Sheep linkage mapping: RFLP markers for comparative mapping studies

Restriction fragment length polymorphisms (RFLPs) detected using cDNA probes for conserved genes provide an important set of markers that anchor or link syntenic groups in a range of divergent mammalian species. DNA probes from sheep, cattle, pig, human and mouse were screened against sheep DNA samples and 24 new RFLP markers for sheep were identified. Among the loci tested, 22 had a homologue that has been mapped in humans. An RFLP for fibronectin (FN1) was linked to α-inhibin (INHA) at a distance of 5cM. The FN1 locus has been assigned to sheep chromosome 2q41–q44 and linkage between FN1 and INHA assigns INHA to the same chromosome in sheep. In addition to the new loci reported here, 28 RFLPs have been published previously by this group and these are collated together with RFLPs published from other laboratories. RFLPs have been reported for 86 loci in sheep. Fifty-four loci have been mapped to 16 different chromosomes.     

Alphoid DNA polymorphisms for chromosome 21 can be distinguished from those of chromosome 13 using probes homologous to both.

Although alphoid DNA sequences shared among acrocentric chromosomes have been identified, no human chromosome 21-specific sequence has been isolated from the centromeric region. To identify alphoid DNA restriction fragment length polymorphisms (RFLPs) specific for chromosome 21, we hybridized human genomic DNA with alphoid DNA probes [L1.26; aRI(680),21-208] shared by chromosomes 13 and 21. We detected RFLPs with restriction enzymes ECoRI, HaeIII, MboI,StuI, and TaqI. The segregation of these RFLPs was analyzed in the 40 CEPH families. Linkage analysis between these RFLPs and loci previously mapped to either chromosome 13 or 21 revealed RFLPs that appear to be specific to chromosome 21. These polymorphisms may be useful as genetic markers of the centromeric region of chromosome 21. Different alphoid loci within the centromeric region of chromosome 13 were identified.     

DNA polymorphism at the casein loci in sheep

By using seven endonucleases and four bovine cDNA probes specific for alpha S1-, alpha S2-, beta-, and kappa-casein genes, nine restriction fragment length polymorphisms (RFLPs) have been found in the sheep orthologous DNA regions. In contrast to the low level of variation observed at the protein level, these DNA polymorphisms determine a high level of heterozygosity and, therefore, represent useful tools for genetic analyses since they can also be obtained without the need for gene expression. In fact, informative matings suggest that in sheep, as in cattle, the four loci are linked.     

Somatic cell mapping of the bovine prion protein gene and restriction fragment length polymorphism studies in cattle and sheep

Brains affected by the progressive neurological disease bovine spongiform encephalopathy (BSE) contain scrapie-associated fibrils and the protease-resistant isoform of prion protein. The gene encoding the normal host prion protein (PRNP) has been mapped to human chromosome 20 and mouse chromosome 2 with the hamster cDNA probe pEA974. Using this probe and a panel of bovine-rodent hybrid somatic cells, we have mapped PRNP to bovine syntenic group U11 (100% concordancy). PRNP restriction fragment length polymorphisms (RFLPs) were detected with five of six enzymes (BglII, EcoRI, HindIII, MspI and TaqI) in sheep, in contrast to one of 16 enzymes (HincII) in cattle. Codominant segregation of the bovine HincII RFLP was demonstrated in six backcross pedigrees. While PRNP RFLPs are tightly linked to scrapie incubation period, and consequently susceptibility or resistance to disease in rodents and sheep, the relationship between the PRNP RFLPs and BSE incubation period has not been determined.     

The X chromosome shows less genetic variation at restriction sites than the autosomes.

Using a standard technique, 122 single-copy probes were screened for their ability to detect restriction fragment length polymorphisms (RFLPs) in the human genome. The use of a standardized RFLP screening enables the introduction of statistical methods in the analysis of differences in RFLP content between chromosomes and enzymes. RFLPs were detected from panels containing at least 17 unrelated chromosomes, digested with TaqI, MspI, BglII, HindIII, EcoRI, and PstI. Forty autosomal probes, representing a sample of 2,710 base pairs (bp) per haploid genome, were tested, and 24 RFLPs were found. With 82 X-chromosomal probes, 17 RFLPs were found in 6,228 bp per haploid genome. The frequency of X-chromosomal RFLPs is three times less than that of the autosomes; this difference is highly significant (P = less than .001). The frequency of RFLPs revealed by various restriction enzymes and the possibility that the X chromosome is a "low mutation" niche in the human genome are discussed.     

Restriction fragment length polymorphism detected by cDNA and genomic DNA clones in Stylosanthes

A DNA isolation method suitable for genomic library construction and RFLP analyses of the forage legume Stylosanthes was developed. Probes isolated using this method were used to investigate the feasibility of constructing RFLP-based genetic maps in this genus. Two hundred and seventy-one PstI genomic DNA and 134 cDNA clones were analysed against four Stylosanthes accessions, including two tetraploids and two diploids, with the use of two restriction enzymes, DraI and HindIII. The proportion of clones which detected single-copy sequences from the PstI genomic library was higher than that from the cDNA library, but the percentage of clones which detected low-copy sequences was doubled in the latter. There was no significant difference in the level of RFLPs detected by gDNA and cDNA probes, although the level of polymorphism was lower in the diploids. A large proportion of RFLPs seemed to have resulted from mutation/base substitution events, and this was especially the case in diploids.     

Detection and inheritance of RFLPs in Eucalyptus nitens

The level of polymorphism using genomic and cDNA probes with a number of restriction enzymes and the inheritance of the RFLP loci was investigated in E. nitens. The polymorphism detected with 366 genomic and cDNA probes and three to six restriction enzymes was analysed in three-generation outbred pedigrees. No difference in the level of polymorphism detected with genomic versus cDNA probes was observed. There was a difference in the efficiency of detection of polymorphism with six different restriction enzymes, with three of the enzymes (BglII, DraI and EcoRI) showing substantially more polymorphism than the others. There was no significant correlation between the size of the DNA fragments generated by the enzymes and the detection of polymorphism. Several cases of restriction-site mutations resulting in a polymorphism were observed. The inheritance of 69 loci was analysed in two pedigrees resulting from interpopulational crosses. The majority of the loci segregated according to expected ratios with distortion observed in only 3% of loci. Probes from the cDNA library detected a greater proportion of loci with more than two alleles than did probes from the genomic library. The high polymorphism, large number of alleles, and ease of interpretation of RFLPs in E. nitens means that they will be useful in a range of applications such as genetic linkage maps and paternity analysis.     

A search for restriction fragment length polymorphism on the human Y chromosome

Summary A systematic search for restriction fragment length polymorphisms (RFLPs) on the human Y chromosome was performed. DNA samples from 16–34 individuals were screened with five restriction enzymes and 12 Y-chromosomal probes, 3 of which detect lowly repetitive sequences and 9 of which are apparently single copy in genomic DNA. None of the single-copy probes revealed any variation. The repetitive sequence probe p21A1 (DYZ?) revealed a TaqI RFLP with q = 0.05. The frequency of fixed point mutations in Y-chromosomal DNA outside the pseudoautosomal region is probably less than 1 in 18000 bp.     

Extensive DNA polymorphism at the factor XIIIa (F13A) locus and linkage to HLA.

A 1,161-bp EcoRI fragment from the 5' end of the cDNA coding for human factor XIIIa (gene symbol F13A) was used to identify RFLPs in human DNAs. Several different RFLPs were identified with 15 different restriction enzymes. Two RFLPs detected with the restriction enzyme BamHI and one multiallelic RFLP detected with BclI were used for further studies. Linkage relationships between these three polymorphisms and the HLA complex were studied in DNA samples from the 40 Centre d'Etude du Polymorphisme Humain families. Combining all of the data to form highly informative haplotypes, we found linkage to HLA with a maximum lod score of 11.44 at a recombination fraction of .25 for males and .35 for females. These three RFLPs at the FXIIIa locus provide a highly informative marker for the short arm of chromosome 6 with an observed heterozygosity of 91%. Using this marker and the HLA locus, one can confirm or exclude the assignment of gene loci to most of chromosome 6p.     

DNA polymorphism in the major histocompatibility complex of man and various farm animals

In the past few years it has been possible by combining enzymatic cleavage of genomic DNA and the Southern blot hybridization technique to explore the endonuclease recognition site polymorphism of the MHC. HLA class I and DR and DQ alpha and beta class II specific probes as well as human C4 and Bf class III probes were used. All these probes were shown to cross-hybridize with DNA from pigs, cattle, sheep and horses. Hybridization of human genomic DNA with a class I probe showed 15-25 bands per genome depending on the enzyme used. Distinct endonucleases generated clusters of restriction fragments (RF) in HLA-informative families which correlated with HLA specificities. While numerous clusters were found associated with HLA-A alleles almost no cluster was related to HLA B or C specificities. Similarly, class II probes provided a large number of clusters. The existence of these clusters suggested that some polymorphic restriction sites are found in strong linkage disequilibrium and that the underlying mechanism might be gene conversion with heteroduplex correction. Since the degree of polymorphism detected by RF appears to be greater than the polymorphism defined by more traditional methods stronger associations between RF and pathological conditions are to be expected. Southern blot analysis was applied to unrelated pigs and sheep, as well as to families. Preliminary studies have also been performed on a few unrelated cattle and horses. Depending on the endonuclease used the HLA class I probe hybridized with around 15 bands in MHC heterozygous pigs and ruminants while up to 20 bands were found in horses. Therefore, a several-fold greater number of potential class I genes exist compared to those actually expressed. With the class II beta probe, cattle and sheep showed around 10 bands whereas 15 were observed in pigs and around 20 in horses. Based on limited results obtained with DQ alpha and beta probes and with the DR alpha probe there appeared to be fewer of these respective genes. Only one C4 gene has been detected in pig and this gene maps within the SLA region. Hybridization with the human C4 probe in cattle, sheep and horses revealed two to four bands which could possibly account for two C4 genes. To date their linkage to the MHC has not been established. The Southern blot hybridization technique represents a powerful tool for future immunogenetic studies.(ABSTRACT TRUNCATED AT 400 WORDS)     

Multiple, independent restriction site polymorphisms in human DNA detected with a cDNA probe to argininosuccinate synthetase (AS).

We have used a cDNA clone of the human urea cycle enzyme argininosuccinate synthetase (AS) to screen for restriction fragment length polymorphisms (RFLPs) using a large panel of restriction enzymes. The probe, pAS-1, detects from 15 to 27 human DNA fragments by Southern gel analysis. In addition to the structural locus on chromosome 9, AS-like sequences are found on at least 10 human chromosomes, including the X and Y. This large number of dispersed pseudogenes accounts for the multiplicity of hybridizing fragments detected with pAS-1. Of 37 restriction enzymes tested, 18 produced excellent digest patterns; of these 18 enzymes, three revealed high-frequency, independent RFLPs, testing a minimum of 16 individuals with each enzyme. The enzymes producing high-frequency polymorphisms are Hind III (allele frequencies .30 and .70), Hind II (.13 and .87), and Bam HI (.56 and .44). Most of the polymorphic alleles are found in Caucasians, American blacks, and Orientals. The RFLP detected with Hind III maps to chromosome 9 (9q11-q22), although not to the structural locus; the others are autosomal but otherwise unassigned. Two additional six-base enzymes and a four-base enzyme, Msp I, revealed further individual variation, but these variants have not been shown to segregate in families yet. We observed approximately 0.8% high-frequency RFLPs per cut site per enzyme or a minimum of .05% heterozygosity per nucleotide. pAS-1 should prove useful in assigning high-frequency RFLPs to several human chromosomes.     

Fluorescent in-situ hybridization of cattle and sheep chromosomes with cloned human fragile-X DNA

An extensive study on spontaneous and 5-Fluorodeoxyuridine induced fragile sites identified Xq31 in cattle (Bos taurus) and (Xq24, Xq26) in sheep (Ovis aries) in addition to several autosomal fragile sites (under publication). A ZOO-FISH study using three cloned human fragile-X probes with CCG/CGG_n trinucleotide repeat sequence was carried out to determine homology between human and bovine fragile-X. The hybridisation results showed only a weak signal on a human chromosome that was not an X with all three fragile site probes. No signals were detected in sheep chromosomes. The signal of all three human fragile-X probes on cattle chromosomes was however, medium-prominent sub-centromeric signal on two homologues. BrdU administration in 12 h before harvesting identified these homologues to be chromosome number 5. In addition retrospective slides of cattle and sheep chromosomes used for fragile site studies showed no signals whatsoever. It was therefore concluded that no homology existed between human and bovine fragile-X.     

Identification and characterization of 23 RFLP loci by screening random cosmid genomic clones.

As part of our search for polymorphic DNA probes, we have screened cosmids from a human genomic DNA library for their ability to reveal RFLPs. A total of 101 randomly isolated cosmid clones were tested in Southern hybridizations for polymorphic band patterns. Fifty-four of these clones revealed RFLPs with one or more of nine restriction enzymes. Twenty-three of these clones have been further characterized and assigned to 10 different chromosomes by linkage analysis or by hybridization to panels of human-hamster hybrid cell lines. Fifteen of the probes have heterozygosities greater than or equal to .5. The relative efficiency of RsaI and PstI restriction enzymes in detecting polymorphism was different from results obtained with libraries constructed in bacteriophage vectors. Screening randomly selected cosmid probes is an efficient method for detecting RFLPs.     

DNA polymorphism in the major histocompatibility complex of man and various farm animals*

Summary. In the past few years it has been possible by combining enzymatic cleavage of genomic DNA and the Southern blot hybridization technique to explore the endonuclease recognition site polymorphism of the MHC. HLA class I and DR and DQ alpha and beta class II specific probes as well as human C4 and Bf class III probes were used. All these probes were shown to cross-hybridize with DNA from pigs, cattle, sheep and horses. Hybridization of human genomic DNA with a class I probe showed 15–25 bands per genome depending on the enzyme used. Distinct endonucleases generated clusters of restriction fragments (RF) in HLA-informative families which correlated with HLA specificites. While numerous clusters were found associated with HLA-A alleles almost no cluster was related to HLA B or C specificities. Similarly, class II probes provided a large number of clusters. The existence of these clusters suggested that some polymorphic restriction sites are found in strong linkage disequilibrium and that the underlying mechanism might be gene conversion with heteroduplex correction. Since the degree of polymorphism detected by RF appears to be greater than the polymorphism defined by more traditional methods stronger associations between RF and pathological conditions are to be expected. Southern blot analysis was applied to unrelated pigs and sheep, as well as to families. Preliminary studies have also been performed on a few unrelated cattle and horses. Depending on the endonuclease used the HLA class I probe hybridized with around 15 bands in MHC heterozygous pigs and ruminants while up to 20 bands were found in horses. Therefore, a several-fold greater number of potential class I genes exist compared to those actually expressed. With the class II beta probe, cattle and sheep showed around 10 bands whereas 15 were observed in pigs and around 20 in horses. Based on limited results obtained with DQ alpha and beta probes and with the DR alpha probe there appeared to be fewer of these respective genes. Only one C4 gene has been detected in pig and this gene maps within the SLA region. Hybridization with the human C4 probe in cattle, sheep and horses revealed two to four bands which could possibly account for two C4 genes. To date their linkage to the MHC has not been established. The Southern blot hybridization technique represents a powerful tool for future immunogenetic studies. This is even more so in large farm animals where for various reasons it is almost impossible to conduct certain types of investigation that are easily performed in rodents or in man. Although the data are still preliminary, they already extend our knowledge of the MHC in domestic animals far beyond what could have been reasonably anticipated using conventional methods.     

Restriction fragment length polymorphisms of horse class II MHC genes observed using various human alpha-and beta-chain cDNA probes

Genomic DNA isolated from 20 horses was digested with up to six restriction endonucleases and subjected to southern blot hybridization analysis using various human class II alpha- and beta-chain cDNA probes. A high degree of restriction fragment length polymorphism (RFLP) was found for the DQ alpha, DP beta, DQ beta and DR beta probes, about 20 polymorphic bands being detected for each. DR alpha showed 2-4 polymorphic bands, whereas no evidence for DP alpha-like genes was found. A number of correlations of RFLPs with individual alloantisera were apparent.     

Isolation and characterization of DNA probes from a flow-sorted human chromosome 8 library that detect restriction fragment length polymorphism (RFLP).

We have used a recombinant DNA library constructed from flow-sorted human chromosome 8 as a source of single-copy human probes. These probes have been screened for restriction fragment length polymorphism (RFLP) by hybridization to Southern transfers of genomic DNA from five unrelated individuals. We have detected six RFLPs distributed among four probes after screening 741 base pairs for restriction site variation. These RFLPs all behave as codominant Mendelian alleles. Two of the probes detect rare variants, while the other two detect RFLPs with PIC values of .36 and .16. Informative probes will be useful for the construction of a linkage map for chromosome 8 and for the localization of mutant alleles to this chromosome.     

Multiple restriction fragment length polymorphisms associated with the Vc determinant of the MN blood group-related chimpanzee V-A-B-D system

Twelve restriction fragment length polymorphisms (RFLPs) were detected in common chimpanzee using two restriction enzymes (HindIII andMspI) and four DNA probes to the coding regions of the human glycophorin A (GPA) and glycophorin B (GPB) genes and their 3-untranslated regions. Seven RFLPs correlated with red cell expression of the V^c determinant of the MN blood group-related V-A-B-D system and five RFLPs correlated with nonexpression of this antigen. Animals heterozygous for theV allele that encodes the V^c determinant had all 12 polymorphic restriction fragments and appeared to show reduced intensity of probe hybridization to these fragments, consistent with the presence of aV and a non-V allele. No RFLPs were detected withEcoRI,SstI, orBamHI, in spite of the relatively large segment of DNA (at least 20 kb) involved in the polymorphisms. The RFLPs were chimpanzee specific and were not found in man, gorilla, orangutan, or gibbon. Multiple RFLPs distinguishing primate species are rare and may be useful markers for molecular evolution.This work was supported in part by National Institutes of Health Grants AM 33463 and CA 33000.     

Isolation of polymorphic DNA segments from human chromosome 21.

A somatic cell hybrid line containing only human chromosome 21 on a mouse background has been used as the source of DNA for construction of a recombinant phage library. Individual phages containing human inserts have been identified. Repeat-free human DNA subclones have been prepared and used to screen for restriction fragment length polymorphisms to provide genetic markers on chromosome 21. Nine independently isolated clones used as probes identified a total of 11 new RFLPs. Four of the DNA probes recovered from the library have been mapped unequivocally to chromosome 21 using a panel of somatic cell hybrid lines. A fifth probe detected an RFLP on chromosome 21 as well as sequences on other chromosomes. This set of RFLPs may now form the basis for construction of a genetic linkage map of human chromosome 21.     

cDNA sequence and chromosomal localization of the mouse parvalbumin gene, Pva

In the homozygous condition, the mutation adr (arrested development of righting response) of the mouse causes a myotonia and a drastic reduction of the Ca2+-binding protein parvalbumin (PV) in fast muscles. Using a rat PV probe, a mouse cDNA clone was isolated from a lambda gt11 wild-type fast-muscle library and its nucleotide sequence was determined. The protein coding and the 3' nontranslated regions of the mouse gene show extensive homology with the rat PV gene. The result of Southern blot hybridization is consistent with a single copy gene for parvalbumin. Restriction fragment length polymorphisms (RFLPs) between Mus musculus domesticus (e.g. C57BL/6) and Mus spretus (SPE) were detected with the enzymes Eco RI, Pst I, and Sst I. The restriction fragment patterns of DNA samples from 65 individual offspring of (C57BL/6 x SPE)F1 x C57BL/6 backcrosses were tested with the PV probe and matched, for linkage detection, to pre-existing patterns established with various RFLP probes on the same samples. A co-distribution of PV-RFLPs with Pvt-1 and Mlvi-2, which had been localized on chromosome 15, was detected. Thus, the structural gene for PV, designated Pva, maps to chromosome 15 of the mouse whereas the adr mutation shows no linkage with markers on this chromosome. Gene locus homology between chromosome 15 of the mouse and chromosome 22 of man (which carries the human PV gene) is discussed.     

Restriction fragment length polymorphism of DQB and DRB class II genes of the ovine major histocompatibility complex

The ovine major histocompatibility complex (MhcOvar) class II region was investigated by Southern blot hybridizations using ovine probes specific for the second exons of Ovar-DRB and Ovar-DQB genes. Multiple bands were revealed when genomic DNA was digested with each of five restriction enzymes (Bam HI, Eco RI, Hin dIII, PvuII and TaqI), and successively hybridized with the two radiolabeled ovine probes. Restriction fragment length polymorphisms (RFLPs) were analysed in 89 sheep originating from six inbred families and the inheritance of the fragment patterns was determined. Forty-one fragments were recorded with the DQB probe; 32 were detected with the DRB probe. They constituted 9 DQB and 10 DRB allelic patterns. Twelve DQB-DRB haplotypes were resolved in this study.