Your search keyword '"Isidora Lopez-Pajares"' showing total 2 results

1. Mapping translocation breakpoints by next-generation sequencing

Author

Ger J. A. Arkesteijn, Na Li, Ute Grasshoff, Andreas Tzschach, Reinhard Ullmann, Isidora Lopez Pajares, Margret Goetz-Sothmann, Fikret Erdogan, Vera M. Kalscheuer, Hans-Hilger Ropers, Marcel H. Schulz, Wei Chen, Corinna Menzel, Martin Vingron, Zofia Kijas, Andreas Dufke, Birgitta Glaeser, Uwe Heinrich, and Imma Rost

Subjects

Genetics, Male, Bacterial artificial chromosome, Adolescent, Base Sequence, Shotgun sequencing, Gene prediction, Breakpoint, Molecular Sequence Data, Chromosome Breakpoints, Chromosome Mapping, Chromosomal translocation, Chromosome Breakage, Sequence Analysis, DNA, Biology, DNA sequencing, Translocation, Genetic, Intellectual Disability, Methods, Humans, Female, Chromosome breakage, Child, Genetics (clinical)

Abstract

Balanced chromosome rearrangements (BCRs) can cause genetic diseases by disrupting or inactivating specific genes, and the characterization of breakpoints in disease-associated BCRs has been instrumental in the molecular elucidation of a wide variety of genetic disorders. However, mapping chromosome breakpoints using traditional methods, such as in situ hybridization with fluorescent dye-labeled bacterial artificial chromosome clones (BAC-FISH), is rather laborious and time-consuming. In addition, the resolution of BAC-FISH is often insufficient to unequivocally identify the disrupted gene. To overcome these limitations, we have performed shotgun sequencing of flow-sorted derivative chromosomes using “next-generation” (Illumina/Solexa) multiplex sequencing-by-synthesis technology. As shown here for three different disease-associated BCRs, the coverage attained by this platform is sufficient to bridge the breakpoints by PCR amplification, and this procedure allows the determination of their exact nucleotide positions within a few weeks. Its implementation will greatly facilitate large-scale breakpoint mapping and gene finding in patients with disease-associated balanced translocations.

Published

2008

2. An excess of chromosome 1 breakpoints in male infertility

Author

Lisbeth Tranebjerg, Zeynep Tümer, Iben Bache, Maria Orera, Vera M. Kalscheuer, Elisabeth Blennow, Val Davison, Klaus Wagner, David R. FitzPatrick, Isidora Lopez-Pajares, Laurence Duprez, Maj Hultén, Sultan Cingoz, Sophie Dahoun, Niels Tommerup, Margarita Stefanova, Ingo Hansmann, Jan Murken, Maryse Bonduelle, Bruno Dallapiccola, M.-F. Croquette, Tony Parkin, Kirsten Winther, Kim Smith, Fiorella Shabtai, Kirsten Rasmussen, Catherine Turleau, Claes Lundsteen, Anita Niebuhr, Elvire Van Assche, Gotthold Barbi, Eberhard Schwinger, Carl Birger van der Hagen, Bruno Delobel, Philippe Jonveaux, Nadja Kokalj Vokac, Peter Jensen, Inge Liebaers, Mads F. Hjorth, Georges Bourrouillou, Merete Bugge, Carmen Ramos, Regine Schubert, Leopoldo Zelante, Werner Schempp, Eberhard Passarge, Carmen Ayuso, Herman Tournaye, James Lespinasse, Malcolm A. Ferguson-Smith, Ulf Kristoffersson, Jan Wahlstroem, Gert Bruun-Petersen, Hans-Christoph Duba, Karen Brøndum-Nielsen, Michel Vekemans, Elizabeth Grace, Raymond L. Stallings, and Jean McGowan-Jordan

Subjects

Infertility, Genetics, Chromosome Aberrations, Male, medicine.medical_specialty, Cytogenetics, Chromosome, Chromosomal translocation, Karyotype, Locus (genetics), Oligospermia, Biology, medicine.disease, Translocation, Genetic, Male infertility, Chromosomes, Human, Pair 1, Chromosome Inversion, medicine, Humans, Genetics (clinical), Infertility, Male, Chromosomal inversion

Abstract

In a search for potential infertility loci, which might be revealed by clustering of chromosomal breakpoints, we compiled 464 infertile males with a balanced rearrangement from Mendelian Cytogenetics Network database (MCNdb) and compared their karyotypes with those of a Danish nation-wide cohort. We excluded Robertsonian translocations, rearrangements involving sex chromosomes and common variants. We identified 10 autosomal bands, five of which were on chromosome 1, with a large excess of breakpoints in the infertility group. Some of these could potentially harbour a male-specific infertility locus. However, a general excess of breakpoints almost everywhere on chromosome 1 was observed among the infertile males: 26.5 versus 14.5% in the cohort. This excess was observed both for translocation and inversion carriers, especially pericentric inversions, both for published and unpublished cases, and was significantly associated with azoospermia. The largest number of breakpoints was reported in 1q21; FISH mapping of four of these breakpoints revealed that they did not involve the same region at the molecular level. We suggest that chromosome 1 harbours a critical domain whose integrity is essential for male fertility.

Published

2004