Structure of the goat psi beta y beta-globin pseudogene. Analysis of goat pseudogene evolutionary patterns

The 12-member beta-globin gene locus of the goat contains three beta(adult)-type pseudogenes, one in each of three four-gene subsets of the locus. We have determined the complete nucleotide sequence of psi beta y, the pseudogene present in the most downstream four-gene subset, which also contains the functional fetal gene, beta F. psi beta y contains, throughout its length, numerous incapacitating mutations in common with the previously sequenced goat psi beta x and psi beta z pseudogenes consistent with the model that all were descended from a common pseudogene ancestor which became defective prior to the expansion of the beta-globin locus in the goat lineage. Evolutionary analysis of the psi beta y sequence in comparison to psi beta x and psi beta z provides evidence that nucleotide substitutions were fixed in a random manner within these pseudogenes with respect to polarity, coding versus non-coding regions, and replacement sites versus silent sites. However, substitutions appear to have accumulated asymmetrically between different pseudogenes in a manner that provides evidence for partial gene conversion. Moreover, the presence of deletions in goat psi beta y, which are also observed in the cow pseudogene psi 2, but not in the cow psi 1 pseudogene, indicate that goat psi beta y and cow psi 2 are orthologous but cow psi 1 actually arose prior to the goat/cow divergence. The authentic goat orthologue to cow psi 1 temporarily existed in the goat lineage but was deleted, probably prior to the divergence of goats and sheep.     

Cloning, expression, and physical mapping of the 3beta-hydroxysteroid dehydrogenase gene cluster (HSD3BP1-HSD3BP5) in human.

Seven members of the human 3beta-hydroxysteroid dehydrogenase (3beta-HSD) gene family (HGMW-approved symbols HSD3BP1-HSD3BP5) have been cloned and physically mapped. HSD3B1 and 2 express 3beta-HSD enzymes; HSD3Bpsi1-5 are unprocessed pseudogenes that are closely related to HSD3B1 and 2 but contain no corresponding open reading frames. mRNA is expressed from psi4 and psi5 in several tissues, but with altered splice sites that disrupt reading frames. A 0.5-Mb contig of 3 yeast artificial chromosome and 32 bacterial artificial chromosome genomic clones contained no additional members of the gene family. The seven genes and pseudogenes mapped within 230 kb in the order HSD3Bpsi5-psi4-psi3-HSD3B1-psi1-psi2 -HSD3B2. HSD3B1 and 2 are in direct repeat, 100 kb apart. Six HSD3B2 mutations involve substitutions that are present in several of the pseudogenes. In four cases, mutations arose in CpG sites that are conserved within the gene cluster. The tendency for CpG sites to mutate by transition provides an adequate explanation for these HSD3B2 mutations, which are unlikely to be due to recombination or conversion within the gene family.     

Molecular cloning and characterization of two sets of alpha-theta genes in the rat alpha-like globin gene cluster

The highly heterogeneous rat hemoglobin system was investigated at the gene level. Two regions of the alpha-like globin gene cluster from a Wistar rat were isolated. Four lambda Dash recombinant clones carrying rat alpha-like globin genes were localized on two distinct gene regions. A region of approximately 16kb was found to contain the 5'-IIalpha1-psi theta 1-3' loci, and another of approximately 24kb the 5'-IIalpha2-psi theta2-psiI alpha3-3' loci. Both IIalpha1 and IIalpha2 are considered to be active, coding the IIalpha-globin chain. The nt sequences of IIalpha1 and IIalpha2 are identical except for six nt in the non-coding region. The psiI alpha3 locus is a truncated pseudogene. The putative promoter region of an alpha-like globin gene is joined directly to the third exon, homologous to that of Ialpha-globin cDNA. psi theta1 and psi theta2 are also pseudogenes, as evidenced by several deletions located in the protein-coding regions of these loci. The psi theta1 and psi theta2 loci exhibit extensive homology, but the restriction maps of these genes and their flanking regions differ considerably. Genomic Southern blot analyses of the total liver DNA from six rats showed the existence of three theta-globin-related genes, including psi theta1 and psi theta2. These results indicate that the two gene regions investigated are not allelic variants, but may be generated by block duplication. This is the first report of the existence of rodent theta-globin genes.     

Concerted evolution of the cow epsilon 2 and epsilon 4 beta-globin genes

The nucleotide sequences of the cow epsilon 2 and epsilon 4 globin genes were determined. The sequences were 95% identical. These genes arose via a four-gene block duplication that also gave rise to the bovine fetal (gamma) and adult (beta) genes. Their deduced amino acid sequences are unlike any previously reported fetal or adult globins; rather, comparison to other mammalian globin genes indicates that they are embryonic in nature. The sequence data indicate that these two genes have converted each other during evolution. Pairwise comparison to the corresponding goat genes shows greater similarity between paralogues than between more directly related orthologues. This is in direct contrast to the situation between the cow and goat fetal and adult genes. These observations suggest that the frequency of DNA conversion or the fixation of conversion events may vary in different locations of the cow beta-globin cluster.      

Human glyceraldehyde-3-phosphate dehydrogenase pseudogenes: Molecular evolution and a possible mechanism for amplification

We screened two human genomic libraries and isolated 14 different clones, designated λG1 and EG1-EG13, homologous to human glyceraldehyde-3-phosphate dehydrogenase (GAPD) cDNA. Subcloning and sequencing these recombinant phages led us to classify them as five different pseudogenes (ψG1–ψG5). All these sequences show such features typical of processed pseudogenes as numerous mutations, insertions, and deletions. The identity of numerous mutated sites among these pseudogenes and the presence of two Alu sequences flanking both ends of ψG1 suggest that GAPD pseudogenes originated from a unique reverse transcribed mRNA followed by gene duplication. The rate of nucleotide substitutions per site per year for known GAPD functional genes is low both for the synonymous substitutions (1.87×10⁻⁹) and for the nonsynonymous substitutions (0.12￠10⁻⁹) and indicates that the GAPD cDNA sequence is well conserved not only at the amino acid level, but also at the nucleotide level. The rate of nucleotide substitutions per site per year for GAPD pseudogenes shows a higher value (5.9×10⁻⁹) and suggests that these pseudogenes do not have any functional role. This work was supported by grants from the Consiglio Nazionale delle Ricerche and the Ministero Pubblica Istruzione (Rome, Italy). Special acknowledgment is given to the “Progetto Finalizzato Ingegneria Genetica e Basi Molecolari delle Malattie Ereditarie.”     

Isolation and nucleotide sequence analysis of the beta-type globin pseudogene from human, gorilla and chimpanzee

The beta-globin gene cluster of human, gorilla and chimpanzee contain the same number and organization of beta-type globin genes: 5'-epsilon (embryonic)-G gamma and A gamma (fetal)-psi beta (inactive)-delta and beta (adult)-3'. We have isolated the psi beta-globin gene regions from the three species and determined their nucleotide sequences. These three pseudogenes each share the same substitutions in the initiator codon (ATG----GTA), a substitution in codon 15 which generates a termination signal TGG----TGA, nucleotide deletion in codon 20 and the resulting frame shift which yields many termination signals in exons 2 and 3. The basic structure of these psi beta-globin genes, however, remains consistent with that found for functional beta-globin genes: their coding regions are split by two introns, IVS 1 (which splits codon 30, 121 base-pairs in length) and IVS 2 (which splits codon 104, 840 to 844 base-pairs in length). These introns retain the normal splice junctions found in other eukaryotic split genes. The three hominoid psi beta-globin genes show a high degree of sequence correspondence, with the number of differences found among them being only about one-third of that predicted for DNA sites evolving at the neutral rate (i.e. for sites evolving in the absence of purifying selection). Thus, there appears to be a deceleration in the rate of evolution of the psi beta-globin locus in higher primates.     

Molecular structures of human argininosuccinate synthetase pseudogenes. Evolutionary and mechanistic implications

In the human genome there is one expressed gene for argininosuccinate synthetase and 14 pseudogenes. A cDNA coding for human argininosuccinate synthetase was used to screen a human genomic library. Twenty-five unique genomic clones were isolated and extensively characterized. At least seven clones represented processed argininosuccinate synthetase pseudogenes that lost the introns in the expressed gene. Restriction mapping demonstrated that these processed pseudogenes were located in distinct regions of the human genome. Complete nucleotide sequences of two processed pseudogenes, psi AS-1 and psi AS-3, and a partial sequence of psi AS-7 were determined. Both psi AS-1 and psi AS-3 had an adenine-rich region at their 3' end and were flanked by distinct imperfect direct repeats. A comparison of these pseudogene sequences to that of the cDNA demonstrated that psi AS-1 and psi AS-3 were 93% homologous to the cDNA, whereas psi AS-7 was 89% homologous to the cDNA. Therefore, it is estimated that psi AS-1 and psi AS-3 were created 10-11 million years ago, whereas psi AS-7 arose approximately 21 million years ago. We have estimated the evolutionary rate for the expressed argininosuccinate synthetase gene based on the sequences of psi AS-1 and psi AS-3. These data indicate that the expressed argininosuccinate synthetase gene is evolving at a rate similar to that of the beta-globin gene and much faster than the alpha-tubulin gene. Furthermore, a comparison of the sequences of psi AS-1 and psi AS-3 suggests the possibility that these pseudogenes arose from a common intermediate.     

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.     

A genome-wide survey of human thioredoxin and glutaredoxin family pseudogenes

The thioredoxin/glutaredoxin family consists of small heat-stable proteins that have a highly conserved CXXC active site and that participate in the regulation of many redox reactions. We have searched the human genome sequence to find putative pseudogenes (non-functional copies of protein-coding genes) for all known members of this family. This survey has resulted in the identification of seven processed pseudogenes for human Trx1 and two more for human Grx1. No evidence for the presence of processed pseudogenes has been found for the remaining members of this family. In addition, we have been unable to detect any non-processed pseudogenes derived from any member of the family in the human genome. The seven thioredoxin pseudogenes can be divided into two groups: Trx1-psi2, -psi3, -psi4, -psi5 and -psi6 arose from the functional ancestor, whereas Trx1-psi1 and -psi7 originated from Trx1-psi2 and -psi6, respectively. In all cases, the pseudogenes originated after the human/rodent radiation as shown by phylogenetic analysis. This is also the case for Grx1-psi1 and Grx1-psi2, which are placed between rodent and human sequences in the phylogenetic tree. Our study provides a molecular record of the recent evolution of these two genes in the hominid lineage.     

Comparison of the beta-like globin gene families of rabbits and humans indicates that the gene cluster 5''-epsilon-gamma-delta-beta-3'' predates the mammalian radiation

The members of the rabbit and human beta-like globin gene families have been compared both by a computer-generated dot matrix graphical analysis of each entire gene and by calculating divergences in the coding regions. The rabbit-human gene pairs beta 4-epsilon, beta 3- gamma, psi beta 2-delta, and beta 1-beta were identified as orthologous on the basis of sequence similarities found in flanking and intervening sequences as well as by quantitative divergence calculations. The orthologous genes are in the same order on the chromosome in each species, which suggests that an ancestral family with the arrangement 5'-epsilon-gamma-delta-beta-3' preceded the mammalian radiation. Descendants of ancestral epsilon have diverged more slowly than other beta-like genes and are expressed only in embryonic life. Descendants of ancestral gamma and beta diverged at a higher rate and are expressed at wider range of developmental times. Descendants of delta have undergone nonreciprocal recombination at a high frequency and are often pseudogenes. Paralogous comparisons among the rabbit beta-like globin genes show that the beta 4-beta 3 and psi beta 2-beta 1 pairs are most similar and that beta 4 and beta 3 are more closely related to beta 1 than to psi beta 2. This fits with a branching pattern where the primordial beta split into ancestral epsilon/gamma and delta/beta genes, which later split into epsilon and gamma or delta and beta, respectively. Rabbit genes beta 4 and beta 1 acquired similar 3' untranslated regions after the epsilon/gamma split but prior to the mammalian radiation, presumably via a gene conversion event. The 5' end of beta 2 apparently converted with beta 1 after the radiation, and afterward it became a pseudogene.      

The eta-globin gene. Its long evolutionary history in the beta-globin gene family of mammals

In phylogenetic reconstructions by the parsimony method, utilizing 62 sequenced globin genes and pseudogenes (including 34 of the beta-globin gene family from eutherian orders Primates, Lagomorpha, Artiodactyla and Rodentia), the branch of primate psi beta pseudogenes and the goat embryonically expressed epsilon II gene group monophyletically together as orthologues of a common ancestral gene (labelled eta) distinct from orthologues of epsilon, gamma, delta and beta. This primate psi eta-goat eta branch is cladistically closer to epsilon and gamma than to delta and beta branches. In each eutherian order gene conversions replaced portions of delta by beta sequences, whereas in descent of Primates epsilon, gamma and eta mostly retained their separate ancient identities predating the radiation of Eutheria in all their exons and non-coding regions. The loci of the ancestral beta-globin gene cluster in basal eutherians and proto-primates, as deduced from beta-clusters representing the four eutherian orders, were linked 5'-epsilon-gamma-eta-delta-beta-3' with epsilon, gamma and eta being embryonically expressed genes, and delta and beta ontogenetically later expressed genes. Through deletions gamma was lost in artiodactyl evolution, eta in lagomorph and rodent evolution, and all DNA between exon 2 3' boundaries of eta and delta in prosimian lemuriform evolution (lemur having the hybrid pseudogene psi eta delta). Simian primates retained intact the five loci of the ancestral cluster. Not only did eta, after it became a pseudogene in the basal primates, persist intact in descent to present-day simians but in the line to hominoids it evolved during the last 40 million years at the decelerated rate of 1 X 10(-9) substitutions/site per year which is one-fifth the expected neutral rate. The possibility is suggested that the psi eta locus situated between fetal and adult chromosomal domains of the simian beta-globin gene cluster might play some role in a mechanism for ontogenetic switches of globin gene expression. However, not enough sequence data on genes and intergenic regions in DNA of species of primates and other mammals as yet exist to know if the slow rate of 1 X 10(-9) reflects the rate of a conserved functional gene or primarily reflects a decelerated neutral rate of hominoid DNA evolution, conceivably from enhanced DNA repair and longer generation times in hominoids. The further possibility is raised that gene correction (repair of damaged DNA that prevents emergence of new alleles) and gene conversion both more often involve strand copying of conserved than of rapidly evolving DNA.     

Evolution of immunoglobulin VH pseudogenes in chickens

In chickens, there is a single functional gene (VH1) coding for the heavy chain variable region of immunoglobulins, and immunoglobulin diversity is generated by gene conversion of the VH1 gene by many variable region pseudogenes (psi VH's) that exist on the 5' side of the VH1 gene. To understand the evolution of this unique genetic system, we conducted statistical analyses of VH1 and psi VH genes together with functional VH genes from other higher vertebrate species. The results indicate, first, that chicken VH genes are all closely related to one another and were derived relatively recently from an ancestral gene belonging to one of the three major groups of VH genes in higher vertebrates. Second, the rate of nonsynonymous substitution is slightly higher than that of synonymous substitution in the complementarity- determining regions (CDRs), which suggests that diversity-enhancing selection has operated in the CDRs even for pseudogenes. However, both the rates of synonymous and nonsynonymous substitution are higher in the CDRs than in the framework regions (FRs), apparently because of an interaction between positive selection and meiotic gene conversion in the CDRs. Third, a dot matrix analysis of the psi VH genes and genomic diversity (D) genes has indicated that the 3' end of psi VH genes is attached by D-gene-like sequences, and this region of psi VH genes has high similarity with D gene sequences. This suggests that V and D genes were fused at some point of evolutionary time and this fused element multiplied by gene duplication. Finally, two alternative hypotheses of explaining the evolution of the chicken VH gene system are presented.      

A comparison of theβ A- andβ B-globin gene clusters of sheep

Domestic sheep have two common alleles at the adult beta-globin locus, beta A and beta B. Here we report the structure of the beta-globin locus of A-haplotype sheep. The locus consists of 12 genes, organized as a triplicated 4-gene set: 5' epsilon 1-epsilon II-psi beta I-beta C-epsilon III-epsilon IV-psi beta II-beta A-epsilon V-epsilon VI-psi beta III-beta F 3'. This arrangement is identical to that of the closely related goat locus. Sheep with the B haplotype have a locus arrangement consisting of a duplicated four-gene set, lacking the beta C gene as well as three other genes present in A sheep and goats. In order to understand the evolutionary history of the B sheep locus, we have sequenced the beta B gene from these sheep, and the beta C gene from A-haplotype sheep, and compared the sequences to those of the sheep beta A, goat beta C, and beta A, and cow adult beta genes. Our results indicate that the beta B gene has diverged recently from the beta A gene, and therefore the beta B locus structure may have resulted from a recent deletion from a triplicated locus.     

Structure of human immunoglobulin gamma genes: implications for evolution of a gene family

We have cloned five human immunoglobulin gamma genes from a fetal liver gene library. Four of them encode the known human immunoglobulin gamma chains gamma 1, gamma 2, gamma 3 and gamma 4. A fifth gamma gene seems to be a pseudogene. Nucleotide sequence determination demonstrates that the gamma 3 gene contains four separate hinge exons. Comparison of these hinge exons with those of the other gamma genes indicates that the first hinge exon is homologous to that of the pseudogene, and that the other three hinge exons are homologous to that of the gamma 1 gene, suggesting that the gamma 3 gene ancestor is a hybrid gene created by unequal crossing-over between the ancestral gamma 1 and psi gamma genes. Amplification of the gamma 1-type hinge exon probably followed to complete the gamma 3 gene. This hypothesis inevitably postulates the gene order 5'-gamma 1-gamma 3-psi gamma-3'. Cloning of overlapping chromosomal segments demonstrates that the gamma 2 gene is located 19 kb 5' to the gamma 4 gene. These analyses indicate that the human gamma-gene family has evolved by several types of DNA rearrangemet, including duplication of a complete gene; duplication of a hinge exon; and reassortment of exons by unequal cross-over between two adjacent genes.     

V2R gene families degenerated in primates, dog and cow, but expanded in opossum

The V2R genes are expressed in the mammalian vomeronasal organ, and their products are involved in detecting pheromones. Here, we describe the evolution of the V2R gene family. We have found that the human, chimpanzee, macaque, cow and dog V2R gene families have completely degenerated. Each now contains 9-20 pseudogenes but no intact V2R genes. By contrast, opossum has approximately 90 intact V2R genes that mostly arose by duplication after opossum and rodent lineages diverged. One V2R gene subfamily with unusual biology evolved atypically, showing limited expansion in rodents and persistence of a single, albeit sometimes dysfunctional, ortholog in all other species examined.     

The primate psi beta 1 gene. An ancient beta-globin pseudogene

The human beta-globin gene cluster contains five functional genes plus a single pseudogene termed psi beta 1. Hybridization and comparative sequence analysis show that this pseudogene is not the product of a recent gene duplication, but is ancient and has been maintained in all major primate groups ranging from prosimians to anthropoids, at the same position as in man, between gamma- and delta-globin genes. In the lemur, a prosimian, the central exons of the psi beta 1 and delta-globin genes have undergone an unequal exchange, which has resulted in a contraction of the beta-globin gene cluster and the formation of a Lepore-type psi beta 1-delta globin pseudogene. Comparisons of defects shared by prosimian, New World monkey and human psi beta 1 sequences suggest that the ancestral primate gene was probably a pseudogene with an abnormal initiation codon but few if any additional defects, and that most contemporary pseudogene defects were accumulated relatively recently by slow neutral drift. We suggest that psi beta 1 arose early in primate evolution by silencing of a pre-existing discrete functional gene, and show that psi beta 1-related sequences are also present in other mammalian orders. In view of the antiquity of psi beta 1-related sequences, we propose that this gene be renamed the eta-globin gene.     

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.