Analysis of an inversion within the human beta globin gene cluster.

We have cloned and sequenced the DNA from two regions of the defective beta-globin gene cluster from a patient with Indian A gamma delta beta thalassaemia, and confirmed the complex and unusual pattern of rearrangement involving two separate deletions (0.8 kb and 7.5 kb) the inversion of the 15.5 kb segment separating them, as previously proposed from gene mapping studies [1]. All four breakpoints occur within the transcribed region of the globin genes and at one junction are found six nucleotides of unknown origin. This unique rearrangement results in enhanced expression of the upstream fetal gene, and is therefore is pertinent to the localisation of any putative control region involved in the coordinate expression of fetal and adult genes.     

Complete nucleotide sequence of the rabbit beta-like globin gene cluster. Analysis of intergenic sequences and comparison with the human beta-like globin gene cluster

The nucleotide sequence of the entire beta-like globin gene cluster of rabbits has been determined. This sequence of a continuous stretch of 44.5 x 10(3) base-pairs (bp) starts about 6 x 10(3) bp upstream from epsilon (the 5'-most gene) and ends about 12 x 10(3) bp downstream from beta (the 3'-most gene). Analysis of the sequence reveals that: (1) the sequence is relatively A + T rich (about 60%); (2) regions with high G + C content are associated with OcC repeats, a short interspersed repeated DNA in rabbits; (3) the distribution of polypurines, polypyrimidines and alternating purine/pyrimidine tracts is not random within the cluster; (4) most open reading frames are associated with known globin coding regions, OcC repeats or long interspersed repeats (L1 repeats); (5) the most prominent open reading frames are found in the L1 repeats; (6) different strand asymmetries in base composition are associated with embyronic and adult genes as well as the tandem L1 repeats at the 3' end of the cluster; and (7) essentially all the repeats appear to have been inserted by a transposon mechanism. A comparison of the sequence with itself by a dot-plot analysis has revealed nine new members of the OcC family of repeats in addition to the six previously reported. The OcC repeats tend to be clustered, particularly in the epsilon-gamma and gamma-psi delta intergenic regions. Dot-plot comparisons between the rabbit and the human clusters have revealed extensive sequence matches. Homology starts about 6 x 10(3) bp 5' to epsilon or as far upstream as the rabbit sequence is available. It continues throughout the entire cluster and stops about 0.7 x 10(3) bp 3' to beta, at which point several repeats have inserted in both rabbits and humans. Throughout the gene cluster, the homology is interrupted mainly by insertions or deletions in either the rabbit or the human genome. Almost all of the insertions are of known short or long repeated DNAs. The positions of the insertions are different in the two gene clusters, which indicates that both short and long repeats have been transposing throughout the genome for the time since the mammalian radiation. An alignment of rabbit and human sequences allows the calculation of the substitution rate around epsilon. Sequences far removed from the gene are evolving at a rate equivalent to the pseudogene rate, although some short regions show an apparently higher rate.(ABSTRACT TRUNCATED AT 400 WORDS)     

An alpha globin pseudogene is located within the mouse t complex

Two-dimensional chymotryptic peptide maps of Lyt-1.1 and Lyt-1.2 from Lyt-1 congenic thymocytes labeled with ¹²⁵I in the usual way before lysis did not significantly differ, but there was a characteristic difference between maps of Lyt-1.1 and Lyt-1.2 obtained from ¹²⁵I-labeled solubilized membrane fragments. We conclude that the Lyt-1 locus of chromosome 19 includes the protein-structural gene for Lyt-1. This conclusion is further supported by evidence with ³⁵S-cysteine-labeled thymocytes: Thus an early 62K intermediate form, and a 60K form from tunicamycin-treated cells devoid of N-linked and O-linked carbohydrates, were precipitated by Lyt-1 alloantibody, which implies that the allo-specificity of Lyt-1 glycoprotein (67K) resides partly or wholly in protein.     

Molecular cloning and characterization of the human beta-like globin gene cluster

The genes encoding human embryonic (epsilon), fetal (G gamma, A gamma) and adult (delta, beta) beta-like globin polypeptides were isolated as a set of overlapping cloned DNA fragments from bacteriophage lambda libraries of high molecular weight (15-20 kb) chromosomal DNA. The 65 kb of DNA represented in these overlapping clones contains the genes for all five beta-like polypeptides, including the embryonic epsilon-globin gene, for which the chromosomal location was previously unknown. All five genes are transcribed from the same DNA strand and are arranged in the order 5'-epsilon-(13.3 kb)-G gamma-(3.5 kb)-A gamma-(13.9 kb)-delta-(5.4 kb)-beta-3'. Thus the genes are positioned on the chromosome in the order of their expression during development. In addition to the five known beta-like globin genes, we have detected two other beta-like globin sequences which do not correspond to known polypeptides. One of these sequences has been mapped to the A gamma-delta intergenic region while the other is located 6-9 kb 5' to the epsilon gene. Cross hybridization experiments between the intergenic sequences of the gene cluster have revealed a nonglobin repeat sequence (*) which is interspersed with the globin genes in the following manner: 5'-**epsilon-*G gamma-A gamma*-**delta-beta*-3'. Fine structure mapping of the region located 5' to the delta-globin gene revealed two repeats with a maximum size of 400 bp, which are separated by approximately 700 bp of DNA not repeated within the cluster. Preliminary experiments indicate that this repeat family is also repeated many times in the human genome.     

Nucleotide sequence of the goat embryonic alpha globin gene (zeta) and linkage and evolutionary analysis of the complete alpha globin cluster

In previous studies we identified and sequenced clones containing two adult alpha globin genes of the goat. Additional studies have revealed the presence of an embryonic alpha globin gene termed zeta. Sequence analysis of the gene shows that it is the largest mammalian or avian globin gene cloned to date. Its unusual size is mainly due to a 14 base-pair tandem repeat sequence in its first intron. A similar sequence is also found in the first intron of the human zeta gene. The goat zeta coding sequence differs greatly from that of the adult alpha, particularly at amino acid position 38, where it codes for the amino acid replacement of Gln for Thr. This change may confer a higher intrinsic O2 affinity on the zeta globin protein, ensuring a sufficient O2 supply for the developing goat embryo. The cloning and sequencing of this gene completes the alpha globin locus of the goat, composed of three genes in the following order 5'-zeta-I alpha-II alpha-3'. Evolutionary comparisons of the goat alpha locus with other amphibian, avian and mammalian loci reveal several interesting features. Statistical analysis confirms the hypothesis that the embryonic alpha gene is much older (400 million years) than the embryonic beta gene (200 million years), and that it is descended from a primordial gene, whose present-day counterpart is the Xenopus larval alpha globin gene. Our results also suggest that after the divergence of the avian line, the alpha A gene converted the alpha D gene during the evolution of the pre-mammalian line. The alpha D globin gene remains unconverted in the avian line, potentially because of insertion/deletion sequences that may prevent any gene conversion event. The divergence rates of specific globin genes have been analyzed and found to form an essentially straight line, in agreement with the neutralist view of evolution.     

A novel rearrangement of the human β-like globin gene cluster

The first example of a duplication involving the human beta-like globin genes has been characterised in DNA from a native of Vanuatu. Restriction endonuclease mapping has shown that a 5 kb insert of DNA in the gamma-delta-beta gene cluster is due to duplication of the Ggamma-globin gene and results in a new rearrangement 5'-epsilon-Ggamma-Ggamma-Agamma-delta-beta-3'.     

A cluster of alpha 2-macroglobulin-related genes (alpha 2 M) on human chromosome 12p: cloning of the pregnancy-zone protein gene and an alpha 2M pseudogene

The characterization of two alpha 2-macroglobulin (alpha 2M)-related genomic clones, isolated from two human genomic libraries by use of alpha 2M cDNA [Kan et al., Proc. Natl. Acad. Sci. USA 82 (1985) 2282-2286] as a probe, is reported. Sequence comparison of the clone EPZP6 with the human alpha 2M cDNA revealed the presence of five exons with the proper splice signals. Alignment of the corresponding amino acid (aa) sequence of these exons with the published partial pregnancy-zone protein (PZP) aa sequence (Sottrup-Jensen et al., Proc. Natl. Acad. Sci. USA 81 (1984) 7353-7357] showed a perfect match, thereby identifying EPZP6 as a PZP genomic clone. The clone MPAM16 showed a considerable degree of sequence conservation when compared to the human alpha 2M cDNA sequence, and several putative exons were identified. However, a frame-shift mutation leading to a premature stop codon was found in the coding sequence, classifying this gene as an alpha 2M pseudogene. Human alpha 2M, PZP and the related pseudogene were mapped to the human chromosome 12p12-13, with the help of gene-specific probes and in situ hybridization. This result was confirmed in Southern-blot experiments with DNA from a human-Ltk- mouse somatic-cell hybrid containing only a human isochromosome 12p in a mouse background.     

A gene controlling fetal hemoglobin expression in adults is not linked to the non-alpha globin cluster.

The possible linkage between a gene causing heterocellular hereditary persistence of fetal hemoglobin (HPFH) and human non-alpha globin loci has been studied in a large Sardinian family. In this family a homozygous beta o-thalassemic patient was found, with an unusually mild form of this disease, which was ascribed to the co-existence of a gene causing heterocellular HPFH. DNA polymorphisms in the non-alpha globin cluster were analyzed by restriction enzyme digestion with HincII, HindIII and BamHI and with epsilon-, gamma-and beta-globin probes; the pattern of inheritance of these polymorphisms indicates that the HPFH gene is transmitted with one beta o-thalassemic gene in a single instance, with the second beta o-thalassemic gene in three instances and with a normal beta-globin gene in two cases. These data indicate that this HPFH gene is not linked to the non-alpha globin gene cluster, in contrast to previous observations with different HPFH genes, and suggest that this gene might code for diffusible substances acting, directly or indirectly, on gamma-globin gene expression.     

A large deletion encompassing the entire alpha-like globin gene cluster in a family of northern European extraction.

We describe a new deletional form of alpha thalassemia segregating in three generations of a family of northern European origin. A full-term female girl had hypochromic, microcytic anemia since early infancy associated with delayed language development, slow growth and weight gain. Hematologic studies suggested the presence of alpha thalassemia. Gene-blotting studies showed no abnormal alpha-like globin gene fragments; however, studies of inheritance of informative polymorphic restriction fragments using zeta, alpha and 3'-alpha-hypervariable region (3'-HVR) probes showed evidence for an extensive deletion encompassing the entire alpha-like globin gene cluster. The 3' breakpoint of this deletion maps beyond the 3'-HVR, a region implicated as a hot spot for the generation of other large deletional events within the alpha-like cluster. The 5' breakpoint maps at least 10 kilobases (kb) 5' to the zeta-globin gene. The minimum size estimate for this deletion is greater than 47 kilobases.     

A new method for detection of small modifications in genomic DNA, applied to the human delta-beta globin gene cluster

Cloned DNA fragments were subcloned in filamentous coliphages fd 103 or M 13; the recombinant single-stranded DNAs were then used to form hybrids with genomic DNA as well as with complementary recombinant single-stranded DNA. Hybrids were submitted to S1-nuclease treatment alone or in combination with restriction enzyme digestions. This method was used to analyze the delta-beta globin gene cluster from the total genomic DNA of a beta 0-thalassemic patient. A modification located approximately 530 base pairs upstream from the cap site of the beta-globin gene was detected in only one thalassemic chromosome of this patient. Sequence analysis have shown that the patient was homozygous for a single nucleoside change (dC----dT) which remains undetected by our hybridization method, leading to a codon 39 nonsense mutation; they have demonstrated too that he was heterozygous for the modification mentioned and detected by S1-nuclease, which corresponds to an additional sequence d(T-A-T-A) in a 52 alternating purine-pyrimidine run, leading to a complex change from d[(A-T)7(T)7] to d[(A-T)11(T)3].     

Block duplications of a zeta-zeta-alpha-theta gene set in the rabbit alpha-like globin gene cluster

In order to understand the coordinate regulation between the alpha-like and beta-like globins during the developmental switches in hemoglobin synthesis, we have studied the rabbit alpha-like globin gene family. A cluster of six linked genes arranged 5'-zeta 1-alpha 1-theta 1-zeta 2-zeta 3-theta 2-3' has been isolated as a set of overlapping clones from a library of rabbit genomic DNA. Blot-hybridization analysis of genomic DNA not only confirms this linkage arrangement but also reveals the presence of additional zeta and theta genes. We propose that this gene cluster was generated by a block duplication of a set of alpha-like genes; the proposed duplication unit is zeta-zeta-alpha-theta. Further duplications of a zeta-zeta-theta set are also proposed to have occurred. As expected for a duplicated locus, the rabbit alpha-like gene cluster contains long blocks of internal homology. The Z homology block is about 7.2 kilobase pairs long and contains the zeta genes; the T homology block is about 4.7 kilobase pairs long and contains a theta gene. Surprisingly, both Z and T homology blocks are flanked by a common junction sequence (J) which contains a region very similar to the 3'-untranslated sequence of an alpha-globin gene. Analysis of the J sequences suggests a recombination mechanism by which the alpha gene could have been deleted from the second set of genes in the cluster (zeta 2-zeta 3-theta 2). The relationships among the genes in characterized alpha-like gene clusters in mammals are summarized. The rabbit gene cluster differs from those of other mammals principally in the loss of a gene orthologous to the human psi alpha 1 and in the block duplication of the zeta-zeta-alpha-theta gene set.     

Nuclear scaffold attachment sites in the human globin gene complexes.

In an analysis of a 90-kb region around the human beta-globin gene complex we have identified at least eight sites of attachment to the nuclear scaffold (SARs). While these have many potential functions, there appears to be a particular association with sequences important in the regulation of the complex. Two SARs are close to the known enhancer-like elements of the beta-globin gene. SARs flanking the complex co-habit with the boundaries of the putative beta-like globin gene regulatory domain. In contrast, we have detected no SARs within a 140-kb region of the human alpha-globin gene complex. If SARs play a role in the regulation of gene expression then this structural difference would imply a difference in the regulation of the two complexes.     

A pseudogene for human glutathione peroxidase.

Glutathione peroxidases (GPx) serve a bioprotective function in the reduction of peroxides to less toxic substances. Both cellular and secreted forms of the protein have been reported, as well a number of distinct cDNA sequences. Previous efforts have described three distinct loci on human chromosomes 3, 21 and X which hybridize to a GPX cDNA and these authors have speculated that only the chromosome 3 locus encodes a functional GPX gene. This conclusion was based on mapping studies showing a precise deletion of intron sequences in the GPX loci on chromosomes 21 and X despite strong conservation among these sequences in both the coding and 3'-untranslated regions. To pursue this issue, we have isolated the chromosome 21 GPX locus by molecular cloning and determined its nucleotide sequence. Consistent with the expectations of McBride et al. [Biofactors 4 (1988) 285-292], the sequence does reveal a highly conserved processed pseudogene. It is suggested that a retrotransposed copy of the GPX gene integrated into chromosome 21 and may have maintained activity prior to the accumulation of inactivating mutations.     

Highly variable regions of DNA flank the human alpha globin genes.

A series of restriction fragment length polymorphisms which are due to DNA rearrangements have been identified within two highly variable regions flanking the human alpha globin genes. The existence of such highly polymorphic areas provides a large number of individual genetic markers for the alpha globin gene cluster on chromosome 16. If, as seems likely, such regions occur frequently throughout the human genome they should be of considerable value in the antenatal diagnosis of genetic disease.