Hemoglobin switching in sheep. Cloning and characterization of the beta A and beta-like embryonic globin genes from genomic DNA

Genomic DNA from a fetal sheep homozygous for the beta A gene was used to construct a library of one million cloned DNA fragments using the bacteriophage vector, Charon 4A. Screening of 150,000 plaques from this library using radioactive beta-globin gene sequences resulted in the isolation of two recombinant bacteriophage containing globin genes. One of these, S beta AG-21, contains the complete adult beta A-globin gene as demonstrated by hybridization and restriction endonuclease analysis. In common with adult globin genes from other species, the beta A gene contains small (105 base pairs) and large (900 base pairs) intervening sequences. The second recombinant bacteriophage, SG-4, contains a complete embryonic beta-like globin gene which is expressed in the sheep embryo as demonstrated by hybridization analysis with cDNA made from sheep embryonic globin mRNA. Although differing in its restriction endonuclease map from the adult beta-globin genes, SG-4 appears to contain a large intervening sequence of at least 750 base pairs in length. Finally, preliminary evidence is discussed which indicates that a Pvu II site just 5' to the Cap site may be a common feature of sheep globin genes.     

Chromosomal arrangement of the duck alpha-globin genes and primary structure of the embryonic alpha-globin gene pi

A recombinant lambda Charon 4A bacteriophage, D alpha G-1, carrying the genes coding for the duck embryonic (pi') and adult (alpha A, alpha D) alpha-like globins was isolated from a previously constructed duck DNA recombinant library. The three globin genes are transcribed from the same DNA strand and are arranged in the order of their expression during development: 5'-pi'-alpha D-alpha A-3'. We have determined the complete nucleotide sequence of the duck pi'-globin gene, including the flanking regions. Due to the unusual length of intron 1 (963 bp) and intron 2 (568 bp) the 2167-bp duck pi'-globin gene is by far the largest among all known mammalian or avian alpha- and beta-globin genes. For instance, the duck pi'-globin gene introns are almost twice as long as those of the chicken pi'-globin genes. A surprisingly high degree of nucleotide sequence homology (88%) has been found for the 5' flanking region (positions -1 to -223) of the duck and chicken pi'-globin gene.     

The isolation of the beta A-, beta C-, and gamma-globin genes and a presumptive embryonic globin gene from a goat DNA recombinant library

As an approach to understand how the expression of globin genes are regulated during development, clones containing globin DNA sequences were selected from a recombinant library of goat genomic DNA. The type of globin gene present in each of the recombinants was determined by cross-hybridization to the DNA of mouse alpha- and beta-globin cDNA-containing plasmids. Of 11 clones isolated, eight hybridized specifically to the DNA of the mouse beta-globin plasmid, while one clone hybridized only to the DNA of the alpha globin plasmid. The location of each globin sequence within its DNA insert was determined by a combination of restriction enzyme mapping and Southern transfer-hybridizations. Selected fragments were sequenced; comparisons of the amino acids coded for by these regions with those of the goat globins identified clones carrying beta A-, beta C-, and gamma-globin genes. Another recombinant coded for amino acid sequences resembling, but not identical with, the known goat globins, and was identified tentatively as containing an embryonic or epsilon-gene. Detailed analysis of the clone containing the beta C gene and an overlapping clone revealed that three other beta-like sequences are located 6, 12, and 21 kilobases on the 5'-side of the beta C gene. The globin sequence of the locus nearest to the beta C gene has an altered translation termination codon and, if transcribed and translated, would give a globin chain seven amino acids longer than the normal goat beta C-globin. In addition, the sequence following this termination codon is very AT-rich, unlike that of other globin genes. The recombinants described contain extensive regions of DNA surrounding the globin genes, making them useful for identifying regulatory sequences as well as determining the sequence organization of the goat globin genes.     

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.     

Isolation and characterization of recombinant clones containing the chicken adult beta-globin gene.

We have isolated and characterized two independent clones containing the chicken adult beta-globin gene. Each clone contains a 6.2-kilobase-pair Eco RI restriction fragment of chicken erythrocyte DNA inserted into the vector, lambda gtWES . lambda B. The orientation of the inserted fragment is opposite in the two clones. Characterization of the clones by electron microscopic R-loop studies, by restriction enzyme mapping, and by filter hybridization shows that the adult beta-globin gene is interrupted by at least one small and one large intervening sequence. In addition to the complete adult beta-globin gene, at least part of a second beta-globin-like gene was identified about 2.7 kilobase pairs from the 3'-end of the adult gene. The two independent clones, while very similar, do differ at two Msp I restriction endonuclease sites in regions flanking the adult beta-globin gene.     

Multiple sequence-specific DNA binding activities are eluted from chicken nuclei at low ionic strengths.

DNA sequence-specific binding proteins eluted from chicken erythrocyte and thymus nuclei, and fractionated as described by Emerson and Felsenfeld (19), have been investigated by filter binding and footprint analyses. The erythrocyte nuclear protein fraction specifically binds to at least two sites within the 5' flanking chromatin hypersensitive site of the chicken beta A-globin gene, and to a site 5' to the human beta-globin gene. The major chicken beta A globin gene binding site [G)18CGGGTGG) and the human beta-globin gene binding site [TA)6(T)8C(T)4) occur at or near sequences which are hypersensitive to S1 nuclease cleavage in supercoiled plasmids. Downstream, the second chicken beta A-globin gene binding site includes the beta-globin gene CACCC consensus sequence. Filter binding studies also show other sequence specific binding activities to human N-ras and human (but not chicken) c-myc gene sequences.     

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.     

Duplication of a four-gene set during the evolution of the goat beta-globin locus produced genes now expressed differentially in development

Genomic clones which link the goat preadult (beta C) and adult (beta A) beta-globin genes have been isolated. These overlapping clones contain a previously unidentified embryonic like globin gene (epsilon III) and establish the following linkage map of eight genes in the goat beta-globin locus: epsilon I-epsilon II-psi beta X-beta C-epsilon III-epsilon IV-psi beta Z-beta A. This linkage map and the nucleotide sequence of the eight genes document a relatively recent duplication of a four-gene set: epsilon-epsilon-psi beta-beta. This duplication produced two genes (beta C and beta A) which are now expressed differentially during development. An embryonic like globin gene located downstream from beta A has also been isolated. The embryonic nature of this gene as well as the adult beta-like sequence of the goat fetal globin gene (gamma) suggest that a duplication of the four-gene set also produced the globin gene now expressed during fetal development.     

Conservation and variation in the large scale organisation of the globin gene domains of duck and chicken

Summary The genomic DNA of cloned recombinants containing the duck globin genes was compared to that of the analogous domains of the chicken. A 36 kb insert including the three alpha-type globin genes was isolated from a newly prepared duck genomic library in the cosmid PJB8; another recombinant contained a 45 kb insert with the four beta globin genes. In the alpha globin gene domain, the relative positions of genes, of repetitive sequences, and of the A+T-rich segments (AT-rich linkers, ATRLs) which frame the gene cluster (Moreau et al. 1982), were found to be closely maintained between duck and chicken. Although ATRLs and repetitive sequences also frame the gene cluster in the beta globin domains of duck and chicken, there is more genetic drift in their relative positions than in the alpha domain. It is of interest that several repetitive DNA segments were detected in the chicken beta globin domain which do not exist in corresponding positions in the duck. In view of the strict conservation in both species of genes and their relative positions in the cluster, this observation seems to exclude a simple function of repetitive sequences in the control of individual genes. The data are discussed with regard to the possible significance of repetitive and AT-rich DNA segments in genome organisation and function.     

Rabbit globin pseudogene psi beta 2 is a hybrid of delta- and beta-globin gene sequences

The evolutionary history of the rabbit globin pseudogene psi beta 2 was studied by completing its nucleotide sequence and aligning the sequence with that of the rabbit adult globin gene beta 1 and the human minor adult globin gene delta. The 5' flanking region and exon 1 of psi beta 2 were most similar to rabbit beta 1, but the large intervening sequence and the 3' untranslated region were most similar to human delta. Intron 1 and exon 2 were equally similar to both delta and beta 1. This pattern indicates that psi beta 2 was originally a delta-like gene that acquired the 5' portion of gene beta 1 by intrachromosomal gene conversion. The presence of a delta-globin gene sequence in both rabbits and humans shows that it is an ancient gene, predating the mammalian radiation that occurred over 85 Myr ago. Delta has shown a pronounced tendency to be altered in its 5' end during the course of mammalian evolution. Quantitative divergence analysis shows that the ancestor to rabbit psi beta 2 was active until 20-30 Myr ago, during which time the lagomorph beta-globin gene family apparently functioned without a pseudogene.      

Human gamma- to beta-globin gene switching using a mini construct in transgenic mice.

The developmental regulation of the human globin genes involves a key switch from fetal (gamma-) to adult (beta-) globin gene expression. It is possible to study the mechanism of this switch by expressing the human globin genes in transgenic mice. Previous work has shown that high-level expression of the human globin genes in transgenic mice requires the presence of the locus control region (LCR) upstream of the genes in the beta-globin locus. High-level, correct developmental regulation of beta-globin gene expression in transgenic mice has previously been accomplished only in 30- to 40-kb genomic constructs containing the LCR and multiple genes from the locus. This suggests that either competition for LCR sequences by other globin genes or the presence of intergenic sequences from the beta-globin locus is required to silence the beta-globin gene in embryonic life. The results presented here clearly show that the presence of the gamma-globin gene (3.3 kb) alone is sufficient to down-regulate the beta-globin gene in embryonic transgenic mice made with an LCR-gamma-beta-globin mini construct. The results also show that the gamma-globin gene is down-regulated in adult mice from most transgenic lines made with LCR-gamma-globin constructs not including the beta-globin gene, i.e., that the gamma-globin gene can be autonomously regulated. Evidence presented here suggests that a region 3' of the gamma-globin gene may be important for down-regulation in the adult. The 5'HS2 gamma en beta construct described is a suitable model for further study of the mechanism of human gamma- to beta-globin gene switching in transgenic mice.