Mark Lathrop

A mapped set of DNA markers for human chromosome 15

A primary genetic linkage map for human chromosome 15 has been constructed from 16 arbitrary DNA markers genotyped in 59 large reference families. The map spans a genetic distance of 146 cM in males and 187 cM in females. The ratio of female/male genetic distance was approximately 2.1 overall within the region of the chromosome covered by our map, but three segments showed a significant male excess in recombination frequency. A subset of seven of the linked markers would be enough to detect linkage of a genetic defect within the mapped region of chromosome 15, if at least 48 phase-known meioses in affected families were available for analysis.

Linkage, physical mapping, and DNA sequence analysis of pseudoautosomal loci on the human X and Y chromosomes ☆

The pseudoautosomal region of the human X and Y chromosomes is subject to frequent X-Y recombination during male meiosis. We report the finding of two pseudoautosomal loci, DXYS20 and DXYS28, characterized by highly informative restriction fragment length polymorphisms (RFLPs). The pseudoautosomal character of DXYS20 and DXYS28 was formally demonstrated by comparing their transmission to 45,X and to normal individuals. Studies of the inheritance of these loci reveal that the pseudoautosomal region, though highly recombinogenic, is subject to marked recombinational interference in male meiosis; no double recombinants were observed in 143 triply informative meioses, and the coefficient of coincidence is likely less than 0.45. In female meiosis, linkage of these pseudoautosomal RFLPs to strictly sex-linked RFLPs on the short arm of the X is readily detected; the genetic length of the pseudoautosomal region in female meiosis is at least 4 cM but not more than 18 cM. The genetic map of the human X chromosome is now defined from near the short-arm telomere to band q28 on the long arm. Locus DXYS20, which maps near the X and Y short-arm telomeres, is composed of long tandem arrays of 61-bp repeats. Occasional, seemingly random base-pair substitutions within these arrays of 61-bp repeats, in combination with marked variation in the size of the array, generate the high degree of DNA polymorphism at DXYS20.

A detailed genetic map of the long arm of chromosome 11

We describe 14 new restriction fragment length polymorphisms, corresponding to 13 loci on the long arm of chromosome 11. A detailed genetic map of chromosome 11q has been constructed from these and other loci (a total of 31 loci) typed in 59 reference families. The 23 most informative markers were selected to establish a map with a strongly supported order; regional localizations are provided for eight other markers. The loci span 88 cM in males and 148 cM in females and form a dense continuum on 11q. These ordered polymorphic markers will be of help in studying the genes responsible for several diseases that have been localized to this region, including genes responsible for multiple endocrine neoplasia type I (MEN1), ataxia telangiectasia (AT), tuberous sclerosis (TSC), and some forms of asthma and rhinitis.

A primary genetic map of markers for human chromosome 10

We have constructed a primary genetic map for human chromosome 10 from 13 polymorphic marker systems defining 11 loci, using a new gene mapping algorithm implemented in the computer program GMS. The loci form a continuous genetic map that spans approximately 116 cM in males and 170 cM in females. These loci provide regularly spaced anchor points for linkage studies, except for one interval that is 28 cM in males and 64 cM in females.

A mapped set of genetic markers for human chromosome 9

A genetic map of markers for human chromosome 9, spanning a genetic distance of 147 cM in males and 231 cM in females, has been constructed from linkage studies with 19 loci in a large panel of reference families. The markers included four classical systems previously assigned to chromosome 9, and restriction fragment length polymorphisms of two cloned genes, ABL oncogene and argininosuccinase synthetase pseudogene 3 (ASSP3). The remaining 13 marker loci, with an average heterozygosity of 42%, were defined by arbitrary DNA probes newly ascertained from genomic libraries; seven of them were variable number of tandem repeat (VNTR) loci. A subset of 7 of the 19 linked markers is proposed for a primary map that could detect linkage with a genetic defect within the covered region of chromosome 9, provided that at least 45 phase-known meioses were available for study in an affected family.

A primary map of ten DNA markers and two serological markers for human chromosome 19

We have constructed a primary map of 10 DNA and 2 protein markers for chromosome 19. Three of the markers define loci with a variable number of tandem repeats (VNTRs); 3 define genes--insulin receptor, low-density lipoprotein (LDL) receptor, and apolipoprotein CII; and 2 are classical markers for blood group antigens (Lewis and Secretor). The estimated genetic distance covered by the map is 137 cM in males and 189 cM in females. In some regions of the chromosome we found significant differences in recombination frequencies according to sex. This set of markers will be efficient for linkage studies in families segregating genetic defects and will provide anchor points for a high-resolution map of chromosome 19.

An extended genetic linkage map of markers for human chromosome 10.

We have extended, in both directions, our recently published genetic map of markers for human chromosome 10 by the addition of 10 newly defined arbitrary loci. The map now covers 230 cM in males and 329 cM in females. In addition, three new markers, one of them a new RFLP at the IRBP gene locus, have been mapped in the vicinity of the locus responsible for multiple endocrine neoplasia type 2A (MEN2A). A significantly higher frequency of recombination in males than in females was observed near both ends of the new map.

Frequent recombination is observed in the distal end of the long arm of chromosome 14

We have constructed a high-resolution map of the distal region (q32) of the long arm of human chromosome 14, with 11 loci including 6 variable number of tandem repeat markers. The map covers 66 cM in males and 53 cM in females. The recombination frequency in this region is more than five times that expected in a region of this physical size, and in our data set the frequency in males was higher than that in females at some intervals. This unusually high density of crossingover occurs in a part of chromosome 14 where translocations are frequently observed in somatic cells.

A primary map of 24 loci on human chromosome 16

A primary genetic map of chromosome 16 has been constructed by linkage analysis of 24 polymorphic loci, typed in 59 reference families. These loci form a continuous map that covers the whole chromosome and spans genetic distances of 187 cM in males and 226 cM in females. Most of the sex-specific recombination rate difference comes from a nontelomeric region that covers 10 cM in males and 74 cM in females. Both telomeric regions show the opposite trend, with a significant increase in the male recombination rate.

Inference of a molecular defect of apolipoprotein B in hypobetalipoproteinemia by linkage analysis in a large kindred.

Heterozygous hypobetalipoproteinemia is characterized by reduced plasma concentrations of LDL cholesterol, total triglycerides, and apo B to less than 50% of normal values. The molecular basis of this disorder remains unknown. The phenotype cosegregates with a DNA haplotype of the apo B gene in an Idaho pedigree, with a maximum decimal logarithm of the ratio (LOD) score of 7.56 at a recombination rate of zero. Individuals carrying this haplotype had total cholesterol levels of 96 mg/dl, LDL cholesterol levels of 37 mg/dl, triglycerides levels of 51 mg/dl, and apo B levels of 38 mg/dl. This study strongly suggests that apo B mutations underlie hypobetalipoproteinemia, and demonstrates the power of the candidate gene approach in linkage analysis for unraveling genetic determinants in metabolic disorders of undefined etiology.