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Guidelines for human linkage maps. An International System for Human Linkage Maps (ISLM, 1990)

Keats, B J; Sherman, S L; Morton, N E; Robson, E B; Buetow, K H; Cartwright, P E; Chakravarti, A; Francke, U; Green, P P; Ott, J
PMID: 2042931
ISSN: 0003-4800
CID: 3974852

Guidelines for human linkage maps: an international system for human linkage maps (ISLM, 1990)

Keats, B J; Sherman, S L; Morton, N E; Robson, E B; Buetow, K H; Cartwright, P E; Chakravarti, A; Francke, U; Green, P P; Ott, J
PMID: 2032725
ISSN: 0888-7543
CID: 3975352

Linkage mapping of highly informative DNA polymorphisms within the human interferon-alpha receptor gene on chromosome 21

McInnis, M G; Lutfalla, G; Slaugenhaupt, S; Petersen, M B; Uze, G; Chakravarti, A; Antonarakis, S E
Two polymorphic loci within the interferon-alpha receptor (IFNAR) gene on human chromosome 21 have been identified and mapped by linkage analysis in 40 CEPH families. These markers are (1) a multiallelic RFLP with an observed heterozygosity of 0.72 and (2) a variable (AT3)n short sequence repeat at the poly(A) tail of an Alu sequence (AluVpA) with an observed heterozygosity of 0.83. This locus is close to D21S58 (theta = 0.02, zeta = 36.76) and D21S17 (theta = 0.02, Zeta = 21.76) with chromosomal band 21q22.1. Multipoint linkage analysis suggests the most likely locus order to be 21cen-D21S58-IFNAR-D21S17-21qter. Given its high heterozygosity, the IFNAR gene can be used as an index marker on human chromosome 21.
PMID: 1685477
ISSN: 0888-7543
CID: 3975312

A graphical representation of genetic and physical maps: the Marey map

Chakravarti, A
A novel, simultaneous, visual representation of sex-specific genetic maps and physical maps is introduced. Such maps, called Marey maps, provide direct comparisons of multiple genetic maps and elucidate the relationship of recombination frequency to physical distance.
PMID: 1765381
ISSN: 0888-7543
CID: 3975322

Genetic linkage map of fishes of the genus Xiphophorus (Teleostei: Poeciliidae)

Morizot, D C; Slaugenhaupt, S A; Kallman, K D; Chakravarti, A
Analysis of genotypes of 76 polymorphic loci in more than 2600 backcross hybrid individuals derived from intra- and interspecific genetic crosses of fishes of the genus Xiphophorus (Poeciliidae) resulted in the identification of 17 multipoint linkage groups containing 55 protein-coding loci and one sex chromosome-linked pigment pattern gene. Multipoint linkage analyses identified highly probable gene orders for 10 linkage groups. The total genome length was estimated to be approximately 18 Morgans. Comparisons of the Xiphophorus linkage map with those of other fishes, amphibians and mammals suggested that fish gene maps are remarkably similar and probably retain many syntenic groups present in the ancestor of all vertebrates.
PMCID:1204367
PMID: 2004711
ISSN: 0016-6731
CID: 3975542

A maximum likelihood method for estimating genome length using genetic linkage data

Chakravarti, A; Lasher, L K; Reefer, J E
The genetic length of a genome, in units of Morgans or centimorgans, is a fundamental characteristic of an organism. We propose a maximum likelihood method for estimating this quantity from counts of recombinants and nonrecombinants between marker locus pairs studied from a backcross linkage experiment, assuming no interference and equal chromosome lengths. This method allows the calculation of the standard deviation of the estimate and a confidence interval containing the estimate. Computer simulations have been performed to evaluate and compare the accuracy of the maximum likelihood method and a previously suggested method-of-moments estimator. Specifically, we have investigated the effects of the number of meioses, the number of marker loci, and variation in the genetic lengths of individual chromosomes on the estimate. The effect of missing data, obtained when the results of two separate linkage studies with a fraction of marker loci in common are pooled, is also investigated. The maximum likelihood estimator, in contrast to the method-of-moments estimator, is relatively insensitive to violation of the assumptions made during analysis and is the method of choice. The various methods are compared by application to partial linkage data from Xiphophorus.
PMCID:1204446
PMID: 2060775
ISSN: 0016-6731
CID: 3975552

A genetic linkage map of 27 markers on human chromosome 21

Petersen, M B; Slaugenhaupt, S A; Lewis, J G; Warren, A C; Chakravarti, A; Antonarakis, S E
We have constructed a genetic linkage map of the long arm of human chromosome 21 comprising 27 DNA markers. This map is an updated version of that reported earlier by group (1989, Genomics 4: 579-591), which contained 17 DNA markers. The current markers consist of 10 genes and 17 anonymous sequences. Traditional methods (restriction fragment length polymorphisms) were used to map 25 of these markers, whereas 2 markers were studied by polymerase chain reaction amplification of (GT)n dinucleotide repeats. Linkage analysis was performed on 40 CEPH families using the computer program packages LINKAGE, CRI-MAP, and MAPMAKER. Recombination rates were significantly different between the sexes, with the male map being 132 cM and the female map being 161 cM, assuming Kosambi interference and a variable ratio of sex difference in recombination. Approximately one-half of the crossovers in either sex occur distally, in terminal band 21q22.3, which also contains 16 of the markers studied. The average distance between adjacent markers was 6 cM.
PMID: 1674496
ISSN: 0888-7543
CID: 3975302

Linkage mapping of D21S171 to the distal long arm of human chromosome 21 using a polymorphic (AC)n dinucleotide repeat

Petersen, M B; Weber, J L; Slaugenhaupt, S A; Kwitek, A E; McInnis, M G; Chakravarti, A; Antonarakis, S E
An (AC)n repeat within the anonymous DNA sequence D21S171 was shown to be highly polymorphic in members of the 40 Centre d'Etude du Polymorphisme Humaine (CEPH) families. Ten different alleles at this marker locus were detected by electrophoresis on polyacrylamide gels of DNA amplified by the polymerase chain reaction (PCR) using primers flanking the (AC)n repeat. The observed heterozygosity was 66%. PCR amplification of DNA from somatic cell hybrids mapped D21S171 to human chromosome 21, and linkage analysis localized this marker close to the loci CD18, PFKL, D21S113 and D21S112 in chromosomal band 21q22.3. In CEPH family 12 a de novo allele has been observed in a maternally derived chromosome.
PMID: 1879826
ISSN: 0340-6717
CID: 3975132

Information content of the Centre d'Etude du Polymorphisme Humain (CEPH) family structures for linkage studies

Chakravarti, A
This paper derives theoretical values for joint polymorphism information content for two markers from a family structure consisting of four grandparents, two parents, and many offspring. These data determine the efficiency of linkage map construction.
PMID: 1937475
ISSN: 0340-6717
CID: 3975142

DNA duplication associated with Charcot-Marie-Tooth disease type 1A

Lupski, J R; de Oca-Luna, R M; Slaugenhaupt, S; Pentao, L; Guzzetta, V; Trask, B J; Saucedo-Cardenas, O; Barker, D F; Killian, J M; Garcia, C A; Chakravarti, A; Patel, P I
Charcot-Marie-tooth disease type 1A (CMT1A) was localized by genetic mapping to a 3 cM interval on human chromosome 17p. DNA markers within this interval revealed a duplication that is completely linked and associated with CMT1A. The duplication was demonstrated in affected individuals by the presence of three alleles at a highly polymorphic locus, by dosage differences at RFLP alleles, and by two-color fluorescence in situ hybridization. Pulsed-field gel electrophoresis of genomic DNA from patients of different ethnic origins showed a novel SacII fragment of 500 kb associated with CMT1A. A severely affected CMT1A offspring from a mating between two affected individuals was demonstrated to have this duplication present on each chromosome 17. We have demonstrated that failure to recognize the molecular duplication can lead to misinterpretation of marker genotypes for affected individuals, identification of false recombinants, and incorrect localization of the disease locus.
PMID: 1677316
ISSN: 0092-8674
CID: 726902