertion at position –9 resulting in a ribosome binding site sequence (AGGA) just before the initial methionine and suggesting that the entire open reading frame is translated. A large (72 bp) insertion is also found upstream of the B. napus psbA gene which resembles a similar insertion in the mustard psbA. The uncloneable nature of the entire gene is further investigated through reconstruction experiments and the implications discussed.     

A new XmnI polymorphism in the regulatory region of the corticotropin releasing hormone gene

We describe the first polymorphism in the 5 flanking region of the corticotropin releasing hormone (CRH) gene. DNA sequencing analysis identified a T G base substitution in the 5 flanking region of the gene. This substitution leads to the loss of anXmnI site at position 255 of the Genbank entry X67661. The frequency analysis in 32 Caucasians revealed that it is a rare polymorphism, with only three observed heterozygous individiuals for this polymorphism.     

Disruption of the 290-342 salt bridge is not responsible for the secretory defect of the PiZ alpha 1-antitrypsin variant

Crystallographic studies have previously suggested that Lys290 forms a salt bridge with Glu342 in the serine protease inhibitor alpha 1-antitrypsin. Disruption of the formation of this structural feature by a Glu to Lys substitution at residue 342 in the PiZ variant has been implicated in causing the defective secretion of this mutant protein from hepatocytes (10-15% of normal). To test the validity of this hypothesis, mutant human alpha 1-antitrypsin cDNA constructs coding for specific amino acid substitutions at residues 290 and 342 were generated and the corresponding mutant proteins were expressed in mouse hepatoma cells. When the potential to form the salt bridge was reestablished by a Lys290 to Glu290 substitution in the PiZ variant, its secretion was increased to only 38% of normal. Furthermore, disruption of this structural feature by a Lys290 to Glu290 substitution in the normal inhibitor failed to reduce the secretion of alpha 1-antitrypsin to the extent observed for the PiZ variant (73% of normal). Finally, substitution of the neutral amino acid Gln at residue 342 only reduced the secretion of alpha 1-antitrypsin to 55% of normal. Of all mutant proteins tested, those bearing Lys at position 342 were secreted at the lowest levels. These findings demonstrate that although disruption of the 290-342 salt bridge does affect the secretion of alpha 1-antitrypsin, it is the substitution of Lys at residue 342 that causes the dramatic secretory defect of the PiZ variant.     

Hemoglobin tilburg: α2-ß2 73 (E 17) Asp→Gly: A new hemoglobin with reduced oxygen affinity

A new hemoglobin variant has been found in a Dutch Caucasian girl and detected also in members of three generations of her family. This variant is characterized by the substitution of an aspartic acid at position 73 (E 17) of the ß-chain with a glycine residue. Hemoglobin Tilburg makes up to 42% of the total hemoglobin in the blood of the proposita, it is stable at the isopropanol test, and not associated with significant hematological abnormalities in heterozygous carriers. The oxygen dissociation curve of the purified variant, carried out at different pH values, shows a definite reduction of the affinity for oxygen and a normal alkaline Bohr effect. Three more hemoglobins with a single amino acid substitution at the same site have been previously described: Hb Korle-Bu (Asp→Asn), Hb Mobile (Asp→Val) and Hb Vancouver (Asp→Tyr). In all these proteins the affinity for oxygen is lowered to an extent which is variable and characteristic of each mutant. In this paper we discuss the possible mechanism responsible for the abnormal behaviour of hemoglobins substituted at ß 73.     

Specific recognition of DNA by integration host factor. Glutamic acid 44 of the beta-subunit specifies the discrimination of a T:A from an A:T base pair without directly contacting the DNA

Integration host factor (IHF) is a protein that binds to the H' site of bacteriophage lambda with sequence specificity. Genetic experiments implicated amino acid residue Glu(44) of the beta-subunit of IHF in discrimination against substitution of A for T at position 44 of the TTR submotif of the binding site (Lee, E. C., Hales, L. M., Gumport, R. I., Gardner, J. F. (1992) EMBO J., 11, 305-313). We have extended this observation by generating all possible single-base substitutions at positions 43, 44, and 45 of the H' site. IHF failed to bind these H' site substitution mutants in vivo. The K(d)(app) value for each H' site substitution, except for H'45A mutant, was reduced >2000-fold relative to the wild-type site. Substitution of amino acid beta-Glu(44) with alanine prevented IHF from discriminating against the H'44A variant but not the other H' site substitution mutants. Further analysis with other substitutions at position beta44 demonstrated that both oxygens of the wild-type glutamic acid are necessary for discrimination of AT at position 44. Because the beta-Glu(44) residue does not contact the DNA, this residue probably enforces binding specificity indirectly through interaction with amino acids that themselves contact the DNA.     

Hemoglobin Tilburg: alpha 2-beta 2 73 (E 17) Asp----Gly. A new hemoglobin with reduced oxygen affinity

A new hemoglobin variant has been found in a Dutch Caucasian girl and detected also in members of three generations of her family. This variant is characterized by the substitution of an aspartic acid at position 73 (E 17) of the beta-chain with a glycine residue. Hemoglobin Tilburg makes up to 42% of the total hemoglobin in the blood of the proposita, it is stable at the isopropanol test, and not associated with significant hematological abnormalities in heterozygous carriers. The oxygen dissociation curve of the purified variant, carried out at different pH values, shows a definite reduction of the affinity for oxygen and a normal alkaline Bohr effect. Three more hemoglobins with a single amino acid substitution at the same site have been previously described: Hb Korle-Bu (Asp----Asn), Hb Mobile (Asp----Val) and Hb Vancouver (Asp----Tyr). In all these proteins the affinity for oxygen is lowered to an extent which is variable and characteristic of each mutant. In this paper we discuss the possible mechanism responsible for the abnormal behaviour of hemoglobins substituted at beta 73.     

Expression of a novel P275L variant of NADH:cytochrome b5 reductase gives functional insight into the conserved motif important for pyridine nucleotide binding

The clinical disorder of recessive congenital methemoglobinemia (RCM, OMIN 250800) is associated with mutations in NADH:cytochrome b5 reductase (cb5r) and manifests as cyanosis from birth. Screening a cyanotic infant indicated elevated methemoglobin levels and decreased cb5r activity suggesting RCM. Sequencing the DIA1 gene encoding cb5r revealed a novel mutation, C27161T (NCBI accession number: NT_011520), resulting in replacement of proline at amino acid 275 with leucine (P275L). To understand how this mutation would affect cb5r's function, the P275L variant was expressed in a heterologous expression system and spectroscopic, thermodynamic, and thermostability studies were performed. The leucine substitution at residue 275 was found to significantly decrease the affinity towards the physiological reducing substrate, NADH, without affecting the activity of the P275L variant. From the rat model, residue 275 is predicted to be part of a conserved "CGPPPM" motif important for the binding and correct positioning of the NADH reducing substrate. Thus P275 influences the interaction with NADH which was confirmed by the change in affinity towards the physiological reducing substrate.