Genomic Structure (genomic + structure)

Distribution by Scientific Domains


Selected Abstracts


Genomic structure and expression analysis of the RNase , family ortholog gene in the insect Ceratitis capitata

FEBS JOURNAL, Issue 24 2008
Theodoros N. Rampias
Cc RNase is the founding member of the recently identified RNase , family, which is represented by a single ortholog in a wide range of animal taxonomic groups. Although the precise biological role of this protein is still unknown, it has been shown that the recombinant proteins isolated so far from the insect Ceratitis capitata and from human exhibit ribonucleolytic activity. In this work, we report the genomic organization and molecular evolution of the RNase , gene from various animal species, as well as expression analysis of the ortholog gene in C. capitata. The high degree of amino acid sequence similarity, in combination with the fact that exon sizes and intronic positions are extremely conserved among RNase , orthologs in 15 diverse genomes from sea anemone to human, imply a very significant biological function for this enzyme. In C. capitata, two forms of RNase , mRNA (0.9 and 1.5 kb) with various lengths of 3, UTR were identified as alternative products of a single gene, resulting from the use of different polyadenylation signals. Both transcripts are expressed in all insect tissues and developmental stages. Sequence analysis of the extended region of the longer transcript revealed the existence of three mRNA instability motifs (AUUUA) and five poly(U) tracts, whose functional importance in RNase , mRNA decay remains to be explored. [source]


Heparin and Heparan Sulfate Biosynthesis

IUBMB LIFE, Issue 4 2002
Kazuyuki Sugahara
Abstract Heparan sulfate is one of the most informationally rich biopolymers in Nature. Its simple sugar backbone is variously modified to different degrees depending on the cellular conditions. Thus, it matures to have an enormously complicated structure, which most likely exhibits a considerable number of unique overlapping sequences with peculiar sulfation profiles. Such sequences are recognized by specific complementary proteins, which form a huge group of "heparin-binding proteins," and the sugar sequences in turn support unique functions of the respective proteins through specific interactions. The heparan sulfate sequences are not directly encoded by genes, but are created by elaborate biosynthetic mechanisms, which ensure the generation of these indispensable sequences. In heparan sulfate biosynthesis, the tetrasaccharide sequence (GlcA-Gal-Gal-Xyl-), designated the protein linkage region, is first assembled on a specific Ser residue at the glycosaminoglycan attachment site of a core protein. A heparan sulfate chain is then polymerized on this fragment by alternate additions of GlcNAc and GlcA through the actions of glycosyltransferases with overlapping specificities encoded by the tumor suppressor EXT family genes. Then follow various modifications by N -deacetylation and N -sulfation of glucosamine, C5-epimerization of GlcA and multiple O -sulfations of the component sugars. Recent studies have achieved purification of several, and molecular cloning of most, of the enzymes responsible for these reactions. Some of these enzymes are bifunctional. The availability of cDNA probes has facilitated elucidation of the crystal structures for two of the biosynthetic enzymes, demonstration of their intracellular location, and their occurrence in complexes to achieve rapid and efficient synthesis of complex sugar sequences. Genomic structure and transcript analysis have shown the existence of multiple isoforms for most of the sulfotransferases. Many aspects of the heparan sulfate biosynthetic scheme are shared by the structural analog heparin, which is synthesized in mast cells and some other mammalian cells and is several-fold higher degree of polymerization and more extensive modification than heparan sulfate. [source]


Genomic structure, chromosomal localization and expression profile of a porcine long non-coding RNA isolated from long SAGE libraries

ANIMAL GENETICS, Issue 4 2009
H. Ren
Summary Long non-coding RNA (long ncRNA) is a novel class of ncRNA that may be involved in critical cellular processes. A considerable number of mammalian long ncRNAs have now been isolated but only a small number of these nucleic acids have been functionally well characterized. In this study, to determine the structure, regulation and function of long ncRNA in pigs, TncRNA was isolated from this mammal and its potential function during pig foetus development was identified. We anticipated that this would provide new insights into functional genomic studies in the pig. Using LongSAGE libraries generated from Chinese indigenous Tongcheng and Landrace pigs at three prenatal stages, a novel porcine long ncRNA was identified, TncRNA, which was found to be differentially expressed during myogenesis. The full-length cDNA for this gene is 3409 bp, and it harbours a typical polyadenylation signal sequence located 18 bp upstream from the 3, poly (A) tail. Genomic sequence analysis showed that pig TncRNA is alternatively spliced and several transcripts were detected. Using the INRA,University of Minnesota porcine radiation hybrid panel, TncRNA was assigned to SSC2 and found to be closely linked to the microsatellite marker SW256. Porcine TncRNA was found to be expressed in all tissues examined but in variable amounts. Comparisons between the expression profiles of TncRNA at different development stages in Tongcheng and Landrace pigs revealed up-regulation of this molecule in prenatal skeletal muscle, and differential expression in 90-day-old foetal skeletal muscle between these two pig breeds. This is the first report to describe a long ncRNA in pig. Moreover, the distinct expression pattern and structure of porcine TncRNA suggest that it performs complex and critical functions during foetal development. [source]


Genomic structure and gene order of swine chromosome 7q1.1,q1.2

ANIMAL GENETICS, Issue 1 2006
M. Tanaka
Summary To clarify the structure of the porcine genomic region that contains quantitative trait loci (QTL) related to fat, we constructed a bacterial artificial chromosome (BAC) contig of the region from DST to SRPK1 on porcine chromosome 7 and performed low-redundancy ,skim' shotgun sequencing of the clones that composed a minimum tiling path of the contig. This analysis revealed that the gene order from VPS52 to SRPK1 is conserved between human and swine and that comparison with the human sequence identified a rearrangement in the swine genome at the proximal end of VPS52. Analysis of the nucleotide sequences of three BAC clones that included the rearrangement point demonstrated that COL21A1 and DST, which were not present in the corresponding human region, were located adjacent to the rearrangement point. These results provide useful information about the genomic region containing QTL for fat in pigs and help to clarify the structure of the so-called ,extended-class II' region distal to the porcine major histocompatibility complex class II region. [source]


Genome sequences of two novel phages infecting marine roseobacters

ENVIRONMENTAL MICROBIOLOGY, Issue 8 2009
Yanlin Zhao
Summary Two bacteriophages, DSS3,2 and EE36,1, which infect marine roseobacters Silicibacter pomeroyi DSS-3 and Sulfitobacter sp. EE-36, respectively, were isolated from Baltimore Inner Harbor water. These two roseophages resemble bacteriophage N4, a large, short-tailed phage infecting Escherichia coli K12, in terms of their morphology and genomic structure. The full genome sequences of DSS3,2 and EE36,1 reveal that their genome sizes are 74.6 and 73.3 kb, respectively, and they both contain a highly conserved N4-like DNA replication and transcription system. Both roseophages contain a large virion-encapsidated RNA polymerase gene (> 10 kb), which was first discovered in N4. DSS3,2 and EE36,1 also possess several genes (i.e. ribonucleotide reductase and thioredoxin) that are most similar to the genes in roseobacters. Overall, the two roseophages are highly closely related, and share 80,94% nucleotide sequence identity over 85% of their ORFs. This is the first report of N4-like phages infecting marine bacteria and the second report of N4-like phage since the discovery of phage N4 40 years ago. The finding of these two N4-like roseophages will allow us to further explore the specific phage,host interaction and evolution for this unique group of bacteriophages. [source]


Comparative analysis of the self-incompatibility (S -) locus region of Prunus mume: identification of a pollen-expressed F-box gene with allelic diversity

GENES TO CELLS, Issue 3 2003
Tetsuyuki Entani
Background: Self-incompatibility (SI) in the Solanaceae, Rosaceae and Scrophulariaceae is gametophytically controlled by a single polymorphic locus, termed the S -locus. To date, the only known S -locus product is a polymorphic ribonuclease, termed S -RNase, which is secreted by stylar tissue and thought to act as a cytotoxin that degrades the RNA of incompatible pollen tubes. However, understanding how S -RNase causes S -haplotype specific inhibition of pollen tubes has been hampered by the lack of a cloned pollen S -determinant gene. Results: To identify the pollen S -determinant gene, we investigated the genomic structure of the S -locus region of the S1 - and S7 -haplotypes of Prunus mume (Japanese apricot), and identified 13 genes around the S-RNase gene. Among them, only one F-box gene, termed SLF (S -locus F-box), fulfilled the conditions for a pollen S -determinant gene: (i) together with the S-RNase gene, it is located within the highly divergent genomic region of the S -locus, (ii) it exhibits S -haplotype specific diversity among three analysed S -haplotypes, and (iii) it is specifically expressed in pollen, but not in the styles or leaves. Conclusion: The results indicate that SLF is a prime candidate for the pollen S -determinant gene of SI. [source]


Short rare MUC6 minisatellites-5 alleles influence susceptibility to gastric carcinoma by regulating gene,

HUMAN MUTATION, Issue 8 2010
Jeong-Ah Kwon
Abstract The human MUC6 gene, which is reported to be expressed in the stomach and gall bladder, is clustered on chromosome 11p15.5 with other secreted mucins. In this study, the genomic structure of MUC6 has been analyzed and five VNTR (minisatellites; MS1,MS5) were identified. These minisatellites were analyzed in genomic DNA extracted from 1,103 controls, 470 gastric cancer patients, and multigenerational families. Five novel minisatellites were found to be polymorphic and transmitted through meiosis by Mendelian inheritance in families. We evaluated allelic variation in these minisatellites to determine if such variation affected the susceptibility to gastric cancer. A significant association (odds ratio [OR]=7.08) between short rare MUC6,MS5 alleles and relative risks were observed for gastric cancer (95% confidence interval [CI], 1.43,35.19; P=0.005). To investigate the function of minisatellite alleles of MUC6,MS5, we examined the effects on gene expression from luciferase reporters when inserted with minisatellites. Interestingly, when the shortest allele (7TR) was inserted in the promoter, the expression level decreased over 20-fold (P<0.001) in normal and cancer cell lines. Furthermore, the cancer-specific rare allele (TR8) also showed decreased expression levels in cancer cells. Therefore, we suggest that the short rare MUC6,MS5 alleles may be related to cancer development by the regulation of MUC6 expression. Hum Mutat 31:1,8, 2010. © 2010 Wiley-Liss, Inc. [source]


Inversion of the Williams syndrome region is a common polymorphism found more frequently in parents of children with Williams syndrome,

AMERICAN JOURNAL OF MEDICAL GENETICS, Issue 2 2010
Holly H. Hobart
Abstract Williams syndrome (WS) is a multisystem disorder caused by deletion of about 1.55,Mb of DNA (including 26 genes) on chromosome 7q11.23, a region predisposed to recombination due to its genomic structure. Deletion of the Williams syndrome chromosome region (WSCR) occurs sporadically. To better define chance for familial recurrence and to investigate the prevalence of genomic rearrangements of the region, 257 children with WS and their parents were studied. We determined deletion size in probands by metaphase FISH, parent-of-origin of the deleted chromosome by molecular genetic methods, and inversion status of the WSCR in both parents by interphase FISH. The frequency of WSCR inversion in the transmitting parent group was 24.9%. In contrast, the rate of inversion in the non-transmitting parent group (a reasonable estimate of the rate in the general population) was 5.8%. There were no significant gender differences with respect to parent-of-origin for the deleted chromosome or the incidence of the inversion polymorphism. There was no difference in the rate of spontaneous abortion for mothers heterozygous for the WSCR inversion relative to mothers without the inversion. We calculate that for a parent heterozygous for a WSCR inversion, the chance to have a child with WS is about 1 in 1,750, in contrast to the 1 in 9,500 chance for a parent without an inversion. © 2010 Wiley-Liss, Inc. [source]


Characterization of two melanin-concentrating hormone genes in zebrafish reveals evolutionary and physiological links with the mammalian MCH system

THE JOURNAL OF COMPARATIVE NEUROLOGY, Issue 5 2009
Jennifer R. Berman
Abstract Melanin-concentrating hormone (MCH) regulates feeding and complex behaviors in mammals and pigmentation in fish. The relationship between fish and mammalian MCH systems is not well understood. Here, we identify and characterize two MCH genes in zebrafish, Pmch1 and Pmch2. Whereas Pmch1 and its corresponding MCH1 peptide resemble MCH found in other fish, the zebrafish Pmch2 gene and MCH2 peptide share genomic structure, synteny, and high peptide sequence homology with mammalian MCH. Zebrafish Pmch genes are expressed in closely associated but non-overlapping neurons within the hypothalamus, and MCH2 neurons send numerous projections to multiple MCH receptor-rich targets with presumed roles in sensory perception, learning and memory, arousal, and homeostatic regulation. Preliminary functional analysis showed that whereas changes in zebrafish Pmch1 expression correlate with pigmentation changes, the number of MCH2-expressing neurons increases in response to chronic food deprivation. These findings demonstrate that zebrafish MCH2 is the putative structural and functional ortholog of mammalian MCH and help elucidate the nature of MCH evolution among vertebrates. J. Comp. Neurol. 517:695,710, 2009. © 2009 Wiley-Liss, Inc. [source]


Partial genomic structure, mutation analysis and mapping of the porcine inhibitor of DNA binding genes ID1, ID2, ID3 and ID4

ANIMAL GENETICS, Issue 5 2010
A. Stratil
No abstract is available for this article. [source]


Characterization of the porcine AMPK alpha 2 catalytic subunitgene (PRKAA2): genomic structure, polymorphism detection and association study

ANIMAL GENETICS, Issue 2 2010
L. Lin
Summary AMP-activated protein kinase (AMPK), known as a key regulator of cellular energy homeostasis, plays an important role in regulation of glucose and lipid metabolism, and protein synthesis in mammals. The characterization of porcine PRKAA2 encoding the alpha 2 catalytic subunit of AMPK is reported in this study. PRKAA2 was assigned to porcine chromosome 6q by analysis of radiation hybrids (IMpRH panel), and its genomic structure was determined by BAC sequencing. PRKAA2 spans more than 62 kb and consists of nine exons and eight introns. A total of 25 polymorphisms were identified by re-sequencing approximately 7 kb, including all the exons, exon,intron boundaries and 5, and 3, gene flanking regions using twelve founder animals of a Mangalitsa × Piétrain intercross. Neither of two single nucleotide polymorphisms (SNPs) found in the coding region caused an amino acid substitution. Two SNPs (NM_214266.1: c.236+142A>G and NM_214266.1: c.630C>T) in PRKAA2 were genotyped in the Mangalitsa × Piétrain F2 cross (n = 589) and two commercial populations [Piétrain (n = 1173) and German Landrace (n = 536)] and evaluated for association with traits of interest (muscle development and fat deposition). Single SNP and haplotype analyses revealed weak associations between the PRKAA2 genotypes and loin muscle area in the investigated populations. [source]


Characterization of the porcine KIT ligand gene: expression analysis, genomic structure, polymorphism detection and association with coat colour traits

ANIMAL GENETICS, Issue 3 2008
C. Hadjiconstantouras
Summary Kit ligand (KITLG) is the ligand for the type III receptor tyrosine kinase KIT. Studies of the KIT/KITLG pathway in a number of mammalian species have shown that it is important for the development of stem cell populations in haematopoietic tissues, germ cells in reproductive organs and the embryonic migrating melanoblasts that give rise to melanocytes. Consequently, mutations in the pathway may result in a range of defects including anaemia, sterility and de-pigmentation. The cDNA sequence of the porcine KITLG gene has been reported previously, and is an attractive candidate locus for moderating coat colour in pigs. In this paper we report the gene structure and physical mapping of the porcine gene. We also report the identification of polymorphisms in the gene, one of which was used to confirm linkage to chromosome 5. Preliminary RNA expression studies using a panel of tissues have shown that in addition to the known variant lacking exon 6, there is alternative splicing of exon 4. However, little evidence was found for the KITLG gene being linked to variation in colour in a Meishan × Large White cross. [source]


cDNA cloning, genomic structure and polymorphism of the porcine FHL3 gene

ANIMAL GENETICS, Issue 3 2004
B. Zuo
Summary LIM domain proteins are important regulators of the growth, determination and differentiation of cells. Four-and-a-half LIM-only protein 3 (FHL3) is a type of LIM-only protein that contains four tandemly repeated LIM motifs with an N-terminal single zinc finger (half LIM motif). In this study, we have determined the complete coding sequence of pig FHL3 which encodes a 280 amino acid protein. The coding region of the pig FHL3 gene is organized in five exons and spans an approximately 2.1-kb genomic region. Comparative sequencing of six pig breeds revealed three single nucleotide polymorphisms (SNPs) within exon 2 of which an A,G substitution at position 313 changes a codon for arginine into a codon for glycine. The substitution was situated within a PstI recognition site and developed as a PCR-RFLP marker for further use in population variation investigations and association analysis. The A/G polymorphism was segregating only in Landrace pigs. Association studies of the FHL3 polymorphism with carcass traits provided preliminary evidence that the PstI PCR-restriction fragment length polymorphism (RFLP) genotype may be associated with variation in several carcass traits of interest for pig breeding. Further investigations in more Landrace pigs are needed to confirm this. [source]


Cloning of PRL and VIP cDNAs of the Java sparrow (Padda oryzivora)

ANIMAL SCIENCE JOURNAL, Issue 2 2009
Gen HIYAMA
ABSTRACT Complementary DNA (cDNA) of prolactin (PRL) and vasoactive intestinal polypeptide (VIP) of the Java sparrow were cloned and sequenced. The proximal region of the PRL promoter was also identified. Java sparrow PRL was found to have 88.3, 88.3, and 89.1% sequence identity at the cDNA level to PRL of chicken, turkey, and duck, respectively. The predicted amino acid sequence had an overall similarity with a comparable region of chicken (91.4%), turkey (88.9%) and duck (92.0%) PRL. Based on the cDNA sequence and genomic structure of the chicken PRL gene, the proximal promoter was characterized. Sequence analysis of the proximal region of Java sparrow PRL promoter revealed a high degree of similarity to that of chicken, turkey and duck PRL promoters. Moreover, cDNA of prepro-VIP was also cloned and sequenced. Java sparrow prepro-VIP shows high similarity to chicken and turkey prepro-VIP. However, the region upstream of the 5, untranslated region of Java sparrow prepro-VIP did not show similarity to that of chicken. These results suggest that the mechanisms, which regulate expression of the VIP gene, may be different between precocial and altricial birds, but expression of the PRL gene may be widely conserved in avian species. [source]


Molecular cloning, genomic structure, and genetic mapping of two Rdl -orthologous genes of GABA receptors in the diamondback moth, Plutella xylostella

ARCHIVES OF INSECT BIOCHEMISTRY AND PHYSIOLOGY (ELECTRONIC), Issue 2 2010
Guorui Yuan
Abstract The Resistance to dieldrin (Rdl) gene encodes a subunit of the insect , -aminobutyric acid (GABA) receptor. Cyclodiene resistance in many insects is associated with replacement of a single amino acid (alanine at position 302) with either a serine or a glycine in the Rdl gene. Two Rdl -orthologous genes of GABA receptors (PxGABAR,1 and PxGABAR,2) were cloned and sequenced from a susceptible strain (Roth) of Plutella xylostella. PxGABAR,1 and PxGABAR,2 showed 84% and 77% identity with the Rdl gene of Drosophila melanogaster at an amino acid level, respectively. The coding regions of PxGABAR,1 and PxGABAR,2 both comprise ten exons, with two alternative RNA-splicing forms in exon 3 of both genes. At the orthologous position of alanine-302 in D. melanogaster Rdl, PxGABAR,1 has a conserved alanine at position 282. PxGABAR,2 has a serine instead of an alanine at the equivalent position. With two informative DNA markers, both PxGABAR,1 and PxGABAR,2 were mapped onto the Z chromosome of P. xylostella. © 2010 Wiley Periodicals, Inc. [source]


What a difference copy number variation makes

BIOESSAYS, Issue 4 2007
Hildegard Kehrer-Sawatzki
DNA copy number variation (CNV) represents a considerable source of human genetic diversity. Recently,1 a global map of copy number variation in the human genome has been drawn up which reveals not only the ubiquity but also the complexity of this type of variation. Thus, two human genomes may differ by more than 20 Mb and it is likely that the full extent of CNV still remains to be discovered. Nearly 3000 genes are associated with CNV. This high degree of variability with regard to gene copy number between two individuals challenges definitions of normality. Many CNVs are located in regions of complex genomic structure and this currently limits the extent to which these variants can be genotyped by using tagging SNPs. However, some CNVs are already amenable to genome-wide association studies so that their influence on human phenotypic diversity and disease susceptibility may soon be determined. BioEssays 29:311,313, 2007. © 2007 Wiley Periodicals, Inc. [source]


Bacterial artificial chromosome library for genome-wide analysis of Chinese hamster ovary cells

BIOTECHNOLOGY & BIOENGINEERING, Issue 5 2009
Takeshi Omasa
Abstract Chinese hamster ovary (CHO) cell lines are widely used for scientific research and biotechnology. A CHO genomic bacterial artificial chromosome (BAC) library was constructed from a mouse dihydrofolate reductase (DHFR) gene-amplified CHO DR1000L-4N cell line for genome-wide analysis of CHO cell lines. The CHO BAC library consisted of 122,281 clones and was expected to cover the entire CHO genome five times. A CHO chromosomal map was constructed by fluorescence in situ hybridization (FISH) imaging using BAC clones as hybridization probes (BAC-FISH). Thirteen BAC-FISH marker clones were necessary to identify all the 20 individual chromosomes in a DHFR-deficient CHO DG44 cell line because of the aneuploidy of the cell line. To determine the genomic structure of the exogenous Dhfr amplicon, a 165-kb DNA region containing exogenous Dhfr was cloned from the BAC library using high-density replica (HDR) filters and Southern blot analysis. The nucleotide sequence analysis revealed a novel genomic structure in which the vector sequence containing Dhfr was sandwiched by long inverted sequences of the CHO genome. Biotechnol. Bioeng. 2009; 104: 986,994. © 2009 Wiley Periodicals, Inc. [source]


Myths, legends and realities of relapsing fever borreliosis

CLINICAL MICROBIOLOGY AND INFECTION, Issue 5 2009
S. J. Cutler
Relapsing fever borreliosis is often shrouded in mystery. From its discovery, it has evaded fulfilment of Koch's postulates. It has resulted in epidemic waves of infection, although it is now mostly localized to particular endemic pockets of infection. Structurally, this spirochaete breaks many paradigms for conventional microorganisms, e.g. through its segmented genomic structure. Disclosure of host,microbial interactions is revealing a plethora of mechanisms, from antigenic variation to binding of various host-derived proteins. We dispel some of the myths and explore current understanding of this much neglected area through a series of reviews within this theme section. [source]


Translating knowledge into practice in the "post-genome" era,

ACTA PAEDIATRICA, Issue 3 2004
CR Scriver
The Human Genome Project is "completed", but it is only a beginning in the understanding of genomic structure and function. A "human phenome project" is waiting in the wings. The complexity involving a phenotype can be glimpsed, for example, if one enquires into the relationships between mutant phenylalanine hydroxylase (PAH) genotypes and the clinical disorders called PKU /Hyperphenylalaninemia,so called lessons from PKU genotypes and phenotypes. Since genomes speak biochemistry, not phenotype (said RHA Plasterk), for genomics to penetrate medicine, biochemistry and biology must be allies. The ideal translators and ambassadors of the knowledge that must cross the gap between laboratory and bedside are the clinician scientists; restoration of that attenuated community of colleagues is a necessary step in the implementation of genomic medicine. [source]


Ptc, Smo, Sufu, and the Hedgehog signaling pathway in amphioxus

EVOLUTION AND DEVELOPMENT, Issue 6 2009
Yushuang Lin
SUMMARY The Hedgehog (Hh) signaling pathway regulates many developmental processes both in vertebrates and in invertebrates. However, little is known about this pathway in the cephalochordate amphioxus. In this paper, we focus on the Ptc, Smo, and Sufu homologs in amphioxus, which are the key members of the Hh signaling pathway. Their genomic structures show their comparability with homologs in vertebrates. In situ hybridization reveals that amphioxus Ptc, Smo, and Sufu have similar expression patterns in embryogenesis. They are expressed in the neural plate at early neurula stage, and then down-regulated in dorsal neural ectoderm. During development, their transcripts appear and persist in the notochord, the wall of the head cavity, the epithelium of the pharynx, and the gut. The data show that the expression patterns of these three genes are overlapping with Hh and Gli during the embryonic development in amphioxus. Moreover, injection of amphioxus Hh RNA into zebrafish-fertilized eggs can expand the expression domains of Ptc1 and Nk2.2a, the target genes of the Hh signaling pathway, which is similar to the injection of zebrafish Sonic hh a (zShha) and Sonic hh b (zShhb). Our results suggest that amphioxus may possess a conserved and functional Hh signaling pathway similar to that of vertebrates. [source]


Common promoter deletion is associated with 3.9-fold differential transcription of ovine CCR5 and reduced proviral level of ovine progressive pneumonia virus

ANIMAL GENETICS, Issue 5 2009
S. N. White
Summary Chemokine (C-C motif) Receptor 5 (CCR5) is a chemokine receptor that regulates immune cell recruitment in inflammation and serves as a coreceptor for human immunodeficiency virus (HIV). A human CCR5 coding deletion (termed delta-32) results in strong resistance to HIV infection, and sequence variants in CCR5 regulatory regions have been implicated in delayed progression to acquired immune deficiency syndrome. Both ovine progressive pneumonia virus (OPPV), also known as maedi-visna, and HIV are macrophage-tropic lentiviruses, have similar genomic structures, and cause lifelong persistent host infection, suggesting CCR5 may have a role in regulating OPPV provirus levels. Therefore, the ovine CCR5 genomic sequence was determined, and sequence variants were obtained from the open reading frame and surrounding regulatory sites. One CCR5 variant contained a 4-base deletion within a binding site for octamer transcription factors in the promoter region. A test for differential transcription from each allele in heterozygous animals showed a 3.9-fold transcription difference (P < 0.0001). OPPV proviral levels were also measured in 351 naturally exposed Rambouillet, Polypay and Columbia sheep. Deletion homozygotes showed reduced OPPV proviral levels among these animals (P < 0.01). The association of this CCR5 promoter deletion with OPPV levels will need to be validated in additional populations before the deletion can be recommended for widespread use in marker-assisted selection. However, because of the large impact on transcription and because CCR5 has roles in inflammation, recruitment of effector cells, and cell-mediated immunity, this deletion may play a role in the control of infections of many diverse pathogens of sheep. [source]