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15 results on '"Caron, D A"'

1. Further delineation of nonhomologous-based recombination and evidence for subtelomeric segmental duplications in 1p36 rearrangements

Author

Lisa G. Shaffer, Carla S. D'Angelo, Andrew J. Gentles, Chong Ae Kim, Caron D. Glotzbach, Célia Priszkulnik Koiffmann, and Marzena Gajecka

Subjects
DNA Repair, DNA repair, Molecular Sequence Data, Biology, Translocation, Genetic, Cell Line, Chromosome Walking, Gene Duplication, Gene duplication, Genetics, Humans, Cloning, Molecular, In Situ Hybridization, Fluorescence, Genetics (clinical), Oligonucleotide Array Sequence Analysis, Segmental duplication, Gene Rearrangement, Recombination, Genetic, Comparative Genomic Hybridization, Base Sequence, Breakpoint, Chromosome Breakage, Sequence Analysis, DNA, Gene rearrangement, Subtelomere, Chromosomes, Human, Pair 1, Chromosome breakage, Homologous recombination
Abstract

The mechanisms involved in the formation of subtelomeric rearrangements are now beginning to be elu- cidated. Breakpoint sequencing analysis of 1p36 rear- rangements has made important contributions to this line of inquiry. Despite the unique architecture of segmental duplications inherent to human subtelomeres, no common mechanism has been identiWed thus far and diVerent non- exclusive recombination-repair mechanisms seem to predominate. In order to gain further insights into the mechanisms of chromosome breakage, repair, and stabilization mediating subtelomeric rearrangements in humans, we investigated the constitutional rearrangements of 1p36. Cloning of the breakpoint junctions in a complex rear- rangement and three non-reciprocal translocations revealed similarities at the junctions, such as microhomology of up to three nucleotides, along with no signiWcant sequence iden- tity in close proximity to the breakpoint regions. All the breakpoints appeared to be unique and their occurrence was limited to non-repetitive, unique DNA sequences. Several recombination- or cleavage-associated motifs that may promote non-homologous recombination were observed in close proximity to the junctions. We conclude that NHEJ is likely the mechanism of DNA repair that generates these rearrangements. Additionally, two appar- ently pure terminal deletions were also investigated, and the reWnement of the breakpoint regions identiWed two dis- tinct genomic intervals »25-kb apart, each containing a series of 1p36 speciWc segmental duplications with 90-98% identity. Segmental duplications can serve as substrates for ectopic homologous recombination or stimulate geno- mic rearrangements.

Published
2009
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2. Identification of sequence motifs at the breakpoint junctions in three t(1;9)(p36.3;q34) and delineation of mechanisms involved in generating balanced translocations

Author

Małgorzata Jarmuż, Marzena Gajecka, Jerzy Jurka, Caron D. Glotzbach, Lisa G. Shaffer, Adam Pavlicek, and Blake C. Ballif

Subjects
Male, Derivative chromosome, Molecular Sequence Data, Translocation Breakpoint, Chromosomal translocation, Biology, Translocation, Genetic, Homology (biology), Sequence Homology, Nucleic Acid, Genetics, Humans, Genetics (clinical), Repetitive Sequences, Nucleic Acid, Gene Rearrangement, Recombination, Genetic, Translin, Base Sequence, Models, Genetic, Breakpoint, Chromosome Breakage, Non-homologous end joining, Chromosomes, Human, Pair 1, Female, Chromosomes, Human, Pair 9, Sequence motif
Abstract

Although approximately 1 in 500 individuals carries a reciprocal translocation, little is known about the mechanisms that result in their formation. We analyzed the sequences surrounding the breakpoints in three unbalanced translocations of 1p and 9q, all of which were designated t(1;9)(p36.3;q34), to investigate the presence of sequence motifs that might mediate nonhomologous end joining (NHEJ). The breakpoint regions were unique in all individuals. Two of three translocations demonstrated insertions and duplications at the junctions, suggesting NHEJ in the formation of the rearrangements. No homology was identified in the breakpoint regions, further supporting NHEJ. We found translin motifs at the breakpoint junctions, suggesting the involvement of translin in the joining of the broken chromosome ends. We propose a model for balanced translocation formation in humans similar to transposition in bacteria, in which staggered nicks are repaired resulting in duplications and insertions at the translocation breakpoints.

Published
2006
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3. Characterization of a complex rearrangement with interstitial deletions and inversion on human chromosome 1

Author

Lisa G. Shaffer, Marzena Gajecka, and Caron D. Glotzbach

Subjects
Genetic Markers, Monosomy, Chromosome Disorders, Chromosomal rearrangement, Biology, Genetics, medicine, Humans, Gene, In Situ Hybridization, Fluorescence, Repetitive Sequences, Nucleic Acid, Chromosomal inversion, Sequence (medicine), Gene Rearrangement, Translin, Breakpoint, Chromosome Mapping, Nucleic Acid Hybridization, Chromosome, Chromosome Breakage, DNA, Sequence Analysis, DNA, Telomere, medicine.disease, Molecular biology, Chromosomes, Human, Pair 1, Child, Preschool, Chromosome Inversion, Cytogenetic Analysis, Female, Chromosome Deletion, Gene Deletion, Microsatellite Repeats
Abstract

Deletion of the distal band of the short arm of chromosome 1 (monosomy 1p36) is the most common terminal deletion syndrome, occurring in about 1 in 5000 newborns. Of the 121 subjects ascertained for our study to date, 12 (9.9%) have interstitial deletions, three of which are complex rearrangements showing more than one deletion. Herein we report the characterization of a complex rearrangement with two interstitial deletions in the same chromosome 1p36.33-p36.23. We narrowed and analyzed the breakpoints and junctions between the sequence fragments involved in the rearrangement to determine the structure of this deleted chromosome 1. The analyses of the DNA sequence at the junctions showed additional complexity: an inversion and a third de-novo interstitial deletion. We reconstructed this complex rearrangement of 1p36 to understand the mechanism of formation. Analysis of the breakpoint junctions revealed that three of the four breakpoints each interrupted a gene. Alignments of the junctions showed the lack of any sequence similarity between the breakpoints, suggesting the involvement of non-homologous end joining (NHEJ) in the ligation of broken ends following deletion. The identification of translin recognition sites in the breakpoints suggests translin involvement in the repair of broken chromosomes. This report is one of the first to examine constitutional chromosomal rearrangements at the DNA sequence level. The discovery of cryptic events in seemingly simple chromosome rearrangements may provide the basis for proposing mechanisms of formation.

Published
2006
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4. Construction of a natural panel of 11p11.2 deletions and further delineation of the critical region involved in Potocki–Shaffer syndrome

Author

Caron D. Glotzbach, Whui Chen Sue, Lisa G. Shaffer, Jacqueline T. Hecht, Mira Irons, Kristen A Bailey, Leslie J. Sheffield, Keiko Wakui, Guiliana Gregato, Enrique G. Gomez, Lorraine Potocki, Pao Lin Kuo, and Blake C. Ballif

Subjects
Male, Genotype, Potocki–Shaffer syndrome, Biology, Cell Line, Parietal Bone, Intellectual Disability, Genetics, medicine, Humans, Abnormalities, Multiple, Deletion mapping, Parietal foramen, Child, In Situ Hybridization, Fluorescence, Genetics (clinical), medicine.diagnostic_test, Chromosomes, Human, Pair 11, Craniofacial Dysostosis, Chromosome, Syndrome, Physical Chromosome Mapping, medicine.disease, Osteochondrodysplasia, Phenotype, medicine.anatomical_structure, Child, Preschool, Female, Haploinsufficiency, Exostoses, Multiple Hereditary, Gene Deletion, Microsatellite Repeats, Comparative genomic hybridization, Fluorescence in situ hybridization
Abstract

Potocki-Shaffer syndrome (PSS) is a contiguous gene deletion syndrome that results from haploinsufficiency of at least two genes within the short arm of chromosome 11[del(11)(p11.2p12)]. The clinical features of PSS can include developmental delay, mental retardation, multiple exostoses, parietal foramina, enlarged anterior fontanel, minor craniofacial anomalies, ophthalmologic anomalies, and genital abnormalities in males. We constructed a natural panel of 11p11.2-p13 deletions using cell lines from 10 affected individuals, fluorescence in situ hybridization (FISH), microsatellite analyses, and array-based comparative genomic hybridization (array CGH). We then compared the deletion sizes and clinical features between affected individuals. The full spectrum of PSS manifests when deletions are at least 2.1 Mb in size, spanning from D11S1393 to D11S1385/D11S1319 (44.6-46.7 Mb from the 11p terminus) and encompassing EXT2, responsible for multiple exostoses, and ALX4, causing parietal foramina. Yet one subject with parietal foramina whose deletion does not include ALX4 indicates that ALX4 in this subject may be rendered functionally haploinsufficient by a position effect. Based on comparative deletion mapping of eight individuals with the full PSS syndrome including mental retardation and two PSS families with no mental retardation, at least one gene related to mental retardation is likely located between D11S554 and D11S1385/D11S1319, 45.6-46.7 Mb from the 11p terminus.

Published
2005
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11. Construction of a natural panel of 11p11.2 deletions and further delineation of the critical region involved in Potocki–Shaffer syndrome

Author

Wakui, Keiko, primary, Gregato, Giuliana, additional, Ballif, Blake C, additional, Glotzbach, Caron D, additional, Bailey, Kristen A, additional, Kuo, Pao-Lin, additional, Sue, Whui-Chen, additional, Sheffield, Leslie J, additional, Irons, Mira, additional, Gomez, Enrique G, additional, Hecht, Jacqueline T, additional, Potocki, Lorraine, additional, and Shaffer, Lisa G, additional

Published
2005
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12. Delineation of mechanisms and regions of dosage imbalance in complex rearrangements of 1p36 leads to a putative gene for regulation of cranial suture closure

Author

Gajecka, Marzena, primary, Yu, Wei, additional, Ballif, Blake C, additional, Glotzbach, Caron D, additional, Bailey, Kristen A, additional, Shaw, Chad A, additional, Kashork, Catherine D, additional, Heilstedt, Heidi A, additional, Ansel, David A, additional, Theisen, Aaron, additional, Rice, Ritva, additional, Rice, David P C, additional, and Shaffer, Lisa G, additional

Published
2004
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