Your search keyword '"Bontrop, Ronald E."' showing total 11 results

1. Extreme selective sweeps independently targeted the X chromosomes of the great apes

Author

Nam, Kiwoong, Munch, Kasper, Hobolth, Asger, Dutheil, Julien Yann, Veeramah, Krishna R, Woerner, August E, Hammer, Michael F, Mailund, Thomas, Schierup, Mikkel Heide, Prado-Martinez, Javier, Sudmant, Peter H, Kidd, Jeffrey M, Li, Heng, Kelley, Joanna L, Lorente-Galdos, Belen, O’Connor, Timothy D, Santpere, Gabriel, Cagan, Alexander, Theunert, Christoph, Casals, Ferran, Laayouni, Hafid, Halager, Anders E, Malig, Maika, Hernandez-Rodriguez, Jessica, Hernando-Herraez, Irene, Prüfer, Kay, Pybus, Marc, Johnstone, Laurel, Lachmann, Michael, Alkan, Can, Twigg, Dorina, Petit, Natalia, Baker, Carl, Hormozdiari, Fereydoun, Fernandez-Callejo, Marcos, Dabad, Marc, Wilson, Michael L, Stevison, Laurie, Camprubí, Cristina, Carvalho, Tiago, Ruiz-Herrera, Aurora, Vives, Laura, Mele, Marta, Abello, Teresa, Kondova, Ivanela, Bontrop, Ronald E, Pusey, Anne, Lankester, Felix, Kiyang, John A, Bergl, Richard A, Lonsdorf, Elizabeth, Myers, Simon, Ventura, Mario, Gagneux, Pascal, Comas, David, Siegismund, Hans, Blanc, Julie, Agueda-Calpena, Lidia, Gut, Marta, Fulton, Lucinda, Tishkoff, Sarah A, Mullikin, James C, Wilson, Richard K, Gut, Ivo G, Gonder, Mary Katherine, Ryder, Oliver A, Hahn, Beatrice H, Navarro, Arcadi, Akey, Joshua M, Bertranpetit, Jaume, Reich, David, Schierup, Mikkel H, Hvilsom, Christina, Andrés, Aida M, Wall, Jeffrey D, Bustamante, Carlos D, Eichler, Evan E, and Marques-Bonet, Tomas

Subjects

Human Genome, Genetics, Animals, Computational Biology, Databases, Genetic, Genetic Variation, Genetics, Population, Hominidae, Models, Genetic, Polymorphism, Genetic, Selection, Genetic, Species Specificity, X Chromosome, Great Ape Genome Diversity Project, X-chromosome evolution, ampliconic genes, great apes, meiotic drive, selective sweeps

Abstract

The unique inheritance pattern of the X chromosome exposes it to natural selection in a way that is different from that of the autosomes, potentially resulting in accelerated evolution. We perform a comparative analysis of X chromosome polymorphism in 10 great ape species, including humans. In most species, we identify striking megabase-wide regions, where nucleotide diversity is less than 20% of the chromosomal average. Such regions are found exclusively on the X chromosome. The regions overlap partially among species, suggesting that the underlying targets are partly shared among species. The regions have higher proportions of singleton SNPs, higher levels of population differentiation, and a higher nonsynonymous-to-synonymous substitution ratio than the rest of the X chromosome. We show that the extent to which diversity is reduced is incompatible with direct selection or the action of background selection and soft selective sweeps alone, and therefore, we suggest that very strong selective sweeps have independently targeted these specific regions in several species. The only genomic feature that we can identify as strongly associated with loss of diversity is the location of testis-expressed ampliconic genes, which also have reduced diversity around them. We hypothesize that these genes may be responsible for selective sweeps in the form of meiotic drive caused by an intragenomic conflict in male meiosis.

Published

2015

2. Unparalleled Complexity of the MHC Class I Region in Rhesus Macaques

Author

Otting, Nel, Noort, Riet C., de Groot, Natasja G., van Rood, Jon J., Watkins, David I., and Bontrop, Ronald E.

Published

2005

3. Evidence for an Ancient Selective Sweep in the MHC Class I Gene Repertoire of Chimpanzees

Author

de Groot, Natasja G., Otting, Nel, Balla-Jhagjhoorsingh, Sunita S., Heeney, Jonathan L., van Rood, Jon J., Gagneux, Pascal, and Bontrop, Ronald E.

Published

2002

4. The Common Marmoset: A New World Primate Species with Limited Mhc Class II Variability

Author

Antunes, Susana G., de Groot, Natasja G., Brok, Herbert, Doxiadis, Gaby, Otting, Nel, and Bontrop, Ronald E.

Published

1998

5. AIDS-protective HLA-B*27/B*57 and chimpanzee MHC class I molecules target analogous conserved areas of HIV-1/SIV cpz

Author

de Groot, Natasja G., Heijmans, Corrine M. C., Zoet, Yvonne M., de Ru, Arnoud H., Verreck, Frank A., van Veelen, Peter A., Drijfhout, Jan W., Doxiadis, Gaby G. M., Remarque, Edmond J., Doxiadis, Ilias I. N., van Rood, Jon J., Koning, Frits, Bontrop, Ronald E., and van Rood, Johannes J.

Published

2010

6. A Highly Divergent Microsatellite Facilitating Fast and Accurate DRB Haplotyping in Humans and Rhesus Macaques

Author

Doxiadis, Gaby G. M., de Groot, Nanine, Claas, Frans H. J., Doxiadis, Ilias I. N., van Rood, Jon J., and Bontrop, Ronald E.

Published

2007

7. Reactivation by Exon Shuffling of a Conserved HLA-DR3-Like Pseudogene Segment in a New World Primate Species

Author

Doxiadis, Gaby G. M., van der Wiel, Marit K. H., Brok, Herbert P. M., de Groot, Natasja G., Otting, Nel, 't Hart, Bert A., van Rood, Jon J., and Bontrop, Ronald E.

Published

2006

8. A Uniquely High Level of Recombination at the HLA-B Locus

Author

McAdam, Stephen N., Boyson, Jonathan E., Liu, Xiaomin, Garber, Theodore L., Hughes, Austin L., Bontrop, Ronald E., and Watkins, David I.

Published

1994

9. AIDS-protective HLA-B*27/B*57 and chimpanzee MHC class I molecules target analogous conserved areas of HIV-1/SlVcpz.

Author

de Groot, Natasja G., Heijmans, Corrine M. C., Zoet, Yvonne M., de Ru, Arnoud H., Verreck, Frank A., van Veelen, Peter A., Drijfhout, Jan W., Doxiadis, Gaby G. M., Remarque, Edmond J., Doxiadis, Ilias I. N., van Rood, Jon J., Koning, Frits, and Bontrop, Ronald E.

Subjects

CHIMPANZEES, AIDS treatment, MOLECULES, PEPTIDES, PROTEIN binding, MAJOR histocompatibility complex, DISEASES

Abstract

In the absence of treatment, most HIV-1-infected humans develop AIDS. However, a minority are long-term nonprogressors, and resistance is associated with the presence of particular HLA-B*27/ B*57 molecules. In contrast, most HIV-1-infected chimpanzees do not contract AIDS. In comparison with humans, chimpanzees experienced an ancient selective sweep affecting the MHC class I repertoire. We have determined the peptide-binding properties of frequent chimpanzee MHC class I molecules, and show that, like HLA-B*27IB*57, they target similar conserved areas of HIV1/SlVcpz. In addition, many animals appear to possess multiple molecules targeting various conserved areas of the HlV-1/SlVcpz Gag protein, a quantitative aspect of the immune response that may further minimize the chance of viral escape. The functional characteristics of the contemporary chimpanzee MHC repertoire suggest that the selective sweep was caused by a lentiviral pandemic. [ABSTRACT FROM AUTHOR]

Published

2010

10. Evidence of an ancient selective sweep in the MHC class I gene repertoire of chimpanzees.

Author

de Groot, Natasja G., Otting, Nel, Doxiadis, Gaby G.M., Balla-Jhagjhoorsingh, Sunita S., Heeney, Jonathan L., van Rood, Jon J., Gagneux, Pascal, and Bontrop, Ronald E.

Subjects

MAJOR histocompatibility complex, IMMUNOLOGY, ANIMAL genetics, CHIMPANZEES

Abstract

MHC class I molecules play an essential role in the immune defense against intracellular infections. The hallmark of the MHC is its extensive degree of polymorphism at the population level. However, the present comparison of MHC class I gene intron variation revealed that chimpanzees have experienced a severe repertoire reduction at the orthologues of the HLA-A,-B, and -C loci. The loss of variability predates the (sub)speciation of chimpanzees and did not effect other known gene systems. Therefore the selective sweep in the MHC class I gene may have resulted from a widespread viral infection. Based on the present results and the fact that chimpanzees have a natural resistance to the development of AIDS, we hypothesize that the selective sweep was caused by the chimpanzee-derived simian immunodeficiency virus (SIVcpz), the closest relative of HIV-1, or a closely related retrovirus. Hence, the contemporary chimpanzee populations represent the offspring of AIDS-resistant animals, the survivors of a HIV-like pandemic that took place in the distant past. [ABSTRACT FROM AUTHOR]

Published

2002

11. AIDS-protective HLA-B*27/B*57 and chimpanzee MHC class I molecules target analogous conserved areas of HIV-1/SlVcpz.

Author

de Groot, Natasja G., Heijmans, Corrine M. C., Zoet, Yvonne M., de Ru, Arnoud H., Verreck, Frank A., van Veelen, Peter A., Drijfhout, Jan W., Doxiadis, Gaby G. M., Remarque, Edmond J., Doxiadis, Ilias I. N., van Rood, Jon J., Koning, Frits, and Bontrop, Ronald E.

Subjects

*CHIMPANZEES, *AIDS treatment, *MOLECULES, *PEPTIDES, *PROTEIN binding, *MAJOR histocompatibility complex, *DISEASES

Abstract

In the absence of treatment, most HIV-1-infected humans develop AIDS. However, a minority are long-term nonprogressors, and resistance is associated with the presence of particular HLA-B*27/ B*57 molecules. In contrast, most HIV-1-infected chimpanzees do not contract AIDS. In comparison with humans, chimpanzees experienced an ancient selective sweep affecting the MHC class I repertoire. We have determined the peptide-binding properties of frequent chimpanzee MHC class I molecules, and show that, like HLA-B*27IB*57, they target similar conserved areas of HIV1/SlVcpz. In addition, many animals appear to possess multiple molecules targeting various conserved areas of the HlV-1/SlVcpz Gag protein, a quantitative aspect of the immune response that may further minimize the chance of viral escape. The functional characteristics of the contemporary chimpanzee MHC repertoire suggest that the selective sweep was caused by a lentiviral pandemic. [ABSTRACT FROM AUTHOR]

Published

2010