Brandy M. Marron scite author profile

Background: The domestic pig is being increasingly exploited as a system for modeling human disease. It also has substantial economic importance for meat-based protein production. Physical clone maps have underpinned large-scale genomic sequencing and enabled focused cloning efforts for many genomes. Comparative genetic maps indicate that there is more structural similarity between pig and human than, for example, mouse and human, and we have used this close relationship between human and pig as a way of facilitating map construction.

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A deletion mutation in bovine SLC4A2 is associated with osteopetrosis in Red Angus cattle

Meyers

McDaneld

Swist

et al. 2010

BMC Genomics

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BackgroundOsteopetrosis is a skeletal disorder of humans and animals characterized by the formation of overly dense bones, resulting from a deficiency in the number and/or function of bone-resorbing osteoclast cells. In cattle, osteopetrosis can either be induced during gestation by viral infection of the dam, or inherited as a recessive defect. Genetically affected calves are typically aborted late in gestation, display skull deformities and exhibit a marked reduction of osteoclasts. Although mutations in several genes are associated with osteopetrosis in humans and mice, the genetic basis of the cattle disorder was previously unknown.ResultsWe have conducted a whole-genome association analysis to identify the mutation responsible for inherited osteopetrosis in Red Angus cattle. Analysis of >54,000 SNP genotypes for each of seven affected calves and nine control animals localized the defective gene to the telomeric end of bovine chromosome 4 (BTA4). Homozygosity analysis refined the interval to a 3.4-Mb region containing the SLC4A2 gene, encoding an anion exchanger protein necessary for proper osteoclast function. Examination of SLC4A2 from normal and affected animals revealed a ~2.8-kb deletion mutation in affected calves that encompasses exon 2 and nearly half of exon 3, predicted to prevent normal protein function. Analysis of RNA from a proven heterozygous individual confirmed the presence of transcripts lacking exons 2 and 3, in addition to normal transcripts. Genotyping of additional animals demonstrated complete concordance of the homozygous deletion genotype with the osteopetrosis phenotype. Histological examination of affected tissues revealed scarce, morphologically abnormal osteoclasts displaying evidence of apoptosis.ConclusionsThese results indicate that a deletion mutation within bovine SLC4A2 is associated with osteopetrosis in Red Angus cattle. Loss of SLC4A2 function appears to induce premature cell death, and likely results in cytoplasmic alkalinization of osteoclasts which, in turn, may disrupt acidification of resorption lacunae.

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Identification of a mutation associated with factor XI deficiency in Holstein cattle

Marron¹,

Robinson²,

Gentry³

et al. 2004

Animal Genetics

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An autosomal recessive deficiency of blood coagulation factor XI (FXI) has been described in Holstein cattle. Current testing methods are unsuitable for accurately identifying carriers (heterozygotes) of the disease. To identify the molecular basis of this deficiency, a polymerase chain reaction (PCR)-based strategy was implemented to clone and sequence the bovine FXI gene (F11) from animals of different genotypes. Approximately 14 kb of genomic DNA sequence and 1.8 kb of cDNA sequence, corresponding to exon 3 through the 3'-UTR, of the bovine gene were obtained. Comparison of sequences derived from homozygous normal and deficient individuals revealed that FXI deficiency in Holsteins is associated with the insertion of a 76 bp segment [AT(A)(28)TAAAG(A)(26)GGAAATAATAATTCA] within exon 12. This insertion introduces a stop codon that results in a mature FXI protein lacking the functional protease domain encoded by exons 13, 14 and 15. Based on these data, a DNA-based diagnostic test has been developed for accurate genotyping. Using this method, the frequency of the mutated allele has been determined to be 1.2% in a contemporary population of the USA Holstein sires.

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A BAC-based physical map of the apple genome

et al. 2007

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Genome-wide physical mapping is an essential step toward investigating the genetic basis of complex traits as well as pursuing genomics research of virtually all plant and animal species. We have constructed a physical map of the apple genome from a total of 74,281 BAC clones representing approximately 10.5x haploid genome equivalents. The physical map consists of 2702 contigs, and it is estimated to span approximately 927 Mb in physical length. The reliability of contig assembly was evaluated by several methods, including assembling contigs using variable stringencies, assembling contigs using fingerprints from individual libraries, checking consensus maps of contigs, and using DNA markers. Altogether, the results demonstrated that the contigs were properly assembled. The apple genome-wide BAC-based physical map represents the first draft genome sequence not only for any member of the large Rosaceae family, but also for all tree species. This map will play a critical role in advanced genomics research for apple and other tree species, including marker development in targeted chromosome regions, fine-mapping and isolation of genes/QTL, conducting comparative genomics analyses of plant chromosomes, and large-scale genomics sequencing.

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Genomic organization and evolution of the ULBP genes in cattle

et al. 2006

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Background: The cattle UL16-binding protein 1 (ULBP1) and ULBP2 genes encode members of the MHC Class I superfamily that have homology to the human ULBP genes. Human ULBP1 and ULBP2 interact with the NKG2D receptor to activate effector cells in the immune system. The human cytomegalovirus UL16 protein is known to disrupt the ULBP-NKG2D interaction, thereby subverting natural killer cell-mediated responses. Previous Southern blotting experiments identified evidence of increased ULBP copy number within the genomes of ruminant artiodactyls. On the basis of these observations we hypothesized that the cattle ULBPs evolved by duplication and sequence divergence to produce a sufficient number and diversity of ULBP molecules to deliver an immune activation signal in the presence of immunogenic peptides. Given the importance of the ULBPs in antiviral immunity in other species, our goal was to determine the copy number and genomic organization of the ULBP genes in the cattle genome.

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Brandy M. Marron

A high utility integrated map of the pig genome

A deletion mutation in bovine SLC4A2 is associated with osteopetrosis in Red Angus cattle

Identification of a mutation associated with factor XI deficiency in Holstein cattle

A BAC-based physical map of the apple genome

Genomic organization and evolution of the ULBP genes in cattle

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