Searching journal content for articles similar to Rudd et al. 19 (1): 33.

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  1. Research: AGAP duplicons associate with structural diversity at Chromosome 10q11.22
    • Stefania Fornezza,
    • Vincenza Simona Delvecchio,
    • William T. Harvey,
    • Philip C. Dishuck,
    • Evan E. Eichler,
    • and Giuliana Giannuzzi
    Genome Res. October 2024 34: 1487-1499; Published in Advance September 25, 2024, doi:10.1101/gr.279454.124
    ...of large, recent, and interspersed segmental duplications (SDs) (Marques-Bonet et al. 2009). These duplications are not evenly distributed along chromosomes but are clustered at some loci, especially pericentromeric and subtelomeric regions (Bailey et al. 2001; Giannuzzi et al. 2014). SD clusters exhibit...
  2. Research: Hominoid fission of chromosome 14/15 and the role of segmental duplications
    • Giuliana Giannuzzi,
    • Michele Pazienza,
    • John Huddleston,
    • Francesca Antonacci,
    • Maika Malig,
    • Laura Vives,
    • Evan E. Eichler,
    • and Mario Ventura
    Genome Res. November 2013 23: 1763-1773; Published in Advance September 27, 2013, doi:10.1101/gr.156240.113
    ...originating from a chromosome fission event. Genome Res 19: 33–41. Schein J, Kucaba T, SekhonM, Smailus D,Waterston R,MarraM. 2004. Highthroughput BAC fingerprinting. Methods Mol Biol 255: 143–156. Smit AFA, Hubley R, 2010. RepeatMasker Open-3.2.9. http://www. repeatmasker.org/. Stanyon R, Rocchi M, Capozzi O...
  3. Resource: A comprehensive molecular cytogenetic analysis of chromosome rearrangements in gibbons
    • Oronzo Capozzi,
    • Lucia Carbone,
    • Roscoe R. Stanyon,
    • Annamaria Marra,
    • Fengtang Yang,
    • Christopher W. Whelan,
    • Pieter J. de Jong,
    • Mariano Rocchi,
    • and Nicoletta Archidiacono
    Genome Res. December 2012 22: 2520-2528; Published in Advance August 14, 2012, doi:10.1101/gr.138651.112
    ...occurred in the remaining two karyomorphs, genera Symphalangus (2n = 50) and Hoolock (2n = 38). This research provides the most comprehensive insight into the evolutionary origins of chromosome rearrangements involved in transforming small apes . Bioinformatics analyses of the human–gibbon synteny...
  4. Research: The evolution of African great ape subtelomeric heterochromatin and the fusion of human chromosome 2
    • Mario Ventura,
    • Claudia R. Catacchio,
    • Saba Sajjadian,
    • Laura Vives,
    • Peter H. Sudmant,
    • Tomas Marques-Bonet,
    • Tina A. Graves,
    • Richard K. Wilson,
    • and Evan E. Eichler
    Genome Res. June 2012 22: 1036-1049; Published in Advance March 14, 2012, doi:10.1101/gr.136556.111
    .... Comparative sequence analysis of primate subtelomeres originating from a chromosome fission event. Genome Res 19: 33–41. Sudmant PH, Kitzman JO, Antonacci F, Alkan C, Malig M, Tsalenko A, Sampas N, Bruhn L, Shendure J, Eichler EE. 2010. Diversity of human copy number variation and multicopy genes. Science 330...
  5. ARTICLE: Serial segmental duplications during primate evolution result in complex human genome architecture
    • Paweł Stankiewicz,
    • Christine J. Shaw,
    • Marjorie Withers,
    • Ken Inoue,
    • and James R. Lupski
    Genome Res. November 2004 14: 2209-2220; doi:10.1101/gr.2746604
    ...;19) chromosome translocation in Gorilla gorilla , suggesting a potential role for transpositions in evolution of the primate genome. Thus, a series of consecutive segmental duplication events during primate evolution resulted in complex genome architecture in proximal 17p. Some of the more recent events led...
  6. RESOURCE: Tracking the complex flow of chromosome rearrangements from the Hominoidea Ancestor to extant Hylobates and Nomascus Gibbons by high-resolution synteny mapping
    • Doriana Misceo,
    • Oronzo Capozzi,
    • Roberta Roberto,
    • Maria P. Dell’Oglio,
    • Mariano Rocchi,
    • Roscoe Stanyon,
    • and Nicoletta Archidiacono
    Genome Res. September 2008 18: 1530-1537; Published in Advance June 13, 2008, doi:10.1101/gr.078295.108
    ...-specific rearrangements and five previously undescribed rearrangements that occurred in the Hylobatidae ancestor. The majority of the chromosomal differences between lar gibbons and humans are due to rearrangements that occurred in the Hylobatidae ancestor (38 events), consistent with the hypothesis that the genus...
  7. PERSPECTIVE: Biomedical Applications and Studies of Molecular Evolution: A Proposal for a Primate Genomic Library Resource
    • Evan E. Eichler and
    • Pieter J. DeJong
    Genome Res. May 1, 2002 12: 673-678; doi:10.1101/gr.250102
    ...duplication, subtelomeric rearrangement, and centromere repositioning necessitate the construction of these libraries. As an example, primate s are frequently used to determine the timing and movement of recent segmental duplications associated with chromosomal rearrangement disorders (e.g., Velocardiofacial...
  8. Resource: Long-read sequencing reveals intra-species tolerance of substantial structural variations and new subtelomere formation in C. elegans
    • Chuna Kim,
    • Jun Kim,
    • Sunghyun Kim,
    • Daniel E. Cook,
    • Kathryn S. Evans,
    • Erik C. Andersen,
    • and Junho Lee
    Genome Res. June 2019 29: 1023-1035; Published in Advance May 23, 2019, doi:10.1101/gr.246082.118
    ...assembly to the level of pseudochromosomes containing 76 contigs (N50 contig = 2.8 Mb). We identified structural variations that affected as many as 2694 genes, most of which are at chromosome arms. Subtelomeric regions contained the most extensive genomic rearrangements, which even created new...
    OPEN ACCESS ARTICLE
  9. Dog Special/Letters: Hotspots of mutation and breakage in dog and human chromosomes
    • Caleb Webber and
    • Chris P. Ponting
    Genome Res. December 2005 15: 1787-1797; doi:10.1101/gr.3896805
    ...preferentially within dog subtelomeres as a direct consequence of chromosomal fission occurring more frequently within regions elevated in G+C. Footnotes [Supplemental material is available online at www.genome.org.] Article and publication are at http://www.genome.org/cgi/doi/10.1101/gr...
  10. LETTER: Evolutionary dynamics of segmental duplications from human Y-chromosomal euchromatin/heterochromatin transition regions
    • Stefan Kirsch,
    • Claudia Münch,
    • Zhaoshi Jiang,
    • Ze Cheng,
    • Lin Chen,
    • Christiane Batz,
    • Evan E. Eichler,
    • and Werner Schempp
    Genome Res. July 2008 18: 1030-1042; Published in Advance April 29, 2008, doi:10.1101/gr.076711.108
    ...the ancestral origin of the 41 different duplicons. Combining computational and comparative FISH analysis, we reconstruct the evolutionary history of these regions. Our analysis indicates a continuous process of transposition of duplicated sequences onto the evolving higher primate Y chromosome, providing...
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