Inverted genomic segments and complex triplication rearrangements are mediated by inverted repeats in the human genome |
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| Authors: | Carvalho Claudia M B Ramocki Melissa B Pehlivan Davut Franco Luis M Gonzaga-Jauregui Claudia Fang Ping McCall Alanna Pivnick Eniko Karman Hines-Dowell Stacy Seaver Laurie H Friehling Linda Lee Sansan Smith Rosemarie Del Gaudio Daniela Withers Marjorie Liu Pengfei Cheung Sau Wai Belmont John W Zoghbi Huda Y Hastings P J Lupski James R |
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| Affiliation: | Department of Molecular and Human Genetics, Baylor College of Medicine, Houston, Texas, USA. |
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| Abstract: | ![]()
We identified complex genomic rearrangements consisting of intermixed duplications and triplications of genomic segments at the MECP2 and PLP1 loci. These complex rearrangements were characterized by a triplicated segment embedded within a duplication in 11 unrelated subjects. Notably, only two breakpoint junctions were generated during each rearrangement formation. All the complex rearrangement products share a common genomic organization, duplication-inverted triplication-duplication (DUP-TRP/INV-DUP), in which the triplicated segment is inverted and located between directly oriented duplicated genomic segments. We provide evidence that the DUP-TRP/INV-DUP structures are mediated by inverted repeats that can be separated by >300 kb, a genomic architecture that apparently leads to susceptibility to such complex rearrangements. A similar inverted repeat-mediated mechanism may underlie structural variation in many other regions of the human genome. We propose a mechanism that involves both homology-driven events, via inverted repeats, and microhomologous or nonhomologous events. |
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