Rare variants of Hb D Punjab, Hb O Arab and polymorphism of human hemoglobins

This report describes the occurrence, study and molecular diagnostics of 40 Hb O Arab beta 121 Glu Lys cases and 4 Hb D punjab beta 121 Glu Gln cases in Bulgaria. Hematological, morphological and clinical data for 12 patients with Hb O arab are listed. Among them we observed 7 simple heterozygotes for Hb O Arab/Hb A, two double heterozygotes-compounds for Hb O/beta+-thalassemia and three compounds for Hb O/beta 0-thalassemia (the latter assumed). Also, general hematological, morphological and clinical data are presented for 4 Hb D Punjab carriers, from which two are simple heterozygotes and two are assumed, as compounds for Hb D/beta 0-thalassemia. The consideration of heterozygosity, homozygosity for both abnormal hemoglobins and of the compound state of Hb O or Hb D/beta-thalassemia or HbS types let us suggest the relative neutrality of the variants and the limitation in their distribution, depending on genetic structure of populations, where they spread. It may be concluded that human hemoglobin is characterized by marked monomorphism. At the same time, the high frequency of HbS, HbE and HbC in some populations can be well explained by contemporary selectionism; the distribution of relatively neutral Hb D Punjab and Hb O Arab with some limitations can follow Kimura's neutralism concept.     

A worldwide population study of the Ag-system haplotypes, a genetic polymorphism of human low-density lipoprotein.

The aim of this investigation is to examine the distribution of the Ag immunological polymorphism in human populations on a worldwide scale and to look for possible explanations of this distribution in the field of modern human peopling history and Ag-system evolution. Extensive Ag-antigene typings were carried out on 13 human population samples, including sub-Saharan African, European, west and east Asiatic, Melanesian, Australian aborigine, and Amerindian groups. Complete Ag-haplotype frequencies were estimated by maximum-likelihood-score procedures, and the data were analyzed by genetic distance computations and principal coordinate projections. With the exception of the Amerindian sample, the Ag polymorphism is shown to be highly polymorphic in all the populations tested. Their genetic relationships appear to be closely correlated to their geographical distribution. This suggests that the Ag system has evolved as a neutral or nearly neutral polymorphism and that it is highly informative for modern human peopling history studies. From the worldwide Ag haplotypic distributions, a model for the Ag molecular structure is derived. According to this model and to the most recent results obtained from molecular data, the establishment of the Ag polymorphism could be explained by several mutations and recombination events between the haplotypes most frequently found in human populations today. As a conclusion, genetic and paleontological data suggest that the genetic structure of caucasoid populations (located from North Africa to India) may be the least differentiated from an ancestral genetic stock. Worldwide genetic differentiations are properly explained as the results of westward and eastward human migrations from a Near East-centered but undefined geographical area where modern humans may have originated. The importance of Ag polymorphism analyses for the reconstruction of human settlement history and origins is discussed in the light of the main conclusions of the most recent genetic polymorphism studies.     

Utilization of different methodologies for the characterization of Hb Hasharon heterozygotes

Hb Hasharon has an electrophoretic mobility similar to that of Hb S in cellulose acetate and a mobility between Hb S and C at acid pH. In high-performance liquid chromatography, Hb Hasharon shows a distinct chromatographic profile and retention time. The origin of this variant is a mutation in codon 47 (GAC --> CAC) of the alpha2-globin gene, resulting in the replacement of asparagine by histidine during the translation process. Ten blood samples from individuals suspected of being Hb Hasharon carriers were analyzed. In addition to classic laboratory tests and high-performance liquid chromatography, molecular analysis by polymerase chain reaction with restriction fragment length polymorphism designed in the laboratory was performed to confirm this mutation. The study of these cases showed that a combination of classical and molecular methodologies is necessary in the diagnosis of hemoglobinopathies for a correct hemoglobin mutant identification. The accurate identification of hemoglobin variants is essential for genetic counseling and choice of therapy.     

Departure from neutrality at the mitochondrial NADH dehydrogenase subunit 2 gene in humans,but not in chimpanzees.

To test whether patterns of mitochondrial DNA (mtDNA) variation are consistent with a neutral model of molecular evolution, nucleotide sequences were determined for the 1041 bp of the NADH dehydrogenase subunit 2 (ND2) gene in 20 geographically diverse humans and 20 common chimpanzees. Contingency tests of neutrality were performed using four mutational categories for the ND2 molecule: synonymous and nonsynonymous mutations in the transmembrane regions, and synonymous and nonsynonymous mutations in the surface regions. The following three topological mutational categories were also used: intraspecific tips, intraspecific interiors, and interspecific fixed differences. The analyses reveal a significantly greater number of nonsynonymous polymorphisms within human transmembrane regions than expected based on interspecific comparisons, and they are inconsistent with a neutral equilibrium model. This pattern of excess nonsynonymous polymorphism is not seen within chimpanzees. Statistical tests of neutrality, such as TAJIMA''s D test, and the D and F tests proposed by FU and LI, indicate an excess of low frequency polymorphisms in the human data, but not in the chimpanzee data. This is consistent with recent directional selection, a population bottleneck or background selection of slightly deleterious mutations in human mtDNA samples. The analyses further support the idea that mitochondrial genome evolution is governed by selective forces that have the potential to affect its use as a "neutral" marker in evolutionary and population genetic studies.     

Genetic variation of haemoglobin alpha- and beta-chains in rabbits detected by isoelectric focusing and reversed-phase chromatography

Previous studies on the amino acid sequences and on the amino acid composition of peptides revealed genetic polymorphism both of the haemoglobin alpha-chain (Hb alpha) and beta-chain (Hb beta) in rabbits. In this study, rabbit haemolysates were analysed by isoelectric focusing in a narrow pH range (6.7-7.7) and by reversed-phase chromatography. Two variants were found for both Hb alpha and Hb beta. The two methods detected the same variants in this material. Inheritance data were consistent with the hypothesis that the observed Hb alpha and Hb beta variants were each controlled by two codominant, autosomal alleles. Haemoglobin polymorphism appears to be frequent in domestic rabbits since both variants of each chain were observed in all the three breeds studied.     

Biochemical and genetic studies on rabbit hemoglobin. II. Electrophoretic polymorphism of theα-chain

A genetic polymorphism of rabbit (Oryctolagus cuniculus) hemoglobin chain is demonstrated by means of acid starch gel electrophoresis. The polymorphism is not detected by isoelectric focusing and may be based upon neutral for neutral amino acid substitutions in accordance with previous findings by means of amino acid sequencing. Segregation analysis was performed on 15 matings with 49 offspring and confirmed the initial genetic hypothesis of three common codominant alleles at an autosomal locus. The calculated gene frequencies in a random sample of 86 unrelated individuals areHBA*1=0.73,HBA*2=0.22, andHBA*3=0.05.     

Hemoglobin Deer Lodge (beta 2 His replaced by Arg). Consequences of altering the 2,3-diphosphoglycerate binding site.

Hemoglobin Deer Lodge is an abnormal human hemoglobin with arginine substituted for histidine at the beta 2 position. X-ray crystallography of normal human hemoglobin has shown that the beta 2 residue is normally part of the binding site for 2,3-diphosphoglycerate. The substitution of arginine for histidine at beta 2 affects both the kinetics and equilibria of ligand binding. When stripped of anions, Hb Deer Lodge has an increased oxygen affinity and a decreased degree of cooperativity relative to Hb A. The alkaline Bohr effect is slightly increased and there are marked increases in oxygen affinity below pH 6 and above pH 8. In the presence of 2,3-diphosphoglycerate the cooperativity in increases to nromal and the pH dependence of oxygen binding is reduced. This contrasts with the enhanced Bohr effect seen for Hb A in the presence of organic phosphates. Due to enhanced anion binding at high pH, Hb Deer Lodge has a slightly lower oxygen affinity than Hb A at pH 9 in the presence of 2,3-diphosphoglycerate or inositol hexaphosphate. Kinetic studies at neutral pH in the absence of organic phosphates revealed biphasicity in the rate of oxygen dissociation from Hb Deer Lodge, while approximately linear time courses were observed for Hb A. The fast phase of the oxygen dissociation kinetics shows great pH sensitivity, and organic phosphates increase the rate and percentage of the fast phase without greatly affecting the slow phase. The two phases are not resolvable at high pH. CO combination kinetics are much like those of Hb A except that "fast" and "slow" phases were apparent at wavelengths near the deoxy-CO isobestic point. We suggest that functional differences between the alpha and beta chains are enhanced in Hb Deer Lodge. After flash photolysis of the CO derivative, the percentage of quickly reacting material was slightly greater for Hb Deer Lodge than for Hb A. This may imply a somewhat greater tendency to dissociate into high affinity subunits. The substitution of arginine for histidine at beta 2 thus results in a macromolecule whose ligand-binding properties are significantly altered, the primary differences being expressed at high pH where Hb Deer Lodge binds anions more strongly than Hb A. The properties of Hb Deer Lodge are compared to those of other hemoglobin variants with substitutions at residues involved in binding of 2,3-diphosphoglycerate.     

The nicotinamide adenine dinucleotides as allosteric effectors of human hemoglobin

The oxygen binding properties of human hemoglobin are appreciably altered by the nicotinamide dinucleotides NADH, NADP+, and NADPH. These cofactors are important in the control of many metabolic pathways and in providing reductive potential for a number of enzymatic reactions, including in vivo reduction of methemoglobin. Specific binding of these cofactors to hemoglobin and their potential for acting as allosteric modifiers of hemoglobin function have not been previously recognized. Detailed oxygen binding studies utilizing a thin-layer method suggest that the nicotinamide dinucleotides bind with high affinity to the deoxyhemoglobin tetramer at the beta chain anion-binding site and stabilize the low affinity "T-state" conformation. Stripped Hb A in 0.05 M N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid (HEPES) buffer, pH 6.5, at 20 degrees C is half-saturated at a pO2 of 1.6 mm Hg. In the presence of 0.5 mM NADH, NADP+, or NADPH, the P50 is raised to 3.8, 7.1, and 12.5 mm Hg, respectively. The Bohr factor for stripped Hb A in 0.05 M HEPES buffer is sensitive to these effectors and is raised from 0.25 to about 0.65 by the addition of NADPH. The data suggest that routine use of these effectors in studies of human hemoglobin variants or the allosteric mechanism of Hb A be considered carefully. The relatively low intraerythrocytic levels of the nicotinamide dinucleotides in relation to hemoglobin dictate that these cofactors cannot significantly affect in vivo oxygen delivery. However, the converse is theoretically possible. The binding of the cofactors to hemoglobin and the preferential binding of their reduced forms may affect cofactor-dependent metabolic processes in red blood cells.     

Hemoglobins, XXVIII. Phosphate-protein-interaction, gene expression and function: the genetic and allosteric control of the oxygen affinity of the fetal blood (author's transl)

This work describes possible molecular mechanisms concerning the control of oxygen affinity in fetal blood of mammalia. There is a genetic control of oxygen affinity through a fetal gene: at constant phosphate concentration (Hb less than P2-glycerate) in humans there is a hemoglobin with only five binding sites to 2,3-bisphosphoglycerate, resulting in an increased oxygen affinity. In several species (sheep, cattle, goat) with Met-Leu as the N-terminal group of the beta-chains, the 2,3-bisphosphoglycerate binding sites are deleted in positions beta 1 and beta 2, so that the regulation is phosphate-independent and thus providing a fetal hemoglobin with an increased oxygen affinity. The allosteric control is observed in pigs. In the postembryonal development "adult" hemoglobin with seven contacts (beta-chains) is demonstrated. The increased oxygen affinity is achieved here by a reduced biosynthesis of 2,3-bisphosphoglycerate (Hb greater than P2-glycerate) (Rapoport-Luebering-cycle). The functional control is discussed with respect to the ontogeny of the hemoglobins.     

Transferrin polymorphism in Central Amazon populations of pescada, Plagioscion squamosissimus

Blood plasma of 253 specimens from eight population samples of the sciaenid fish, pescada (Plagioscion squamosissimus), caught from four sites in the Central Amazon, was tested for molecular variants of transferrin. Starch gel electrophoresis was used to distinguish six species of transferrin molecules; 12 of the 21 theoretically possible genotypes were found. There were highly significant departures from genetic equilibrium in seven of the eight population samples (chi-square (chi(2)) test for Hardy-Weinberg expectations) due to an excess of homozygotes and a corresponding deficiency of heterozygotes. A dendrogram based on UPGMA cluster analysis of genetic distances at the transferrin gene locus, estimated among the population samples and statistical analyses of the distribution of Tf allele frequencies, indicated three genetically discreet sub-populations of P. squamosissimus. The three sub-populations, "Careiro/Iranduba", "Coari" and "Tefe", were found to have high frequencies of alleles Tf(2), Tf(4) and Tf(3), respectively. This genetic instability may be attributed to genetically discreet "allopatric stocklets", which diverged during past isolation.     

Fetal hemoglobin distributions among adult baboon and macaque species

Heritable variation in fetal hemoglobin (Hb F) in erythrocytes of the adult human has been shown to occur at more than one genetic locus. Heritable variation has also been reported in adult baboons. Nonhuman primates thus may serve as useful models for understanding how Hb F is regulated in the human. In the study reported here we identified Hb F in hemolysates from 27 of 32 rhesus macaques, from 32 of 32 baboons, and from none of 35 cynomoglus macaques. Hb F as a percentage of total hemoglobin occurred as a normally distributed variable among rhesus macaques but among baboons the distribution was both skewed and kurtotic. Such difference could be either a consequence of nonrandom sampling of the gene pool in one of the species, or a consequence of species evolution. A technique of single cell hemoglobin electrophoresis was applied to erythrocytes from three adult pig-tailed macaques. This demonstrated that erythrocytes which contain Hb F (F-cells) also customarily contain Hb A and that the proportions of these two hemoglobins varies substantially among the F-cells, as we previously noted for human F-cells. We conclude that the macaques could serve as useful models for understanding Hb F regulation in the human.     

The mind of primitive anthropologists: hemoglobin and HLA, patterns of molecular evolution

Frank Livingstone played a central role in defining the population genetics of the sickle cell mutation at position 6 of the human beta globin gene, the most famous amino acid substitution in evolutionary biology. Its discovery occurred at a time when traditional, 19th-century principles of natural selection were being joined with the newly discovered mechanics of DNA structure and protein synthesis to produce Neo-Darwinian theory. When combined with the epidemiology of malaria in Africa, differential mortality for both homozygotes, and the resulting advantage of the heterozygote, sickle cell became the classic balanced polymorphism. Human HLA-A has 237 molecular alleles. The histocompatibility system has as its primary function the presentation of peptides to T-cell receptors and plays an essential role in the immune system. Nearly all of the alleles are codominant and fully functional. Despite almost 30 years of disease-association studies with HLA-A, no convincing evidence has been found for differential fertility or mortality at this locus. Yet the dogma in the histocompatibility field is that this extensive human polymorphism is maintained by "balancing selection." Explaining HLA-A polymorphism is what one might call the sickle-cell-effect. This one mutation, coming as it did at the historical convergence of Darwinian theory and modern genetics, and carrying with it the strong relationship between mutation, disease, and allele frequency, has conditioned our discussion of human genetic variation and population genetics. Has the strength of this early idea made evolutionary biologists uncritical of systems like HLA-A and retarded the search for new mechanisms of molecular evolution? Is it now time to move away from a focus on mutation and polymorphism in evolutionary genetics and toward a systems theory that would explain the origin and evolution of hemoglobin and HLA-A and the biochemical pathways that surround them?     

Theoretical Study of near Neutrality. I. Heterozygosity and Rate of Mutant Substitution

In order to clarify the nature of "near neutrality" in molecular evolution and polymorphism, extensive simulation studies were performed. Selection coefficients of new mutations are assumed to be small so that both random genetic drift and selection contribute to determining the behavior of mutants. The model also incorporates normally distributed spatial fluctuation of selection coefficients. If the system starts from "average neutrality," it will move to a better adapted state, and most new mutations will become "slightly deleterious." Monte Carlo simulations have indicated that such adaptation is attained, but that the rate of such "progress" is very low for weak selection. In general, the larger the population size, the more effective the selection becomes. Also, as selection becomes weaker, the behavior of the mutants approaches that of completely neutral genes. Thus, the weaker the selection, the smaller is the effect of population size on mutant dynamics. Increase of heterozygosity with population size is very pronounced for subdivided populations. The significance of these results is discussed in relation to various observed facts on molecular evolution and polymorphism, such as generation-time dependency and overdispersion of the molecular clock, or contrasting patterns of DNA and protein polymorphism among some closely related species.     

A Large Cohort of Hemoglobin Variants in Thailand: Molecular Epidemiological Study and Diagnostic Consideration

Background

Hemoglobin (Hb) variants are structurally inherited changes of globin chains. Accurate diagnoses of these variants are important for planning of appropriate management and genetic counseling. Since no epidemiological study has been conducted before, we have investigated frequencies, molecular and hematological features of Hb variants found in a large cohort of Thai subjects.

Materials and Methods

Study was conducted on 26,013 unrelated subjects, inhabiting in all geographical parts of Thailand over a period of 11 years from January 2002-December 2012. Hb analysis was done on high performance liquid chromatography (HPLC) or capillary electrophoresis (CE). Mutations causing Hb variants were identified using PCR and related techniques.

Results

Among 26,013 subjects investigated, 636 (2.4%) were found to carry Hb variants. Of these 636 subjects, 142 (22.4%) carried α-chain variants with 13 different mutations. The remaining included 451 (70.9%) cases with 16 β-chain variants, 37 (5.8%) cases with Hb Lepore (δβ-hybrid Hb) and 6 (0.9%) cases with a single δ-chain variant. The most common α-globin chain variant was the Hb Q-Thailand (α^{74GAC-CAC, Asp-His}) which was found in 101 cases (15.8%). For β-globin chain variants, Hb Hope (β^{136GGT-GAT, Gly-Asp}) and Hb Tak (β^{146+AC, Ter-Thr}) are the two most common ones, found in 121 (19.0%) and 90 (14.2%) cases, respectively. Seven Hb variants have never been found in Thai population. Hb analysis profiles on HPLC or CE of these variants were illustrated to guide presumptive diagnostics.

Conclusions

Hb variants are common and heterogeneous in Thai population. With varieties of thalassemias and hemoglobinopathies in the population, interactions between them leading to complex syndromes are common and render their diagnoses difficult in routine practices. Knowledge of the spectrum, molecular basis, genotype-phenotype correlation and diagnostic features should prove useful for prevention and control of the diseases in the region.     

A Nonparametric Test Reveals Selection for Rapid Flowering in the Arabidopsis Genome

The detection of footprints of natural selection in genetic polymorphism data is fundamental to understanding the genetic basis of adaptation, and has important implications for human health. The standard approach has been to reject neutrality in favor of selection if the pattern of variation at a candidate locus was significantly different from the predictions of the standard neutral model. The problem is that the standard neutral model assumes more than just neutrality, and it is almost always possible to explain the data using an alternative neutral model with more complex demography. Today's wealth of genomic polymorphism data, however, makes it possible to dispense with models altogether by simply comparing the pattern observed at a candidate locus to the genomic pattern, and rejecting neutrality if the pattern is extreme. Here, we utilize this approach on a truly genomic scale, comparing a candidate locus to thousands of alleles throughout the Arabidopsis thaliana genome. We demonstrate that selection has acted to increase the frequency of early-flowering alleles at the vernalization requirement locus FRIGIDA. Selection seems to have occurred during the last several thousand years, possibly in response to the spread of agriculture. We introduce a novel test statistic based on haplotype sharing that embraces the problem of population structure, and so should be widely applicable.     

The restriction of codon ambiguity on the basis of known variants

Summary The genetic code may be used to formulate the nucleotide sequence of a messenger RNA from the known amino acid sequence of a protein. Unfortunately, the degeneracy of the code means that there will be ambiguity in the nucleotide assignments in a third or more of the positions. A simple procedure is given that utilizes the information of known genetic variants to reduce that ambiguity. Problems associated with silent polymorphism are treated. The human alpha and beta hemoglobins are used to exemplify the technique. A total of 68 nucleotides in the two sequences are thereby made less ambiguous. One reduction leads to a nucleotide inconsistent with the result of the recently published beta hemoglobin sequence.     

Detection of a major gene for heterocellular hereditary persistence of fetal hemoglobin after accounting for genetic modifiers.

"Heterocellular hereditary persistence of fetal hemoglobin" (HPFH) is the term used to describe the genetically determined persistence of fetal hemoglobin (Hb F) production into adult life, in the absence of any related hematological disorder. Whereas some forms are caused by mutations in the beta-globin gene cluster on chromosome 11, others segregate independently. While the latter are of particular interest with respect to the regulation of globin gene switching, it has not been possible to determine their chromosomal location, mainly because their mode of inheritance is not clear, but also because several other factors are known to modify Hb F production. We have examined a large Asian Indian pedigree which includes individuals with heterocellular HPFH associated with beta-thalassemia and/or alpha-thalassemia. Segregation analysis was conducted on the HPFH trait FC, defined to be the percentage of Hb F-containing cells (F-cells), using the class D regressive model. Our results provide evidence for the presence of a major gene, dominant or codominant, which controls the FC values with residual familial correlations. The major gene was detected when the effects of genetic modifiers, notably beta-thalassemia and the XmnI-G gamma polymorphism, are accounted for in the analysis. Linkage with the beta-globin gene cluster is excluded. The transmission of the FC values in this pedigree is informative enough to allow detection of linkage with an appropriate marker(s). The analytical approach outlined in this study, using simple regression to allow for genetic modifiers and thus allowing the mode of inheritance of a trait to be dissected out, may be useful as a model for segregation and linkage analyses of other complex phenotypes.     

Polymorphism of the vitamin D binding protein (DBP) among primates: an evolutionary analysis

The distribution of the DBP (vitamin D binding protein) polymorphism is now well characterized among human populations but for primates only limited results are known. The aim of this paper is to describe the electrophoretic polymorphism of this protein among various species. Using three different electrophoretic methods, we are able to detect an unknown polymorphism and to classify the different alleles observed. These results may be used to set an international nomenclature for further comparisons. The different electrophoretic mobilities between Old and New World Monkeys show that: 1) the Cercopithecoïdea are presenting the largest genetic heterogeneity; 2) the DBP among the Galago corresponds to the lowest isoelectric points observed among Primates; 3) during the evolution from nonhuman Primates to Man, the DBP is able to keep its affinity for vitamin D derivatives despite the occurrence of significant molecular modifications; 4) among Anthropoïdea, the electrophoretic patterns of DBP are very close to the human Gc 1 proteins. These results show that evolution at the DBP level can be considered as a continous mechanism of structural modifications. A significant transition occurs during the differentiation between Cercopithecoïdea and Anthropoïdea. It is not too speculative to consider that some electrophoretic forms detected among Gorilla, Pongo, or Pan may be identical to rare variants observed among humans.     

The human commensal yeast, Candida albicans, has an ancient origin

Candida albicans, the primary causative agent of candidiasis, is a ubiquitous member of the human flora and is capable of causing severe invasive disease. Despite its importance as a human pathogen, little is known concerning those factors creating and maintaining genetic diversity within the species and how extant strains reflect their evolutionary history. Based on nucleotide polymorphism frequencies, we estimated the time to a most recent common ancestor for the species to be about 3-16 million years, with variation due to molecular clock calibration. As C. albicans genotypes have broad geographic associations, this suggests that the origins of DNA sequence variation in extant populations coincided with early hominid evolution. This is consistent with an emerging view of a genetically complex organism that is able to survive under host immunity as an obligate commensal species.     

Punctualism, non-adaptationism, neutralism and evolution

In its further development the theory of evolution will incorporate molecular biology, synergetics and the theory of information. Using a simple model it is shown that speciation can be similar to phase transition. This is a thermodynamical statement which does not say anything concerning the sharpness and kinetic features of transition. Hence there is no contradiction between punctuated equilibrium and phyletic gradualism. The notion of punctualism can be used in the sense of phase transition. Evolution is directional because of constraints of natural selection due to the structure of organisms already existing and to the possible pathways of development. Correspondingly many characters are non-adaptative. Not only are the structures of proteins important for speciation but also the exact answers to the questions: "how much", "where" and "when"? These answers can be obtained as the results of regulation of genes, particularly of homeiotic regulation. The basis features of the structure of proteins are considered and the sense of the neutral theory is discussed in connection with degeneracy of correlation between the primary structure of a protein, its spatial structure and biological function. Informational aspects of evolution are discussed. Punctualism, non-adaptationism and neutralism form the triad of internally connected features of evolution. The Darwinian theory preserves its fundamental significance.