A radiation hybrid map of bovine chromosome one

Radiation hybrid (RH) mapping has proven to be an extremely powerful approach to constructing high density maps of human chromosomes and is experiencing increased use in other animals, including cattle. A 5000 rad bovine whole-genome radiation hybrid panel was recently constructed in order to integrate existing cattle linkage maps with evolutionarily conserved genes and provide high resolution comparative maps relative to humans and mice. We utilized this panel to construct a 19 marker framework map of bovine chromosome 1 (BTA1), which included 8 Type I loci and 11 Type II loci ordered with at least 1000:1 odds. A 35 marker comprehensive map including 15 Type I loci and 20 Type II loci was also produced. Of the 15 Type I loci ordered on the comprehensive map, three are ordered on HSA3 and five are ordered in three blocks on HSA21 on the human cytogenetic maps.     

Parallel RH mapping of BTA1 with HSA3 and HSA21

The development of radiation hybrid (RH) panels has elevated comparative gene mapping to a new level of resolution. In this study, we have constructed parallel RH maps defining rearrangements of gene order within conserved segments of bovine Chromosome (Chr) 1 (BTA1) and human Chrs 3 and 21 (HSA3, HSA21). Six new markers, including one gene, have been added to the bovine map, and 11 human genes were ordered with the human G3 panel. BTA1 is clearly a composite of genetic material conserved on these two human chromosomes with HSA21 homologs at each end of BTA1 flanking a large segment homologous to HSA3. Each of the three conserved segments of BTA1 contains rearrangements of gene order relative to their human counterparts. Received: 31 March 1999 / Accepted: 12 July 1999     

High-resolution comparative mapping between human chromosomes 4 and 8 and bovine chromosome 27 provides genes and segments serving as positional candidates for udder health in cattle

To get more information about the order of genes located in Bos taurus (BTA) chromosome 27 segments, supposed to harbor loci influencing clinical mastitis and somatic cell count, and to identify genes that serve as positional candidates for the mentioned traits, we constructed a high-resolution, comparative, and comprehensive gene map for BTA27. The map includes 57 loci in a 5000-rad cattle-hamster whole genome radiation hybrid panel supported by 50 syntenic assignments in a cattle-murine somatic hybrid cell panel. Thirty-eight new loci (36 genes, 2 microsatellites) together with repeated mappings of 5 genes and 7 microsatellites and integration of existing data from 7 microsatellites were used to generate a comprehensive RH5000 map. The RH map, constructed at lod score criterion 8 using the software RHMAP v.3.0, consisted of three linkage groups 23, 22, and 590 cR5000 in length. Gene assignments on BTA27 and the localization of 8 more genes on BTA8 and BTA14 previously predicted on BTA8/BTA27 and BTA14/BTA27 narrowed down significantly the chromosome break points between the three cattle chromosomes and segments on Homo sapiens chromosomes HSA4 and HSA8. Defined evolutionary break points increase the accuracy of comparative in silico mapping of further human genes in conserved chromosome segments of BTA27.     

Comparative map alignment of BTA27 and HSA4 and 8 to identify conserved segments of genome containing fat deposition QTL

Quantitative trait loci (QTL) associated with fat deposition have been identified on bovine Chromosome 27 (BTA27) in two different cattle populations. To generate more informative markers for verification and refinement of these QTL-containing intervals, we initiated construction of a BTA27 comparative map. Fourteen genes were selected for mapping based on previously identified regions of conservation between the cattle and human genomes. Markers were developed from the bovine orthologs of genes found on human Chromosomes 1 (HSA1), 4, 8, and 14. Twelve genes were mapped on the bovine linkage map by using markers associated with single nucleotide polymorphisms or microsatellites. Seven of these genes were also anchored to the physical map by assignment of fluorescence in situ hybridization probes. The remaining two genes not associated with an identifiable polymorphism were assigned only to the physical map. In all, seven genes were mapped to BTA27. Map information generated from the other seven genes not syntenic with BTA27 refined the breakpoint locations of conserved segments between species and revealed three areas of disagreement with the previous comparative map. Consequently, portions of HSA1 and 14 are not conserved on BTA27, and a previously undefined conserved segment corresponding to HSA8p22 was identified near the pericentromeric region of BTA8. These results show that BTA27 contains two conserved segments corresponding to HSA8p, which are separated by a segment corresponding to HSA4q. Comparative map alignment strongly suggests the conserved segment orthologous to HSA8p21-q11 contains QTL for fat deposition in cattle. Received: 25 February 2000 / Accepted: 30 March 2000     

An expanded comparative map of bovine chromosome 27 targeting dairy form QTL regions

At present, the density of genes on the bovine maps is extremely limited and current resolution of the human-bovine comparative map is insufficient for selection of candidate genes controlling many economic traits of interest in dairy cattle. This study describes the chromosomal mapping of 10 selected gene-associated markers to bovine linkage and radiation hybrid maps to improve the breakpoint resolution in the human-bovine comparative map near two previously identified quantitative trait loci for the linear type trait, dairy form. Two regions of conserved synteny not previously described are reported between the telomeric region of bovine chromosome 27 (BTA27) and human chromosome 3 (HSA3) p24 region and between the HSA4q34.1 region and BTA8. These data increase the number of genes positioned on the bovine gene maps, refine the human-bovine comparative map, and should improve the efficiency of candidate gene selection for the dairy form trait in cattle.     

Assignment of eight additional genes from human chromosome 11 to bovine chromosomes 15 and 29: refinement of the comparative map

A comparative mapping approach was applied in order to refine the extent and the distribution of conserved segments between human chromosome 11 (HSA11) and cattle chromosomes 15 and 29 (BTA15 and BTA29 respectively). Eight genes from HSA11 were mapped using a bovine-hamster somatic cell hybrid panel and seven represent new assignments. Adding these assignments to those present in human, mouse and cattle databases, a new conserved segment was identified between the telomeric region of HSA11 and BTA29. This brings to seven the number of conserved segments identified between HSA11 and BTA15 and 29, and our study refines their boundaries to the level of the human cytogenetic band.     

Comparative mapping of bovine chromosome 13 by fluorescence in situ hybridization

We present chromosomal fluorescence in situ hybridization (FISH) results that both extend the HSA20/BTA13 comparative map as well as cytogenetically anchor two microsatellite markers. A bovine bacterial artificial chromosome (BAC) library was screened for conserved genes (type I loci) previously assigned to HSA10 or HSA20 and BTA13, and for microsatellites selected from two published BTA13 linkage maps. Clones from six out of nine comparative loci and both microsatellites were found represented in the BAC library. These BAC clones were used as probes in single colour FISH to determine the chromosome band position of each locus. As predicted by the human/bovine comparative map, all type I loci mapped to BTA13. Because single colour FISH analysis revealed that the loci were clustered within the distal half of BTA13, dual colour FISH was used to confirm the locus order. Established order was centromere- PRNP-(SODIL/AVP/OXT)-(BL42/GNAS1)-HCK-CSSM30 . The findings confirm the presence of a conserved HSA20 homologous synteny group on BTA13 distal of a HSA10 homologous segment.     

A higher resolution radiation hybrid map of bovine chromosome 13

In this paper, we present a radiation hybrid framework map of BTA13 composed of nine microsatellite loci, six genes and one EST. The map has been developed using a recently constructed 12''000 rad bovine-hamster whole-genome radiation hybrid panel. Moreover, we present a comprehensive map of BTA13 comprising 72 loci, of which 45 are microsatellites, 20 are genes and seven are ESTs. The map has an estimated length of 2694.7 cR_12''000. The proposed order is in general agreement with published maps of BTA13. Our results only partially support previously published information of five blocks of conserved gene order between cattle and man. We found no evidence for the existence of an HSA20 homologous segment of coding DNA on BTA13 located centromeric of a confirmed HSA10 homologous region. The present map increases the marker density and the marker resolution on BTA13 and enables further insight into the evolutionary development of the chromosome as compared to man.     

A radiation hybrid map of bovine chromosome 24 and comparative mapping with human chromosome 18

We present herein a bovine chromosome 24 (BTA24) radiation hybrid (RH) map using 40 markers scored on a panel of 90 RHs. Of these markers, 29 loci were ordered with odds of at least 1000:1 in a framework map. An average retention frequency of 17.4% was observed, with relatively higher frequencies near the centromere. The length of the comprehensive map was 640 centiray5000 (cR5000) with an average marker interval of approximately 17.3 cR5000. The observed locus order is generally consistent with currently published bovine linkage and physical maps. Nineteen markers were either Type I loci or closely associated with expressed sequences and thus could be used to compare the BTA24 RH map with human mapping information. All genes located on BTA24 were located on human chromosome 18, and previously reported regions of conserved synteny were extended. The comparative data revealed the presence of at least six conserved regions between these chromosomes.     

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.     

A comparative map of bovine chromosome 25 with human chromosomes 7 and 16

A comparative genome map is necessary for the implementation of comparative positional candidate gene cloning in cattle. We have developed a medium density comparative gene map of bovine chromosome 25 (BTA25). A radiation hybrid (RH) panel was used to map nine microsatellites and nine genes. Eight of the nine comparative loci were also mapped by FISH. These results were combined with data from published articles to create a comprehensive comparative map of BTA25 with human chromosomes 7 (HSA7) and 16 (HSA16). This map should facilitate the cloning of genes of interest on bovine chromosome 25.     

A radiation hybrid map of river buffalo (Bubalus bubalis) chromosome 7 and comparative mapping to the cattle and human genomes

A preliminary radiation hybrid (RH) map containing 50 loci on chromosome 7 of the domestic river buffalo Bubalus bubalis (BBU; 2n = 50) was constructed based on a comparative mapping approach. The RH map of BBU7 includes thirty-seven gene markers and thirteen microsatellites. All loci have been previously assigned to Bos taurus (BTA) chromosome BTA6, which is known for its association with several economically important milk production traits in cattle. The map consists of two linkage groups spanning a total length of 627.9 cR(5,000). Comparative analysis of the BBU7 RH(5,000) map with BTA6 in cattle gave new evidence for strong similarity between the two chromosomes over their entire length and exposed minor differences in locus order. Comparison of the BBU7 RH(5,000) map with the Homo sapiens (HSA) genome revealed similarity with a large chromosome segment of HSA4. Comparative analysis of loci in both species revealed more variability than previously known in gene order and several chromosome rearrangements including centromere relocation. The data obtained in our study define the evolutionarily conserved segment on BBU7 and HSA4 to be between 3.5 megabases (Mb) and 115.8 Mb in the HSA4 (genome build 36) DNA sequence.     

High-resolution genetic map of bovine chromosome 29 through focused marker development

Chromosome-specific libraries aid in the development of genetic maps and focus marker development in areas of the genome with identified quantitative trait loci (QTL). A small-insert BTA29 library constructed by microdissection of a 1:29 Rb-fusion cell line, was screened for dinucleotide repeats (CA)(15) and/or (GA)(15) with the goal of generating new genetic markers for this, the smallest bovine autosome. A total of 90 primer pairs were designed and 82 of these successfully amplified bovine genomic DNA by PCR. In addition to these 82 loci, primer pairs were developed for nine putative genes identified from the sequenced clones by BLAST searches of GenBank. A somatic cell panel was used to test for synteny of the new loci with two previously mapped BTA29 markers located on the MARC bovine linkage map. A total of 75 of the 82 microsatellite (ms) loci were integrated into the MARC bovine linkage map. Linkage analysis placed 69 ms markers on BTA29, five on BTAX and one on BTA1. Combined results of the somatic cell and linkage analyses place 79 new markers (ms and gene-related) on BTA29, six loci on BTAX and two loci on BTA1. The results of this effort significantly increase the marker density on BTA29, expanding the ability to fine map QTL associated with this chromosome.     

The telomeric region of BTA18 containing a potential QTL region for health in cattle exhibits high similarity to the HSA19q region in humans

We have applied a targeted physical mapping approach, based on the isolation of bovine region-specific large-insert clones using homologous human sequences and chromosome microdissection, to enhance the physical gene map of the telomeric region of BTA18 and to prove its evolutionary conservation. The latter is a prerequisite to exploit the dense human gene map for future positional cloning approaches. Partial sequencing and homology search were used to characterize 20 BACs targeted to the BTA18q2.4-q2.6 region. We used fluorescence in situ hybridization (FISH) to create physical maps of 11 BACs containing 15 gene loci; these BACs served as anchor loci. Using these approaches, 12 new gene loci (CKM, STK13, PSCD2, IRF3, VASP, ACTN4, ITPKC, CYP2B6, FOSB, DMPK, MIA, SIX5) were assigned on BTA18 in the bovine cytogenetic map. A resolved physical map of BTA18q2.4-q2.6 was developed, which encompasses 28 marker loci and a comparative cytogenetic map that contains 15 genes. The mapping results demonstrate the high evolutionary conservation between the telomeric region of BTA18q and HSA19q.     

A comprehensive radiation hybrid map of the bovine genome comprising 5593 loci

A bovine whole genome 7000-rad radiation hybrid (RH) panel, SUNbRH(7000-rad), was constructed to build a high-resolution RH map. The Shirakawa-USDA linkage map served as a scaffold to construct a framework map of 3216 microsatellites on which 2377 ESTs were ordered. The resulting RH map provided essentially complete coverage across the genome, with 1 cR7000 corresponding to 114 kb, and a cattle-human comparative map of 1716 bovine genes and sequences annotated in the human genome, which covered 79 and 72% of the bovine and human genomes, respectively. We then integrated the bovine RH and comparative maps with BAC fingerprint information in to construct a detailed, BAC-based physical map covering a reported 40-cM quantitative trait locus region for intramuscular fat or "marbling" on BTA 4. In summary, the new, high-resolution SUNbRH7000-rad, comparative, Shirakawa-USDA linkage, and BAC fingerprint maps provide a set of genomic tools for fine mapping regions of interest in cattle.     

Physical and linkage mapping of mammary-derived expressed sequence tags in cattle

This study describes the physical and linkage mapping of 42 gene-associated markers developed from mammary gland-derived expressed sequence tags to the cattle genome. Of the markers, 25 were placed on the USDA reference linkage map and 37 were positioned on the Roslin 3000-rad radiation hybrid (RH) map, with 20 assignments shared between the maps. Although no novel regions of conserved synteny between the cattle and the human genomes were identified, the coverage was extended for bovine chromosomes 3, 7, 15, and 29 compared with previously published comparative maps between human and bovine genomes. Overall, these data improve the resolution of the human-bovine comparative maps and will assist future efforts to integrate bovine RH and linkage map data.     

A comparative linkage and physical map of bovine chromosome 24 with human chromosome 18

Polymorphic microsatellites have been developed in the vicinity of nine genes on bovine chromosome (BTA) 24, all orthologous to genes on human chromosome (HSA) 18. The microsatellites have been isolated from bacterial and yeast artificial chromosome clones containing the genes. A linkage map was developed including these polymorphic markers and four anonymous, published microsatellites. Yeast artificial chromosomes containing six of these genes have also been mapped using fluorescent in situ hybridization (FISH), thereby tying the linkage map together with the physical map of BTA24. Comparing gene location on HSA18 and BTA24 identifies four regions of conserved gene order, each containing at least two genes. These genes identify six regions of conserved order between human and mouse, two more than in the human-bovine comparison. The breakpoints between regions of conserved order for human-bovine are also breakpoints in the human-mouse comparison. The centromere identifies a fifth conserved region if the BTA24 centromere is orthologous with the HSA18 centromere. Received: 17 September 1998 / Accepted: 4 December 1998     

Consensus and comprehensive linkage maps of bovine chromosome 7

The objective of this project was to integrate the currently available linkage maps for bovine chromosome 7 (BTA7) by combining data sets from eight research groups. A total of 54 unique markers were typed in eight pedigrees. Multilocus linkage analysis with CRI-MAP produced a bovine chromosome 7 consensus framework map of 27 loci ordered with odds greater than 1000:1. Furthermore, we present a bovine chromosome 7 comprehensive map integrating 54 loci. The locus order is in general agreement with the recently published linkage maps except for one discrepancy. The order of loci BM9289, BMS713, and ILSTS001 was reversed in the consensus framework map relative to the published USDA-MARC bovine chromosome 7 linkage map.     

Refinement of bovine chromosome 2 linkage map near the mh locus reveals rearrangements between the bovine and human genomes

The locus responsible for the appearance of muscular hypertrophy (mh) in double muscled cattle breeds has recently been shown to encode a secreted growth factor designated myostatin (MSTN). This conclusion was based in part on the placement of MSTN in the interval to which mh had been mapped on bovine chromosome 2 (BTA2). During the mapping phase of the study, numerous yeast artificial chromosome (YAC) clones were isolated that contained genetic markers closely linked to mh. Other YACs and cosmids were identified that contained genes selected from human chromosome 2q (HSA2q), with the goal of defining the position of breakpoints in conserved synteny between the bovine and human comparative maps, thereby permitting accurate selection of positional candidate genes. An efficient subcloning procedure was developed to obtain microsatellites (ms) from YAC clones, to increase the number of informative meioses in herds segregating for mh. The same procedure was used to place the human orthologues of engrailed-1 (EN1), interleukin 1 beta (IL1B), and paired-box-containing 8 (PAX8) genes on the cattle map to further define the positions of breakpoints in conserved synteny and gene order. Twenty-three of 28 ms identified from YAC subclone libraries were informative in the mapping families. Seven mapped to the centromeric end of BTA2, which contains the mh locus, improving marker density and informativeness. The two MSTN and four EN1 gene-associated ms markers developed from YACs, map to positions 1·5 and 61·6 cm in the BTA2 linkage group, respectively. In addition, ms markers developed from cosmids containing either IL1B or PAX8, map to positions 56·6 and 56·9 cm in the BTA11 linkage group, respectively. These linkage data confirm the location and orientation of orthologous segments of HSA2q that were previously indistinguishable on the bovine map, and demonstrates the presence of microrearrangements of gene order (segments <10 cm ) and conserved synteny between the human and bovine genomes.