Characterisation of a bovine/murine hybrid cell panel informative for all bovine autosomes

A bovine/murine hybrid cell panel consisting of 57 cell lines was typed with 124 markers by PCR, Southern hybridisation and isozyme analysis in order to establish its utility as a resource for genome mapping. All bovine chromosomes, including the sex chromosomes were represented in the panel. Computerised analysis of syntenies indicated that there are no cell lines containing only a single bovine chromosome. The panel was used to map 10 new bovine microsatellite markers, and the MYL6 and CPE genes. This panel is informative for all bovine chromosomes other than the sex-specific region of the X chromosome and can be used in synteny mapping studies. At present, due to the relatively small number of markers typed, the resolution of the panel does not go beyond the chromosomal level.     

The bovine B and C blood group systems are not likely to be the orthologues of human RH: an interesting twist in the comparative map

We tested the hypothesis that either the bovine B or C blood group system is the orthologue of human RH. A comparative linkage mapping strategy was applied, using blood typing and restriction fragment length polymorphism (RFLP) analysis of four loci linked to RH on HSA1; PGD, FGR, ALPL and FUCA1. Four sires with a total of 255 half-sib offspring were used for the linkage analysis. Strong support for linkage between ALPL, FUCA1 and FGR was obtained for all sire families (lod scores >11 for all pairwise comparisons). This new linkage group was assigned to bovine synteny group U17 based on previous somatic cell mapping of the FGR locus. The most favoured order is ALPL—FUCA1—FGR (2·18:1), with ALPL and FGR 5·4 cm and 6·3 cm , respectively, from FUCA1. The B and C blood group systems and PGD were genetically independent of each other and all other markers, indicating that neither B nor C is likely to be the bovine orthologue of human RH. However, given available comparative mapping data, there is some chance that the bovine orthologue of RH is on bovine synteny group U6. Although gene order appears to be conserved with humans, the differences in recombination rates between these three loci in cattle, humans and mice strongly suggest that it is not possible to use human map distances to predict map distances in cattle, making it imperative that bovine gene mappers continue to emphasize adding type I markers to the bovine linkage map.     

A novel concatenated dimer of recombinant bovine somatotropin

A novel protein concatenated dimer structure was generated during the folding/oxidation of inclusion bodies of recombinant bovine somatotropin synthesized inEscherichia coli. The structure of this dimeric molecule was determined by peptide mapping with trypsin, and limited proteolysis by thrombin. Peptide mapping demonstrated that the two disulfide pairs in bovine somatotropin dimer were identical to those in monomer. Limited proteolysis with thrombin resulted in the cleavage of only a single peptide bond between arginine-132 and alanine-133 in bovine somatotropin dimer. This single peptide bond cleavage was sufficient to convert this dimer to a monomeric molecular weight species as analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis and HPLC. Since the single cleaved peptide bond is present in the large disulfide loop of bovine somatotropin, these data demonstrate that the dimeric molecule exists as a novel concatenated structure through the interlocking of the disulfide loops of this protein.     

Somatic cell mapping of bovine EC-SOD and SOD1L loci.

cDNA probes of human extracellular superoxide dismutase (EC-SOD) and bovine superoxide dismutase 1 (SOD1) genes were hybridized to Southern blots containing genomic DNAs from cow-rodent somatic cell lines segregating bovine chromosomes. The SOD1 probe identified two loci: the coding locus (SOD1), which mapped to bovine U10; and a related locus (SOD1L), which mapped to U11. EC-SOD mapped to bovine U15. The mapping of EC-SOD to human chromosome 4, and our mapping of EC-SOD to U15, further defines a region of extensive syntenic conservation between humans and domestic cows.     

A comparative map of bovine chromosome 19 based on a combination of mapping on a bacterial artificial chromosome scaffold map, a whole genome radiation hybrid panel and the human draft sequence

We have constructed a medium density physical map of bovine chromosome 19 using a combination of mapping loci on both a bovine bacterial artificial chromosome (BAC) scaffold map and a whole genome radiation hybrid (WGRH) panel. The resulting map contains 70 loci spanning the length of bovine chromosome 19. Three contiguous groups of BACs were identified on the basis of multiple loci mapping to individual BAC clones. Bovine chromosome 19 was found in this study to be comprised almost entirely from regions of human chromosome 17, with a small region putatively assigned to human chromosome 10. Fourteen breakpoints between the bovine and human chromosomes were detected, with a possibility of five more based on ordering of the WGRH map.     

Definition,distribution, and use of a conserved Bovidae retroposon element sequence motif

Based on a data-base search, the sequences of 32 Bovidae retroposon elements have been compared. Two conserved areas are identified, and one of the corresponding sequences of the derived bovine consensus was used to design oligonucleotides as primer molecules for random DNA amplification of Bovidae DNA. Such a primer binding site should occur on average every 10,000 bp in the bovine genome, as suggested by a survey of published sequences. This estimate about the distribution of these possible primer binding sites was experimentally substantiated by mapping four of these primer binding sites within 40 kb of contiguous bovine DNA, carrying the heretofore undescribed bovine lactoferrin gene. Furthermore, these conserved, ubiquitous sequence motifs prove to be useful for mapping of bovine DNA.     

Sequencing, chromosomal mapping, and functional characterization of bovine FLICE-like inhibitory protein (FLIP)

FLICE-like inhibitory protein (FLIP) has been shown in both humans and mice to inhibit apoptosis and NF-kappaB activation induced by pro-inflammatory mediators. The activation of NF-kappaB and the induction of apoptosis are critical events in the pathogenesis of a variety of disease states in cattle, including mastitis. Since FLIP is known to moderate these events in other species, we mapped the bovine FLIP gene, sequenced bovine FLIP cDNA, and characterized its expression in cultured primary bovine endothelial cells. Sequencing of bovine FLIP revealed approximately 83, 74, and 68% amino acid sequence identity to its porcine, human, and murine orthologs, respectively. Bovine FLIP was mapped to chromosome 2 by radiation hybrid mapping. Interestingly the region to which bovine FLIP maps contains a putative quantitative trait locus for functional herd life which is an indicator of a cow's ability to survive involuntary culling due primarily to mastitis and infertility. In addition to sequencing and mapping, the function of bovine FLIP was studied. Over-expression of bovine FLIP protected against bacterial lipopolysaccharide (LPS)- and TNF-alpha-induced apoptosis in bovine endothelial cells consistent with previous studies of human FLIP. In addition, elevated expression of bovine FLIP blocked LPS- and TNF-alpha-induced upregulation of NF-kappaB-dependent gene products as assayed by E-selectin expression. Only the full-length bovine FLIP protein could inhibit NF-kappaB activation induced by LPS, whereas the death effector domain region alone was able to inhibit TNF-alpha-induced NF-kappaB activation. Together, these data demonstrate the conservation of FLIP's ability to inhibit apoptosis and to downregulate NF-kappaB activation across species.     

Syntenic assignment of dopamine tautomerase (DCT) to bovine chromosome 12

Heterologous primers were used to amplify an exon and intron-containing segment of the bovine homologue of the human dopachrome tautomerase gene. After confirmation of homo-logy by sequence analysis (exon sequence similarity greater than 90%), bovine-specific primers were developed for synteny mapping purposes. The dopachrome tautomerase gene was assigned to bovine chromosome 12 (BTA12) with 97% concordance to the coagulation factor 10 locus. Together with previous synteny mapping of bovine chromosome 12 genes, fms-related tyrosine kinase, esterase D and 5-hydroxytryptamine receptor 2, this assignment further indicates conservation between human chromosome 13q and bovine chromosome 12.     

An extensive and comprehensive radiation hybrid map of bovine Chromosome 15: comparison with human Chromosome 11

An extensive and comprehensive radiation hybrid map of bovine Chromosome 15 (BTA15) was built with 42 anonymous markers, 3 ESTs, and 49 genes. This work allows us to refine the comparative map between human Chromosome (Chr) 11 (HSA11) and BTA15. Four blocks with a similar gene content and relatively good gene order conservation were identified. The discrepancies are concentrated on closely positioned genes for which discrimination is not possible between mapping resolution limits in either the human or the bovine maps and true local inversions. Using the gene order similarity and the human physical map as starting point, we estimated the overall physical length of BTA15 to be around 75.3 Mb. The INRA bovine BAC library was screened for all the markers ordered on the bovine map, which will provide anchors for future efforts in the construction of a physical map of the bovine genome. Finally, this map contains the majority of publicly available polymorphic markers described for BTA15 and integrates those with comparative mapping information. It should, therefore, constitute a powerful tool in the identification of relevant candidate genes in regions of BTA15 harboring economic trait loci.     

Chromosomal mapping of calmodulin 1 (CALM1) and alpha-globin 1 genes (HBA1) in the bovine.

Chromosomal mapping of the bovine calmodulin 1 and alpha-globin 1 genes was performed by analyzing bovine/murine somatic cell hybrid DNAs with PCR using primers specific for 3'-untranslated regions of those bovine genes. The calmodulin 1 and alpha-globin 1 genes were assigned to bovine chromosomes 25 and 29, respectively. Results from the present study should contribute to improvement in map resolution of bovine chromosomes and increase comparative information available on bovine chromosomes.     

Assignment of bovine synteny group U2 to chromosome 9

One cosmid containing a microsatellite (INRA144, D9S14) was assigned to bovine synteny group U2 by somatic cell genetics and localized to bovine chromosome 9q25 by fluorescent in situ hybridization. These results permitted the assignment of one more synteny group to a bovine chromosome. There are now 22 out of 31 bovine synteny groups which are related to a chromosome. The mapping data have been entered in the BovMap database, Jouy-en-Josas, France.     

Assignment of the HOX2 and HOX3 gene clusters to the bovine chromosome regions 19q17-qter and 5q14-23

The homeobox 2 (HOX2) and homeobox 3 (HOX3) clusters have been chromosomally assigned in cattle by in situ hybridization. The probes employed were a murine probe for the mapping of HOX2 to 19q17-qter and human probes for the mapping of HOX3 to 5q14-q23. These assignments confirm the chromosomal assignment of two syntenic groups, consisting of loci located on human chromosome 12 (bovine chromosome 5) and the long arm of human chromosome 17 (bovine chromosome 19).     

Cosmid-derived markers anchoring the bovine genetic map to the physical map

The mapping strategy for the bovine genome described in this paper uses large insert clones as a tool for physical mapping and as a source of highly polymorphic microsatellites for genetic typing, and was one objective of the BovMap Project funded by the European Union (UE). Eight-three cosmid and phage clones were characterized and used to physically anchor the linkage groups defining all the bovine autosomes and the X Chromosome (Chr). By combining physical and genetic mapping, clones described in this paper have led to the identification of the linkage groups corresponding to Chr 9, 12, 16, and 25. In addition, anchored loci from this study were used to orient the linkage groups corresponding to Chr 3, 7, 8, 9, 13, 16, 18, 19, and 28 as identified in previously published maps. Comparison of the estimated size of the physical and linkage maps suggests that the genetic length of the bovine genome may be around 4000 cM. Received: 1 July 1996 / Accepted: 13 September 1996     

Physical mapping of CSF2RA, ANT3 and STS on the pseudoautosomal region of bovine chromosome X

The pseudoautosomal region (PAR) of bovine chromosome X (BTA X) has a particularly low representation of genes and markers, making comparative gene mapping in this region difficult. We describe the localization of three genes, colony-stimulating factor 2 receptor alpha (CSF2RA), ADP/ATP translocase 3 (ANT3) and steroid sulphatase (STS) on PAR of BTA X using a 5000 rad whole-genome radiation hybrid panel. The relationship of these genes to a number of previously mapped simple sequence repeat (microsatellite) markers is determined by physical and radiation hybrid mapping methods. The resulting radiation hybrid map resolves a discrepancy between the two major bovine linkage maps in the PAR of BTA X.     

Chromosomal mapping of HSPCB and MYL1 expressed abundantly in the bovine fetus

Chromosomal mapping of expressed sequence tags for HSPCB and MYL1 expressed abundantly in the bovine fetus was performed by analyzing bovine/murine somatic cell hybrid DNAs with polymerase chain reaction (PCR) using primers specific for those 3'-untranslated regions. HSPCB and MYL1 were assigned to bovine chromosomes 23 and 2, respectively.     

Detection of desamido forms of purified bovine growth hormone

Tryptic peptide mapping and amino acid sequencing were used for the identification of desamido forms of bovine growth hormone. The major desamido forms of bovine growth hormone resulted from deamidation of asparagine in position 13, 148 and glutamine 140. These forms did not seem to be produced by prolonged treatment of bovine growth hormone in tryptic hydrolysis.     

Assignment of SRY, ANT3, and CSF2RA to the bovine Y chromosome by FISH and RH mapping

Three genes, SRY, ANT3, and CSF2RA, were mapped to the bovine Y chromosome (BTAY) by fluorescence in situ hybridization (FISH) and/or radiation hybrid (RH) mapping. FISH analysis indicated that the bovine SRY gene maps to the distal region of BTAYq, while ANT3 and CSF2RA are located in the pseudoautosomal region (PAR) of BTAYp and BTAXq. RH mapping with a 7000-rad cattle hamster whole-genome radiation hybrid panel further defined the ANT3 and CSF2RA position in relationship to previously mapped 12 PAR markers, and resulted in a relatively high resolution RH map for the PAR of BTAY.     

Characterization and chromosome localization of a processed pseudogene related to the bovine laminin receptor gene family

A bovine BAC clone containing a processed laminin receptor pseudogene (LAMR1P) has been isolated and characterized. A 2,901-bp sequence was produced from the clone, of which 1,187 bp represented seven identifiable exon-like domains, but no intervening sequences. The pseudogene sequence reveals several transversions and transitions, as well as insertions and deletions. A premature stop codon motif is present at nucleotide position 115 located in the exon-2-like domain. Physical mapping of the gene was performed by FISH and RH panel mapping and assigned LAMR1P to BTA4q24-->q26 with the closest linkage to BM6458 (19 cR, LOD score of 11.6). The functional laminin receptor putatively plays an important role in the transmission of bovine spongiform encephalopathy (BSE). In this process, the receptor supposedly acts as the binding site for prion proteins to enter mammalian cells. Considering the existence of several human laminin receptor pseudogenes forming a complex family, any knowledge of even pseudogene sequences might be helpful to isolate the functional bovine laminin receptor gene.