Nonuniform recombination within the human beta-globin gene cluster.

Population genetic analysis of 15 restriction site polymorphisms demonstrates nonuniform recombination within the human beta-globin gene cluster. These DNA polymorphisms show two clusters of high nonrandom associations, one 5' and another 3' to the beta-globin structural gene, with no significant linkage disequilibrium between the two clusters. The 5'- and 3'-association clusters are 34.6 kilobases (kb) and 19.4 kb long, respectively, and are separated by 9.1 kb of DNA immediately 5' to the beta-globin gene. For each of these three DNA regions, we have observed a relationship between nonrandom associations and physical distance between the polymorphisms. However, this relationship differed for each of these regions. On the assumption that the effective population size (Ne) is 5,000-50,000, we estimate the total recombination rate to be 0.0017%-0.0002% in the 5' cluster, 0.0931%-0.0093% in the 3' cluster, and 0.2912%-0.0219% in the 9.1-kb region between them. The beta cluster thus shows nonuniformity in recombination. Moreover, the recombination rate in the 9.1-kb DNA segment is 3-30 times greater than expected and is thus a hot spot for meiotic recombination.     

Restriction site polymorphisms in the pig beta-globin gene cluster

A restriction fragment length polymorphism was detected in pig DNA digested with Hind III restriction endonuclease and probed with rabbit beta 1-globin gene. Eight different phenotypes were observed and for six of them family data demonstrated that they are determined by three alleles. As this polymorphism is not found with four other restriction endonucleases (Bam HI, Eco RI, Kpn I, and Pst I), single point mutations are proposed to explain the observed differences.     

Isolation and characterization of the complete chicken beta-globin gene region: frequent deletion of the adult beta-globin genes in lambda.

A library of bacteriophage lambda clones containing chicken chromosomal DNA was screened, using the adult beta-globin cDNA plasmid pHb 1001 as a probe. Sixteen overlapping clones were isolated containing 35 kilobase pairs (kbp) of chicken DNA. Characterization of these clones revealed four beta-like globin genes, some genomically repeated sequences, but no pseudo-genes. The four beta-like genes have an average intergenic distance of less than half of that found for the mammalian beta-like globin gene clusters so far characterized. The overall features of the map were confirmed by genomic Southern analysis. Frequent deletions were shown to occur between the various beta-like globin genes during phage propagation. The presumptive hatching gene in particular was always associated with abnormal lambda clones although we were able to find one such clone that did contain a normal copy of the hatching gene itself. Probably such deletions explain the failure to recover this gene in previous attempts.     

Detection of a novel DNA polymorphism in the beta-globin gene cluster

Analysis of DNA from the beta-globin gene cluster in an Albanian family identified a novel RsaI site approximately 550 base pairs 5' to the beta-globin gene. In this family, two chromosomes carrying otherwise identical beta-globin haplotypes were found to differ at the RsaI site. Population screening demonstrated the presence and absence of the site in DNA from individuals of northern European, Mediterranean, Middle Eastern, Southeast Asian, African, and Asian Indian descent, indicating that this site is a DNA polymorphism common in many ethnic groups. The polymorphism is also present in DNA from individuals carrying different beta-globin alleles. Additional nucleotide sequence changes identified in an RsaI (+) genomic clone in the region immediately 3' to the RsaI site suggest a mechanism for the randomization of the site with respect to haplotype.     

Function of the upstream hypersensitive sites of the chicken beta-globin gene cluster in mice.

We have shown previously that the chicken beta A-globin gene, with its 3' enhancer, is expressed in a copy number-dependent manner in transgenic mice. The expression level was low but increased approximately 6-fold upon inclusion of 11 kb of upstream DNA containing four DNase I hypersensitive sites. To study the effect of the individual upstream hypersensitive sites on transgene expression, we produced lines of mice in which the individual upstream sites were linked to the beta A gene and enhancer. RNA levels were measured in blood from adult animals. With each of these four constructs, the level of transgene RNA per DNA copy varied over a > 20-fold range. These data suggest that addition of a hypersensitive site to the beta A-globin/enhancer region abrogates its position independent expression. The average beta A-globin expression per copy in the lines carrying an upstream site was comparable with that in lines without an upstream site. Thus, no single upstream hypersensitive site accounts for the higher level of beta A-globin expression seen in mice containing the complete upstream region. We had shown previously that control of the chicken beta-globin cluster is distributed between at least two regions, the beta A/epsilon enhancer and the upstream region. Our current results suggest that the control mediated by the upstream DNA is itself distributed and is not due to a single hypersensitive site.     

The beta-globin gene cluster distribution revisited-patterns in Native American populations

New frequencies for the beta-globin gene cluster haplotypes are presented for the Aché (N = 82 individuals), Guarani (N = 76), and Kaingang (N = 54), three Native South American populations that live in an area between parallels 20 degrees S and 30 degrees S not covered by previous studies at this locus. The haplotype frequencies obtained for the three populations are within the interval observed for 28 other Native American populations. The Aché show much less haplotypes (five) than the other two populations (9-10), the haplotype prevalences being more similar to those of the Guarani than to the Kaingang. The Native American total heterozygosity was about half (0.41) that obtained for the African populations (0.71), but was not much different from those obtained for other continents. A geographical pattern was disclosed in South America by mapping the frequencies of the most common haplotype (haplotype 2), and by means of spatial correlation analysis. The analysis of molecular variance (AMOVA) and pairwise F(ST) data suggest three distinct sectors for the genetic landscape of Native South America: the Andes, the Center/Southeast region, and the Amazon.     

Gamma delta beta-thalassaemias 1 and 2 are the result of a 100 kbp deletion in the human beta-globin cluster.

The DNA spanning two large deletions in the human beta-globin gene cluster (gamma beta-thalassaemia 1 and 2) has been cloned by cosmid cloning and chromosomal walking. The entire region was mapped and analyzed for the presence of repetitive sequences. The results show that the affected loci have lost almost 100 kb of DNA in a deletion event not involving homologous or repetitive sequences.     

Characterization of the breakpoint of a 3.5-kb deletion of the beta-globin gene

The precise extent and breakpoints of a deletion of the beta-globin gene in a Thai patient have been determined using direct sequencing of a PCR product. This lesion is not detectable by current screening methods using PCR to analyze the beta-globin genes and is, therefore, a potential source of error in the diagnosis and prenatal detection of beta-thalassemia.     

The duck beta-globin gene cluster contains a single enhancer element

An erythroid-specific enhancer was previously identified in the 3'-flanking region of the beta adult gene in chicken and duck, by transfection into AEV transformed chicken erythroblasts. Here we show that the duck enhancer is equally active in erythroid human K562 cells, presenting an embryonic/fetal program of globin gene expression. Furthermore, no other enhancer was found within the 20 kb of DNA including four beta-like globin genes as well as a 1.5 kb upstream and a 3 kb downstream sequence.     

A Chinese G gamma + (A gamma delta beta)zero thalassemia deletion: comparison to other deletions in the human beta-globin gene cluster and sequence analysis of the breakpoints.

A clone was isolated that contains the deletion junction region from an individual with a deletion associated with Chinese G gamma + (A gamma delta beta)zero thalassemia. A clone containing the normal DNA corresponding to the 3' breakpoint of this deletion was also isolated. Portions of these two clones were sequenced and compared to the region in the A gamma-globin gene where the 5' breakpoint occurs. This comparison reveals that the breakage and reunion event was nonhomologous and that it probably involved the insertion of 36-41 bases of DNA belonging to the L1 (KpnI) family of repetitive DNA. Genomic mapping revealed that the DNA on the 3' side of this deletion is closely linked in normal DNA to the 3' breakpoints of two different large deletions that are associated with hereditary persistence of fetal hemoglobin (HPFH). We cloned and mapped 35 kbp of normal DNA from this region (greater than 45 kbp downstream of the human beta-globin gene) that contains the 3' breakpoints of the Chinese thalassemia and the two HPFH deletions. An endogenous retrovirus-like element and several other repetitive sequences are located within this region. We show that the Chinese thalassemia deletion is greater than 80 kbp in length and differs in size from the two HPFH deletions by less than 6%. We also show that the Chinese thalassemia deletion is at least 40 kbp larger than several other deletions associated with a very similar phenotype.     

Reexamination of the African hominoid trichotomy with additional sequences from the primate beta-globin gene cluster.

Additional DNA sequence information from a range of primates, including 13.7 kb from pygmy chimpanzee (Pan paniscus), was added to data sets of beta-globin gene cluster sequence alignments that span the gamma 1, gamma 2, and psi eta loci and their flanking and intergenic regions. This enlarged body of data was used to address the issue of whether the ancestral separations of gorilla, chimpanzee, and human lineages resulted from only one trichotomous branching or from two dichotomous branching events. The degree of divergence, corrected for superimposed substitutions, seen in the beta-globin gene cluster between human alleles is about a third to a half that observed between two species of chimpanzee and about a fourth that between human and chimpanzee. The divergence either between chimpanzee and gorilla or between human and gorilla is slightly greater than that between human and chimpanzee, suggesting that the ancestral separations resulted from two closely spaced dichotomous branchings. Maximum parsimony analysis further strengthened the evidence that humans and chimpanzees share the longest common ancestry. Support for this human-chimpanzee clade is statistically significant at P = 0.002 over a human-gorilla clade or a chimpanzee-gorilla clade. An analysis of expected and observed homoplasy revealed that the number of sequence changes uniquely shared by human and chimpanzee lineages is too large to be attributed to homoplasy. Molecular clock calculations that accommodated lineage variations in rates of molecular evolution yielded hominoid branching times that ranged from 17-19 million years ago (MYA) for the separation of gibbon from the other hominoids to 5-7 MYA for the separation of chimpanzees from humans. Based on the relatively late dates and mounting corroborative evidence from unlinked nuclear genes and mitochondrial DNA for the close sister grouping of humans and chimpanzees, a cladistic classification would place all apes and humans in the same family. Within this family, gibbons would be placed in one subfamily and all other extant hominoids in another subfamily. The later subfamily would be divided into a tribe for orangutans and another tribe for gorillas, chimpanzees, and humans. Finally, gorillas would be placed in one subtribe with chimpanzees and humans in another, although this last division is not as strongly supported as the other divisions.     

Partial deletion of the beta-globin gene: a common beta-thalassaemia allele in Asian Indians

We have examined 11 families of Asian Indian origin, who are segregating beta-thalassaemia alleles, for coupled restriction enzyme site markers. A beta-thalassaemia deletion allele, which removes over 600 base pairs, is a common cause of thalassaemia in this population. This deletion can be conveniently detected in AvaII restriction enzyme digests. Consequently AvaII digests are particularly informative in this population because both the deletion and a coupled restriction site polymorphism may be simultaneously observed.     

Recent insertion of an alu sequence in the beta-globin gene cluster of the gorilla

We present the nucleotide sequence of a new Alu family member that lies between the delta- and beta-globin genes in gorilla DNA. The sequence exhibits 91% similarity with a consensus sequence of the Alu family. It is flanked by a perfect repetition of a 16-nucleotide target sequence and terminates with 24 adenylic residues. As this sequence is absent at this locus in other primate DNAs, its insertion occurred less than 8 million years ago, thus supporting the idea that Alu sequences are still mobile elements in the hominoid genome.     

Characteristic beta-globin gene cluster haplotypes of Evenkis and Oroqens in north China

Haplotype frequencies of the beta-globin gene cluster were estimated for 114 Evenkis and 81 Oroqens from northeast China, and their characteristics were compared with those in Japanese, Koreans, and three Colombian Amerindian groups of South America (Wayuu, Kamsa, and Inga tribes). A major 5' subhaplotype (5' to the delta-globin gene) was + - - - - in Evenkis, whereas + - - - -, - + + - +, and - + - + + were the major subhaplotypes in Oroqens. One possible candidate for an ancestral 5' subhaplotype, - - - - -, was found in one Evenki (0.5%) and three Oroqen chromosomes (2.0%). They were observed as heterozygous forms for + ---- and -----. Major haplotypes were +-----+, + -----+-, and + - - - - + + in Evenkis, whereas they were +-----+,-++-+-+, +----+-, and -+-++-+ in Oroqens. The lowest Nei's genetic distance values of Evenkis or Oroqens based on the 5' subhaplotype frequency distributions were observed in relation to the Wayuu or Koreans, respectively, but those of Evenkis and Oroqens based on the haplotype frequency distributions were found in relation to Koreans.