Chérine Yousry scite author profile

We present a high resolution radiation hybrid map of human chromosome 11 using 506 sequence tagged sites (STSs) scored on a panel of 86 radiation hybrids. The 506 STSs fall into 299 unique positions (average resolution of about 480 kilobases (kb)) that span the whole chromosome. A subset of 260 STSs (143 positions) form a framework map that has a resolution of approximately 1 megabase between adjacent positions and is ordered with odds of at least 1,000:1. The centromere was clearly defined with pericentric markers unambiguously assigned to the short or long arm. The map contains most genes (125) and expressed sequence tags (26) currently assigned to chromosome 11 and more than half of the STSs are polymorphic microsatellite loci. These markers and the map can be used for high resolution physical and genetic mapping.

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Human Herpesvirus 8–Positive Castleman Disease in Human Immunodeficiency Virus–Infected Patients: The Impact of Highly Active Antiretroviral Therapy

Aaron¹,

Lidove²,

Yousry³

et al. 2002

CLIN INFECT DIS

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We report the case histories of 7 human immunodeficiency virus (HIV)-infected patients receiving highly active antiretroviral therapy (HAART) who had a diagnosis of Castleman disease. All 6 patients who were treated responded to chemotherapy; immune reconstitution was observed in 5 patients, but it did not prevent relapse of Castleman disease. However, the mean duration of survival observed in this series (48 months) was most probably due to immune reconstitution resulting from receipt of HAART, which reduced the mortality associated with HIV disease.

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A high resolution CEPH crossover mapping panel and integrated map of chromosome 11

Fain

Kort

Yousry

et al. 1996

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High resolution (0.1 cM) CEPH crossover mapping panels were constructed for chromosome 11. These panels will facilitate a transition from top-down physical and genetic mapping strategies to integrated breakpoint mapping strategies. Novel methods, which differ from other methods in overcoming the limitations of incomplete heterozygosity and variable marker density, were developed for creating the panels and integrated maps. This made it possible to identify and sublocalize the majority of crossovers in 61 families. The panels were used to map 139 microsatellite markers. A semi-integrated map and a fully-integrated map were constructed by combining these data with data from CEPH 7.1 and then integrating data from the radiation hybrid (RH) map. Genetic lengths estimated from the mapping panels were similar to the estimates obtained when all recombinant and non-recombinant offspring were included (189.4 cM in females and 126.1 cM in males), indicating that genetic distances are stable at this high marker density. The maps have a cM density of 0.62. The distance between ordered markers is 1.39-2.92 cM depending on the criterion for order and the extent of map integration. The 2D maps provide the resolution and flexibility needed to enhance current applications such as positional cloning and mapping complex disorders; while the mapping panels will greatly improve the resolution, reliability and efficiency of future genetic mapping.

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Localization of Jacobsen Syndrome Breakpoints on a 40-Mb Physical Map of Distal Chromosome 11q

Tunnacliffe¹,

Jones²,

Paslier³

et al. 1999

Genome Res.

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Jacobsen syndrome is a haploinsufficiency disorder caused, most frequently by terminal deletion of part of the long arm of chromosome 11, with breakpoints in 11q23.3–11q24.2. Inheritance of an expanded p(CCG)n trinucleotide repeat at the folate-sensitive fragile site FRA11B has been implicated in the generation of the chromosome breakpoint in several Jacobsen syndrome patients. The majority of such breakpoints, however, map distal to this fragile site and are not linked with its expression. To characterize these distal breakpoints and ultimately to further investigate the mechanisms of chromosome breakage, a 40-Mb YAC contig covering the distal long arm of chromosome 11 was assembled. The utility of the YAC contig was demonstrated in three ways: (1) by rapidly mapping the breakpoints from two new Jacobsen syndrome patients using FISH; (2) by demonstrating conversion to high resolution PAC contigs after direct screening of PAC library filters with a YAC clone containing a Jacobsen syndrome breakpoint; and (3) by placing 23 Jacobsen syndrome breakpoints on the physical map. This analysis has suggested the existence of at least two new Jacobsen syndrome breakpoint cluster regions in distal chromosome 11.

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Chérine Yousry

A radiation hybrid map of 506 STS markers spanning human chromosome 11

Human Herpesvirus 8–Positive Castleman Disease in Human Immunodeficiency Virus–Infected Patients: The Impact of Highly Active Antiretroviral Therapy

A high resolution CEPH crossover mapping panel and integrated map of chromosome 11

Localization of Jacobsen Syndrome Breakpoints on a 40-Mb Physical Map of Distal Chromosome 11q

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