Novel avian leukosis virus-related endogenous proviruses from layer chickens: characterization and development of locus-specific assays.

During the course of evolution, vertebrate genomes have been invaded and colonized by retroviruses. In humans, for example, endogenous retroviruses (long terminal repeat elements) occupy roughly twice as much sequence space as essential genes. There are numerous reports in the literature implicating endogenous proviruses in the modulation of host physiology. The fact that many of these host-virus interactions take place in a proviral locus-specific manner speaks to the need for rapid assays for element profiling. This report deals with the identification of novel elements belonging to a family of endogenous retroviruses, designated ALVE, that reside in the genome of the chicken and that are closely related to exogenous avian leukosis viruses. The study of ALVE elements in the chicken genome serves as a model system for understanding the interplay between endogenous viruses and their vertebrate hosts in general, including humans. In this report, we present locus-specific, diagnostic PCR-based assays for 2 novel ALVE elements. In addition, we characterize the proviral structures and examine the genomic environments of both novel elements along with a previously described element known as ALVE-NSAC-3.

Frequencies of PrP genotypes and their implication for breeding against scrapie susceptibility in nine Pakistani sheep breeds.

Prion protein (PrP) gene of 308 sheep was genotyped to investigate polymorphisms at scrapie-associated codons 136, 154 and 171 to assess the resistance of nine different Pakistani sheep breeds to natural/typical scrapie. As a result six genotypes were established on the basis of polymorphic codons 154 and 171. The most scrapie-susceptible codon 136 (A/V) was monomorphic (A) in all breeds. Wild-type genotype ARQ/ARQ was detected with maximum prevalence ranging from 63.2% in crossbred Pak-karakul to 100% in native Buchi, Kachi and Thalli breeds. The most frequent of typical scrapie-associated genotypes was ARQ/ARR as indicated by five of nine breeds. The coding region of PrP gene of 49 animals from the total sampled was also sequenced to ascertain additional polymorphisms. Polymorphism was found in 13 animals of the six breeds in codons 101(Q/R), 112(M/T), 146(N/S) and 189(Q/L) and ten genotypes were established on the basis of these polymorphic codons. Only Hissardale possessed five of the ten genotypes. The most frequent genotype was M(112)ARQ/T(112)ARQ detected in Hissardale, Pak-karakul and Awassi, whereas genotypes ARQr(231)/ARQr(231) and ARQR(231)/ARQr(231) (established on the basis of silent polymorphism agg/cgg-R/R) were detected in all breeds. Some animals consisted of three polymorphisms at different PrP codons that are not common in European breeds. An infrequent double heterozygosity (c/c a/g g/t) for codon 171 resulting in a genotype R/H was also detected in three animals each one from Kajli, Hissardale and Pak-karakul. This study concludes that all native sheep breeds are poor in scrapie-resistant PrP genotypes and could contract scrapie if exposed to prions.

Cloning and characterization of a bovine genomic fragment homologous to epidermal growth factor genes.

Epidermal growth factor (EGF) is a potent mitogen for a variety of cell types. The 53-amino acid mature EGF protein is encoded by sequences in exons 20 and 21 of a gene spanning over 110 kb. In this study, we report the cloning and characterization of 7.5 kb of bovine genomic sequence homologous to exon 19 through 21 from EGF genes from other mammalian species. The cloned gene fragment had an unusual sequence composition in the form of an in-frame TGA codon in the coding sequence. The sequence was expressed at low levels in kidney tissue and the corresponding cDNA contained the TGA codon. The level of similarity between the bovine exonic sequence and the human, porcine, murine, feline, and canine corresponding sequences varied from 64% to 73%; however, when only sequences encoding the mature EGF protein were compared, the level of similarity between the bovine sequence and the sequence from these species was 59% to 66%. The sequence similarity of the deduced mature protein was lower (34% to 39%) than the sequence similarity of the deduced propeptide. Although the cloned sequences could originate from a bovine EGF pseudogene, the possibility exists that they originate from the functional EGF gene. An as yet unidentified mechanism to by-pass the stop codon would allow the synthesis of a functional EGF protein. Alternatively, the cloned sequence could originate from an EGF-like gene.

A consensus linkage map of the chicken genome.

A consensus linkage map has been developed in the chicken that combines all of the genotyping data from the three available chicken mapping populations. Genotyping data were contributed by the laboratories that have been using the East Lansing and Compton reference populations and from the Animal Breeding and Genetics Group of the Wageningen University using the Wageningen/Euribrid population. The resulting linkage map of the chicken genome contains 1889 loci. A framework map is presented that contains 480 loci ordered on 50 linkage groups. Framework loci are defined as loci whose order relative to one another is supported by odds greater then 3. The possible positions of the remaining 1409 loci are indicated relative to these framework loci. The total map spans 3800 cM, which is considerably larger than previous estimates for the chicken genome. Furthermore, although the physical size of the chicken genome is threefold smaller then that of mammals, its genetic map is comparable in size to that of most mammals. The map contains 350 markers within expressed sequences, 235 of which represent identified genes or sequences that have significant sequence identity to known genes. This improves the contribution of the chicken linkage map to comparative gene mapping considerably and clearly shows the conservation of large syntenic regions between the human and chicken genomes. The compact physical size of the chicken genome, combined with the large size of its genetic map and the observed degree of conserved synteny, makes the chicken a valuable model organism in the genomics as well as the postgenomics era. The linkage maps, the two-point lod scores, and additional information about the loci are available at web sites in Wageningen (http://www.zod.wau.nl/vf/ research/chicken/frame_chicken.html) and East Lansing (http://poultry.mph.msu.edu/).

Characterization of four endogenous viral genes in semi-congenic lines of meat chickens.

Restriction fragment length polymorphism analyses were used to examine endogenous viral genes (ev genes or ALVE genes) of the avian leukosis viral (ALV) family in semi-congenic lines of meat chickens. The Generation 6 lines examined in this study were semi-congenic in that each contained birds with either zero or with one ALVE gene in hemizygous state plus some solitary long terminal repeat (LTR) elements. Using four restriction enzymes on chicken genomic DNA and two probes, one representing the entire ALV retroviral genome and one with only a small part plus the LTR, four ALVE genes were characterized. Each seemed to be complete with no detectable deletions. None appeared to be similar to known ALVE genes of White Leghorns, whereas two of the four may be the same as ALVE genes reported by others in White Plymouth Rock chickens.

Sequence and phylogenetic analysis of the SNF4/AMPK gamma subunit gene from Drosophila melanogaster.

To optimize gene expression under different environmental conditions, many organisms have evolved systems which can quickly up- and down-regulate the activity of other genes. Recently, the SNF1 kinase complex from yeast and the AMP-activated protein kinase complex from mammals have been shown to represent homologous metabolic sensors that are key to regulating energy levels under times of metabolic stress. Using heterologous probing, we have cloned the Drosophila melanogaster homologue of SNF4, the noncatalytic effector subunit from this kinase complex. A sequence corresponding to the partial genomic sequence as well as the full-length cDNA was obtained, and shows that the D. melanogaster SNF4 is encoded in a 1944-bp cDNA representing a protein of 648 amino acids (aa). Southern analysis of Drosophila genomic DNA in concert with a survey of mammalian SNF4 ESTs indicates that in metazoans, SNF4 is a duplicated gene, and possibly even a larger gene family. We propose that one gene copy codes for a short (330 aa) protein, whereas the second locus codes for a longer version (<410 aa) that is extended at the carboxy terminus, as typified by the Drosophila homologue presented here. Phylogenetic analysis of yeast, invertebrate, and multiple mammalian isoforms of SNF4 shows that the gene duplication likely occurred early in the metazoan lineage, as the protein products of the different loci are relatively divergent. When the phylogeny was extended beyond the SNF4 gene family, SNF4 shares sequence similarity with other cystathionine-beta-synthase domain-containing proteins, including IMP dehydrogenase and a variety of uncharacterized Methanococcus proteins.

Locus-specific diagnostic tests for endogenous avian leukosis-type viral loci in chickens.

The genome of the chicken, Gallus gallus, contains endogenous proviral elements (ALVE elements or ev genes) that display a high degree of similarity to the Avian Leukosis class of retroviruses. The ALVE proviruses are known to modulate physiological processes of the host birds. Different ALVE elements retain variable portions of the complete, prototype viral genome, and each provirus resides in its own specific location within the host genome. Thus, each ALVE element has its own particular potential to modulate host physiology depending on the nature of its integration site, the completeness of the proviral genome, and the level of expression of the locus. It is important, therefore, to be able to establish the ALVE element profiles of chickens quickly and accurately, both in the laboratory and in a commercial setting. The current method of choice for simple, quick, and accurate typing is the polymerase chain reaction (PCR). This paper reviews the present status of PCR typing of ALVE proviruses and lists the assay protocols for 19 different elements. In addition, it compares the insertion sites of these elements in an effort to identify common motifs at ALVE integration sites.

Cloning and expression of a chicken alpha-amylase gene.

We have isolated and sequenced a genomic clone for a pancreatic alpha-amylase gene (amy) of the chicken (Gallus gallus). The gene is interrupted by nine introns, spans over 4 kb, and encodes a protein (AMY) of 512 aa that is 83% identical to the human pancreatic alpha-amylase enzyme. Southern blot analysis of chicken DNA revealed two distinct pancreatic amy loci. In addition, we have generated a cDNA from chicken pancreatic RNA corresponding to the coding sequence of the genomic clone. The cDNA was inserted into a yeast expression vector, and the resulting construct used to transform Saccharomyces cerevisiae cells. Transformed yeast cells synthesized and secreted active AMY enzyme, and the gel migration pattern of the alpha-amylase produced by the yeast cells was identical to that of the native chicken enzyme.

Long range-inverse PCR (LR-IPCR): extending the useful range of inverse PCR.

The inverse PCR technique (IPCR) has proven to be very useful for the amplification of uncharacterized stretches of DNA upstream or downstream of regions that have already been cloned and sequenced. In practice, however, chromosome walking using standard IPCR is often a slow, repetitive process because only small DNA fragments are effectively amplified. The development of long and accurate PCR methodology has greatly expanded the range of DNA fragment sizes that is amenable to amplification by conventional PCR. We reasoned that combining long range PCR with IPCR would also extend the useful range of the IPCR technique. In this paper we demonstrate the utility of the hybrid, long range-inverse PCR (LR-IPCR) technique by generating clones containing long stretches of DNA flanking endogenous chicken proviral elements.

Prediction of heterosis from DNA fingerprints in chickens.

To assess the value of DNA fingerprints for the prediction of heterosis in chickens, retrospective analyses of data from three crossbreeding experiments and DNA fingerprints (DEP) of parental strains were conducted using two minisatellite and one middle-repetitive DNA probes. DEP bands were assessed on pooled DNA samples of 10-15 individuals per parental genetic group. The number of DEP bands evaluated in the experiments ranged from 81 to 139. The probes varied in their predictive value, but predictability of heterosis generally increased with multiple probes. Highly significant correlations (0.68-0.87) between band sharing ratios (SH) and heterosis were found in 25 crosses of White Leghorns in the first egg production cycle for age at sexual maturity, egg production, and mature body weight: traits with heterosis of 10% or more of the means. Regressions on SH explained 78.4% of the variation in heterosis in age at sexual maturity, 60.2% in egg production and 46.4% in mature body weight. For "broiler" traits with heterosis of < 1%, none of the correlations, based on 13 crosses, were significant. It was concluded that multilocus probe DFP of pooled DNA samples show promise as predictors of heterosis.

Characterization of eight endogenous viral (ev) genes of meat chickens in semi-congenic lines.

Restriction fragment length polymorphism analysis was conducted for a set of eight different meat chicken-derived endogenous viral genes (ev genes) of the avian leukosis viral (ALV) family. Each viral element was first isolated into a separate single-element line by selective breeding. Genomic DNA from the founder male for each semi-congenic, single-element line was digested with each of four restriction enzymes, and the resulting Southern blots were each hybridized with up to four probes representing different portions of the ALV retroviral genome. Among the eight elements, there was one that represents the broiler equivalent of locus ev3 of White Leghorn chickens. A second broiler element showed a SacI-specific junction fragment similar to that of ev8. The remainder appeared to be different from any of the 21 ev genes previously described for White Leghorn chickens. Four of the eight elements examined were essentially complete, but the rest have sustained internal deletions.