Characterization of the horse (<Emphasis Type="Italic">Equus caballus</Emphasis>)<Emphasis Type="Italic"> IGHA</Emphasis> gene

Nucleotide sequences of the immunoglobulin constant heavy chain genes of the horse have been described for IGHM, IGHG and IGHE genes, but not for IGHA. Here, we provide the nucleotide sequence of the genomic IGHA gene of the horse (Equus caballus), including its secretion region and the transmembrane exon. The equine IGHA gene shows the typical structure of a mammalian IGHA gene, with only three exons, separated by two introns of similar size. The hinge exon is located at the 5 end of the CH2 exon and encodes a hinge region of 11 amino acids, which contains five proline residues. The coding nucleotide sequence of the secreted form of the equine IGHA gene shares around 72% identity with the human IGHA1 and IGHA2 genes, as well as the bovine, ovine, porcine and canine IGHA genes, without distinct preference for any of these species. The same species also cluster together in a phylogenetic tree of the IGHA coding regions of various mammals, whereas rodent, rabbit, marsupial and monotreme IGHA genes each build a separate cluster.The nucleotide sequences reported in this paper have been assigned the EMBL/GenBank accession numbers AY247966 and AY351982     

Identification of Allelic Polymorphism in the Ovine Leptin Gene

Leptin is an adipocyte-derived hormone/cytokine that influences the physiological control of numerous biological functions and links nutritional status with both neuroendocrine and immune functions. In livestock, variation in the leptin (LEP) gene has been characterized in cattle and pig, but it has not been reported in sheep. In this study, variation in the exon 3 coding sequence of the ovine LEP gene was investigated by polymerase chain reaction–single-strand conformational polymorphism (PCR–SSCP) analysis and DNA sequencing. Five novel SSCP patterns, representing five different sequences, were identified under a combination of two different electrophoresis conditions. Either one or two different sequences were detected in individual sheep and all the sequences identified shared high homology with the LEP sequences from a variety of species, suggesting that these sequences represent alleles of the ovine LEP gene. Four single nucleotide polymorphisms (SNPs) were detected, and three of these resulted in amino acid changes. Variation detected here might have an impact on leptin activity and function.     

Identification of four allelic variants of the dog<Emphasis Type="Italic"> IGHA</Emphasis> gene

Multiple IgA subclasses have been identified in humans, primates and lagomorphs, whereas in mice, cattle and dogs only a single subclass has been identified. The two human subclasses (IgA₁ and IgA₂) are defined by a difference in the length of the hinge region of the chains between the CH₁ and CH₂ domains. The single IgA subclass so far identified in dogs has an -chain hinge region with a predicted amino-acid sequence similar to that of the human ₁ chain. Allelic variants that differ in the coding sequence of the hinge region have been identified in mice and pigs. In order to investigate whether allelic variants are present in dogs, a portion of the IGHA gene from eight individual dogs was cloned and sequenced. Four sequence variants were identified, and these differed in the coding region of their hinge. A major difference between the variants was the presence of a base polymorphism in the splice acceptor site for the second exon, which resulted in shortening of the hinge in two of the variants. Individuals expressed one or two of the variants identified, suggesting they may be heterozygous or homozygous. Further work is required to determine the effect of the variation on the biological activity of dog IgA and any relationship to susceptibility to mucosal disease.Nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the accession numbers AY576788–AY576795     

Diversity of the glycine/tyrosine-rich keratin-associated protein 6 gene (<Emphasis Type="Italic">KAP6</Emphasis>) family in sheep

Keratin-associated proteins (KAPs) are structural components of wool and variation in them may affect wool characteristics. In this study, we used PCR-SSCP to analyse the ovine KAP6 family which encodes glycine and tyrosine-rich KAPs. Five unique PCR-SSCP patterns were detected in the 250 sheep investigated. Between two and five patterns were observed in individual sheep and none with only one pattern was detected. This suggests the amplicons were heterogeneous and derived from more than one locus. To analyse these heterogeneous PCR amplicons, a sequencing approach using SSCP to separate individual amplified sequences, was developed. Using this approach, five DNA sequences (A–E) representing five unique PCR-SSCP patterns were obtained. D was identical to a published ovine KAP6-1 sequence (GenBank accession no. M95719), whereas the others were novel, but the closest homology was with KAP6 sequences from human, sheep, goats and cattle. The five ovine KAP6 sequences could be assigned into three distinct groups. B and D were identical to each other, with the exception of a 57-bp deletion/insertion and a single nucleotide polymorphism (SNP) in the 3′-UTR region. These appear to be allelic variants of ovine KAP6-1. A and C could form another group, as they were similar to each other (with only one synonymous SNP), but different to the other sequences. This group appears to be related to a sheep KAP6 amino acid sequence, and represent allelic variation at another KAP6 locus (designated KAP6-2). The remaining sequence E did not show high sequence homology with either the KAP6-1 or KAP6-2 sequences, but exhibited homology with a bovine KAP6-3 sequence, with the exception of a deletion/insertion of 30 nucleotides. This suggests that E represents ovine KAP6-3. This sequence was detected in only 11% of the sheep investigated, suggesting either a KAP6-3 null allele, or failure to amplify allleles. These results suggest that ovine KAP6 is a complex gene family, that is not only comprised multiple loci, but that is also polymorphic.     

Polymorphism of the ovine keratin-associated protein 1-4 gene (<Emphasis Type="Italic">KRTAP1-4</Emphasis>)

Keratin-associated proteins (KAPs) are one of the main structural components of the wool fibre and form a semi-rigid matrix in which the keratin intermediate filaments are embedded. Variation in the KAP genes may affect the structure of KAPs and hence wool characteristics. In this study, we used PCR-SSCP to analyse ovine KRTAP1-4 (previously B2D), a gene encoding a member of the KAP1-x family. Nine different PCR-SSCP patterns were detected in the 320 sheep that were analysed. Either one or a combination of two patterns was observed for each sheep, which was consistent with these sheep being either homozygous or heterozygous for this gene. DNA sequencing revealed that these patterns represent nine different DNA sequences. All of these sequences were unique, but shared a high homology with the published ovine KRTAP1-4 sequence, suggesting that these sequences represent allelic variants of KRTAP1-4. There were a total of 14 single nucleotide polymorphisms (SNPs) identified and these SNPs tended to be clustered in two regions. Of the 13 SNPs found in the coding region, nine were non-synonymous SNPs and would result in amino acid changes. The variation detected here may have an impact on the structure of KAP1-4 and hence affect wool traits.     

Identification of the ovine KAP11-1 gene (<Emphasis Type="Italic">KRTAP11</Emphasis>-<Emphasis Type="Italic">1</Emphasis>) and genetic variation in its coding sequence

Keratin-associated proteins (KAPs) are a structural component of the wool fibre and form the matrix between the keratin intermediate filaments (KIFs). The gene encoding high sulphur-protein KAP11-1 has been identified in human, cattle and mouse, but not yet in sheep, despite the economic importance of wool. In this study, PCR using primers based on the cattle KAP11-1 gene sequence produced an amplicon of the expected size with sheep DNA. Upon using PCR–Single Stranded Conformational Polymorphism (PCR–SSCP) analysis in 260 sheep, six different PCR–SSCP patterns were detected. Either one or a combination of two banding patterns was observed for each sheep, suggesting they were either homozygous or heterozygous for this gene. Sequencing of the amplicons confirmed the occurrence of six DNA sequences. All of these were unique, and the greatest homology was with KRTAP11-1 sequences from cattle, human and mouse, suggesting that they were derived from the ovine KAP11-1 gene and were allelic variants. The ovine KAP11-1 gene had an open reading frame of 477 nucleotides encoding 159 amino acids. The putative protein was rich in serine, cysteine, and threonine which account for 18.2–18.9, 12.6 and 12.0 mol%, respectively. Of these, approximately 20 of the serine and threonine residues might be phosphorylated. Five nucleotide substitutions were identified, and one was non-synonymous and would result in an amino acid change at a potential phosphorylation site. The genetic variation found in KRTAP11-1 may influence its expression, protein structure, and/or post-translational modifications, and consequently affect wool fibre structure and wool traits.     

Characterization and evolution of ovine MHC class II DQB sequence polymorphism

The second exons of OLA-DQB genes from 13 merino sheep were sequenced following amplification by the polymerase chain reaction or isolation from a cDNA library. Ten distinct exon 2 sequences, coding for 10 novel amino acid sequences, were characterized in these sheep. The single-strand conformation polymorphism technique was shown to be capable of discriminating between all sequences. This brings the total number of different OLA-DQB exon 2 sequences (nucleotide and amino acid) which have been characterized to 12, and demonstrates that the OLA-DQB region is highly polymorphic with 29% of nucleotide and 46% of amino acid sites showing variation. Evidence is presented that the OLA-DQB sequences belong to at least two lineages of DQB genes. Some ovine DQB sequences are more like bovine DQB counterparts than other ovine DQB sequences suggesting that the artiodactyl DQB gene and allele lineages predate the separation of the ovine and bovine species 20 million years ago.     

Gene duplication and gene conversion in class II MHC genes of New Zealand robins (Petroicidae)

In contrast to mammals, the evolution of MHC genes in birds appears to be characterized by high rates of gene duplication and concerted evolution. To further our understanding of the evolution of passerine MHC genes, we have isolated class II B sequences from two species of New Zealand robins, the South Island robin (Petroica australis australis), and the endangered Chatham Island black robin (Petroica traversi). Using an RT-PCR based approach we isolated four transcribed class II B MHC sequences from the black robin, and eight sequences from the South Island robin. RFLP analysis indicated that all class II B loci were contained within a single linkage group. Analysis of 3-untranslated region sequences enabled putative orthologous loci to be identified in the two species, and indicated that multiple rounds of gene duplication have occurred within the MHC of New Zealand robins. The orthologous relationships are not retained within the coding region of the gene, instead the sequences group within species. A number of putative gene conversion events were identified across the length of our sequences that may account for this. Exon 2 sequences are highly diverse and appear to have diverged under balancing selection. It is also possible that gene conversion involving short stretches of sequence within exon 2 adds to this diversity. Our study is the first report of putative orthologous MHC loci in passerines, and provides further evidence for the importance of gene duplication and gene conversion in the evolution of the passerine MHC.Nucleotide sequence data reported in this paper are available in the GenBank database under the accession numbers AY258333–AY258335, AY428561–AY428570, and AY530534–AY530535     

Allelic variation of ovine MHC class II DQA1 and DQA2 genes

In the present study we characterize allelic variation of polymorphic OLA-DQA1 and OLA-DQA2 genes in sheep. To achieve this, PCR primers were designed to independently amplify the second exons of OLA-DQA1 and OLA-DQA2 genes. Single strand conformation polymorphism (SSCP) gel analyses reveals that there are at least 12 distinct OLA-DQA2 sequences, 10 of which have been characterized by sequencing. Six distinct OLA-DQA1 alleles have been sequenced in sheep and we can detect at least seven DQA1 alleles, including a null allele, by SSCP analysis. The second exon of the OLA-DQA2 gene is more polymorphic than the equivalent region of the OLA-DQA1 gene. Thirty-two per cent of nucleotide and 49% of amino acid sites showed variation at the DQA2 locus, compared to 20% of nucleotide and 33% of amino acid sites for DQA1 . Phylogenetic analysis of DQA sequences from a number of species show that sheep DQA1 sequences group together and are more similar to bovine DQA1 sequences than to sheep DQA2 alleles. The majority of OLA-DQA2 sequences are on the same main branch of the phylogenetic tree as bovine DQA2 sequences. However, three sheep DQA2 sequences have a tendency to group with putative bovine DQA3 sequences rather than to other ovine DQA2 alleles. A variety of SSCP gel conditions were tried in order to develop a typing system for the OLA-DQA2 gene. We describe a set of PCR and SSCP conditions which distinguish between all known OLA-DQA2 alleles.     

Identification of single nucleotide polymorphisms in the ovine acetyl-CoA carboxylase-alpha gene

Acetyl-CoA carboxylase (ACACA) is the rate-limiting enzyme in the biosynthesis of palmitic acid and long-chain fatty acids. The dietary intake of palmitic acid, which represents approximately 22% of sheep milk fatty acids, increases low-density lipoprotein (LDL) levels and the risk of developing human cardiovascular diseases. Following the candidate gene approach for improving sheep milk composition, and as a first step in assessing the possible influence of the ovine ACACA gene on milk fatty acid composition and its potential use as an animal genetic model of human atherosclerosis disease, we present here an investigation into the genetic variability of the ovine ACACA gene. We sequenced approximately 6.6 kb of ovine ACACA cDNA, including most of the coding sequence of the protein (except 348 bp), in Spanish Churra sheep. A total of 22 synonymous single nucleotide polymorphisms (SNPs) were identified in the analysed sequence, which were genotyped in a set of eight sheep breeds with different productive aptitudes (dairy, meat and double aptitudes). Two of the SNPs identified, SNP03 (c.1450T>C) and SNP15 (c.5134T>C), which appeared to be breed-specific variations, were situated in the gene sequence coding for the biotin-carboxylase (BC) and acetyl-CoA carboxyltransferase (ACCT) domains of the protein, respectively. Particularly interesting is SNP12 (c.4579G>A), which displayed higher frequencies in the dairy-specialised breeds relative to the meat-producing breeds. Moreover, in the dairy breeds studied, the frequency of this SNP showed a positive correlation with the degree of dairy specialisation. A previously described alternative splicing site (Ser-1200) affecting an important regulatory region of the enzyme was observed in one of the Churra animals. Despite the high genetic variability observed in this gene, none of the identified SNPs caused an amino acid change. However, these polymorphisms could be in linkage disequilibrium with other mutations showing a functional effect on the ACACA enzyme. Hence, the characterisations of the allelic variants reported herein lay the groundwork for evaluation of the potential use of these SNPs as genetic markers of fat content and fatty acid composition in sheep dairy products.     

Ovine trophoblast protein-one: evidence for possible glycosylation.

1. The polymerase chain reaction has been used to amplify specifically the cDNA coding for the secreted form of ovine trophoblast protein-one from a preparation of total cellular RNA extracted from sheep embryos removed from ewes 16 days after mating. 2. Cloning and sequencing of the amplified cDNA revealed two new sequence variants: SPW49 having 93% similarity with deduced amino acid sequences from published cDNA data, and SPW27 a variant coding for a deleted form of ovine trophoblast protein-one. 3. The gene for ovine trophoblast protein-one is intronless. 4. This study provides further evidence for the existence of an ovine trophoblast protein-one gene family. 5. Both variants contain a potential N-glycosylation site not apparent in published sequences for ovine trophoblast protein-one.     

Extended haplotype analysis of ovine ADRB3 using polymerase chain reaction single strand conformational polymorphism on two regions of the gene

The β3 adrenergic receptor (ADRB3) plays a critical role in the regulation of energy metabolism in mammals. In sheep, intronic polymorphism of the ADRB3 gene has been associated with lamb survival and various production traits. This study investigates variation in the ovine ADRB3 3' untranslated region (3'UTR), a region that may impact expression of the gene. Using PCR- single strand conformational polymorphism (SSCP), six unique patterns (named a-f) were observed in an approximately 304-bp amplicon. Sequencing revealed three single-nucleotide polymorphisms (c.*233A>C, c.*271G>C, c.*357A>T) and a single-nucleotide deletion (c.*257delG). Haplotype analyses showed that the previously described allele A defined by variation in the ovine ADRB3 intron can be divided into three haplotypes (Aa, Ab, and Ac). In total, 16 haplotypes through ovine ADRB3 were detected. This study suggests that ovine ADRB3 is highly polymorphic and that the extended haplotype analysis through the promoter, 5'UTR, coding sequence, intron, and 3'UTR needs to be performed to define the full extent of variation in this gene.     

Sequence analysis of duplicated actin genes in Lagenidium giganteum and Pythium irregulare (Oomycota)

Southern analysis of genomic DNA identified multiple-copy actin gene families in Lagenidium giganteum and Pythium irregulare (Oomycota). Polymerase chain reaction (PCR) protocols were used to amplify members of these actin gene families. Sequence analysis of genomic coding regions demonstrated five unique actin sequences in L. giganteum (Lg-Ac 1, 2, 3, 4, 5) and four unique actin sequences in P. irregulare (Pi-Acl, 2, 3, 4); none were interrupted by introns. Maximum parsimony analysis of the coding regions demonstrated a close phylogenetic relationship between oomycetes and the chromophyte alga Costaria costata. Three types of actin coding regions were identified in the chromophyte/oomycete lineage. The type 1 actin is the single-copy coding region found in C. costata. The type 2 and type 3 actins are found in the oomycetes and are the result of a gene duplication which occurred soon after the divergence of the oomycetes from the chromophyte algae. The type 2 coding regions are the single-copy sequence of Phytophthora megasperma, the Phytophthora infestans actB gene, Lg-Ac5 and Pi-Ac2. The type 3 coding regions are the single-copy sequence of Achlya bisexualis, the P. infestans actA gene, Lg-Ac1, 2, 3, 4 and Pi-Acl, 3, 4. Correspondence to: D. Bhattacharya     

Structural differences between allelic variants of the ovine prion protein revealed by molecular dynamics simulations

We have modeled ovine prion protein (residues 119-233) based on NMR structures of PrP from other mammalian species. Modeling of the C-terminal domain of ovine PrP predicts three helices: helix-1 (residues 147-155), flanked by two short beta-strands; helix-2 (residues 176-197), and helix-3 (residues 203-229). Molecular dynamics simulations on this model of ovine PrP have determined structural differences between allelic variants. At neutral pH, limited root mean-squared (RMS) fluctuations were seen in the region of helix-1; between beta-strand-2 and residue 171, and the loop connecting helix-2 and helix-3. At low pH, these RMS fluctuations increased and showed allelic variation. The extent of RMS fluctuation between beta-strand 2 and residue 171 was ARR > ARQ > VRQ. This order was reversed for the loop region connecting helix-2 and helix-3. Although all three variants have the potential to display an extended helix at the C-terminal region of helix-1, the major influence of the VRQ allele was to restrict the conformations of the Asn162 and Arg139 side-chains. Variations observed in the simulations in the vicinity of helix-1 correlated with reactivity of C-terminal specific anti-PrP monoclonal antibodies with peripheral blood cells from scrapie-susceptible and -resistant genotypes of sheep: cells from VRQ homozygous sheep showed uniform reactivity, while cells from ARQ and ARR homozygous sheep showed variable binding. Our data show that molecular dynamics simulations can be used to determine structural differences between allelic variants of ovine PrP. The binding of anti-PrP monoclonal antibodies to ovine blood cells may validate these structural predictions.     

Intraindividual and Interspecies Variation in the 5S rDNA of Coregonid Fish

This study was designed to characterize further the nontranscribed intergenic spacers (NTSs) of the 5S rRNA genes of fish and evaluate this marker as a tool for comparative studies. Two members of the closely related North American Great Lakes cisco species complex (Coregonus artedi and C. zenithicus) were chosen for comparison. Fluorescence in situ hybridization found the ciscoes to have a single multicopy 5S locus located in a C band-positive region of the largest submetacentric chromosome. The entire NTS was amplified from the two species by polymerase chain reaction with oligonucleotide primers anchored in the conserved 5S coding region. Complete sequences were determined for 25 clones from four individuals representing two discrete NTS length variants. Sequence analysis found the length variants to result from presence of a 130-bp direct repeat. No two sequences from a single fish were identical. Examination of sequence from the coding region revealed two types of 5S genes in addition to pseudogenes. This suggests the presence of both somatic and germline (oocyte) forms of the 5S gene in the genome of Coregonus. The amount of variation present among NTS sequences indicates that accumulation of variation (mutation) is greater in this multicopy gene than is gene conversion (homogenization). The high level of sequence variation makes the 5S NTS an inappropriate DNA sequence for comparisons of closely related taxa. Received: 22 August 1997 / Accepted: 31 October 1997     

Genomic structure, promoter analysis, and expression of the porcine (Sus scrofa) Mx1 gene

Allelic polymorphisms at the mouse Mx1 locus affect the probability of survival after experimental influenzal disease, raising the possibility that marker-assisted selection using the homologous locus could improve the innate resistance of pigs to natural influenza infections. Several issues need to be resolved before efficient large scale screening of the allelic polymorphism at the porcine (Sus scrofa) Mx1 locus can be implemented. First, the Mx1 genomic structure has to be established and sufficient flanking intronic sequences have to be gathered to enable simple PCR amplification of the coding portions of the gene. Then, a basic knowledge of the promoter region needs to be obtained as an allelic variation there can significantly alter absolute levels and/or tissue-specificity of MX protein expression. The results gathered here show that the porcine Mx1 gene and promoter share the major structural and functional characteristics displayed by their homologs described in cattle, mouse, chicken, and man. The crucial function of the proximal interferon-sensitive response elements motif for gene expression is also demonstrated. The sequence data compiled here will allow an extensive analysis of the polymorphisms present among the widest spectrum possible of porcine breeds with the aim to identify an Mx1 allele providing antiviral resistance.     

Mitochondrial control region and protein coding genes sequence variation among phenotypic forms of brown trout Salmo trutta from northern Italy

The Pô River basin of northern Italy is the home of distinctive and endemic morphological forms of brown trout Salmo trutta. We used PCR-direct sequencing and RFLP techniques to study variation in the mitochondrial control region of 225 trout in order to assess genetic relatedness among 18 populations from that region. The distribution analysis of these genotypes among north Italian populations confirmed the phylogenetic differentiation of marbled trout Salmo trutta marmoratus populations and the postglacial origin of S. t. fario. Extensive genetic heterogeneity was observed among morphologically identical S. t. fario populations. Introgression with domestic strains of Atlantic basin origin was detected in all forms. In order to assess the phylogenetic congruence detected in coding and noncoding regions of the mitochondrial genome, we also analysed sequence variation in segments of the cytochrome b and ATPase subunit VI genes among representatives of all variants detected in the analysis of the control region. Variation in protein coding genes was only slightly less than that observed in the control region of the same individuals, both in terms of number of variants detected and of pairwise sequence divergence estimates among variants. Phylogenetic analysis based on protein coding genes sequences identified the same phylogenetic groupings defined by the control region analysis and also allowed a partial resolution of their phyletic relationships that was previously unresolved. However, coding and noncoding segments differed substantially in the transition-transversion ratio (17:0 in coding segments vs. 17:6 in control region segments).     

Polymorphism in a T-cell receptor variable gene is associated with susceptibility to a juvenile rheumatoid arthritis subset

This report demonstrates a T-cell receptor (Tcr) restriction fragment length polymorphism, defined by a Tcrb-V6.1 gene probe and Bgl II restriction enzyme, to be absolutely correlated with allelic variation in the coding sequence of a Tcrb-V6.1 gene. A pair of non-conservative amino acid substitutions distinguish the Tcrb-V6.1 allelic variants. An association of this Tcrb-V6.1 gene allelic variant with one form of juvenile rheumatoid arthritis (JRA) was established in a cohort of 126 patients. The association was observed in patients possessing the HLA-DQA1*0101 gene. Among HLA-DQA*0101 individuals, 19 of 26 patients (73.1%) carried one particular Tcrb-V6.1 gene allele as opposed to 11 of 33 controls (33%; p<0.005). Haplotypes carrying this HLA gene have previously been shown to confer increased risk for progression of arthritis in JRA. This demonstration of a disease-associated Tcrb-V gene allelic variant has not, to our knowledge, been previously reported and supports the contribution of polymorphism in the Tcr variable region genomic repertoire to human autoimmune disease.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers M67511 for V6.1A and M67512 for V6.1B.