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Incomplete lineage sorting and phenotypic evolution in marsupials
| Indexado |
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| DOI | 10.1016/J.CELL.2022.03.034 | ||||
| Año | 2022 | ||||
| Tipo | artículo de investigación |
Citas Totales
Autores Afiliación Chile
Instituciones Chile
% Participación
Internacional
Autores
Afiliación Extranjera
Instituciones
Extranjeras
Abstract
Incomplete lineage sorting (ILS) makes ancestral genetic polymorphisms persist during rapid speciation events, inducing incongruences between gene trees and species trees. ILS has complicated phylogenetic inference in many lineages, including hominids. However, we lack empirical evidence that ILS leads to incongruent phenotypic variation. Here, we performed phylogenomic analyses to show that the South American monito del monte is the sister lineage of all Australian marsupials, although over 31% of its genome is closer to the Diprotodontia than to other Australian groups due to ILS during ancient radiation. Pervasive conflicting phylogenetic signals across the whole genome are consistent with some of the morphological variation among extant marsupials. We detected hundreds of genes that experienced stochastic fixation during ILS, encoding the same amino acids in non-sister species. Using functional experiments, we confirm how ILS may have directly contributed to hemiplasy in morphological traits that were established during rapid marsupial speciation ca. 60 mya.
| Ord. | Autor | Género | Institución - País |
|---|---|---|---|
| 1 | Feng, Shaohong | - |
BGI-Shenzhen - China
Kunming Institute of Zoology Chinese Academy of Sciences - China BGI Shenzhen - China CASSACA - China Institute of Zoology Chinese Academy of Sciences - China Chinese Academy of Sciences - China |
| 2 | Bai, Ming | - |
Institute of Zoology Chinese Academy of Sciences - China
Ningxia University - China Hebei Agricultural University - China CASSACA - China Ningxia Univ - China Hebei Agr Univ - China Chinese Academy of Sciences - China |
| 3 | Rivas-González, Iker | Hombre |
Aarhus Universitet - Dinamarca
Aarhus Univ - Dinamarca |
| 4 | Li, Cai | - |
Sun Yat-Sen University - China
|
| 5 | Liu, Shiping | - |
BGI-Shenzhen - China
BGI Shenzhen - China |
| 6 | Tong, Yijie | - |
Institute of Zoology Chinese Academy of Sciences - China
Hebei Agricultural University - China Hainan Yazhou Bay Seed Lab - China CASSACA - China Hebei Agr Univ - China Hainan Yazhou Bay Seed Laboratory - China Chinese Academy of Sciences - China |
| 7 | Yang, Haidong | - |
Institute of Zoology Chinese Academy of Sciences - China
Guangdong Academy of Sciences - China CASSACA - China Guangdong Acad Sci - China Chinese Academy of Sciences - China |
| 8 | Chen, Guangji | - |
BGI-Shenzhen - China
University of Chinese Academy of Sciences - China BGI Shenzhen - China Univ Chinese Acad Sci - China Chinese Academy of Sciences - China |
| 9 | Xie, Duo | - |
Shenzhen Institute of Advanced Technology - China
CASSACA - China Chinese Academy of Sciences - China |
| 10 | Sears, Karen E. | Mujer |
University of California, Los Angeles - Estados Unidos
UNIV CALIF LOS ANGELES - Estados Unidos |
| 11 | FRANCO-PEREZ, LIDA MARCELA | Mujer |
Universidad de Ibagué - Colombia
Univ Ibague - Colombia |
| 12 | Gaitan-Espitia, Juan-Diego | Hombre |
The University of Hong Kong, Swire Institute of Marine Science - Hong Kong
Univ Hong Kong - China |
| 13 | NESPOLO-ROSSI, ROBERTO FERNANDO | Hombre |
Universidad Austral de Chile - Chile
Pontificia Universidad Católica de Chile - Chile Instituto Milenio de Biología Integrativa - Chile Núcleo Milenio del Límite de Vida Patagónico: limitaciones ambientales en genética y ecofisiología - Chile Millennium Nucleus Patagonian Limit Life LiLi - Chile Millennium Institute for Integrative Biology (iBio) - Chile |
| 14 | Johnson, Warren E. | Hombre |
Conservation and Research Center (National Zoo) - Estados Unidos
Smithsonian Institution - Estados Unidos Walter Reed Army Institute of Research - Estados Unidos Smithsonian Conservat Biol Inst - Estados Unidos Smithsonian Inst - Estados Unidos Walter Reed Army Inst Res - Estados Unidos |
| 15 | Yang, Huanming | - |
BGI-Shenzhen - China
James D. Watson Institute of Genome Sciences - China BGI Shenzhen - China James D Watson Inst Genome Sci - China |
| 16 | Brandies, Parice A. | - |
The University of Sydney - Australia
UNIV SYDNEY - Australia |
| 17 | Hogg, Carolyn J. | Mujer |
The University of Sydney - Australia
UNIV SYDNEY - Australia |
| 18 | Belov, Katherine | Mujer |
The University of Sydney - Australia
UNIV SYDNEY - Australia |
| 19 | Renfree, Marilyn B. | Mujer |
School of BioSciences - Australia
Univ Melbourne - Australia |
| 20 | Helgen, Kristofer M. | Hombre |
Australian Museum - Australia
UNSW Sydney - Australia Univ New South Wales - Australia |
| 21 | Boomsma, Jacobus J. | Hombre |
Københavns Universitet - Dinamarca
Univ Copenhagen - Dinamarca |
| 22 | Schierup, Mikkel Heide | Hombre |
Aarhus Universitet - Dinamarca
Aarhus Univ - Dinamarca |
| 23 | Zhang, Guojie | - |
BGI-Shenzhen - China
Kunming Institute of Zoology Chinese Academy of Sciences - China Københavns Universitet - Dinamarca Chinese Academy of Sciences - China |
| 23 | Li, Cai | - |
Sun Yat-Sen University - China
Sun Yat Sen Univ - China |
| Fuente |
|---|
| FONDECYT |
| National Natural Science Foundation of China |
| NIH |
| Fondo Nacional de Desarrollo Científico y Tecnológico |
| National Institutes of Health |
| Chinese Academy of Sciences |
| Villum Foundation |
| Carlsberg Foundation |
| University of Queensland |
| VILLUM FONDEN |
| Novo Nordisk Foundation |
| NIH Office of the Director |
| Novo Nordisk Fonden |
| Carlsbergfondet |
| Strategic Priority Research Program of the Chinese Academy of Sciences |
| Bureau of International Cooperation, Chinese Academy of Sciences |
| Walter Reed Army Institute of Research |
| GDAS Special Project of Science and Technology Development |
| International Partnership Program of the Chinese Academy of Sciences |
| Hainan Yazhou Bay Seed Lab |
| Shanghai Synchrotron Radiation Facility |
| Queensland Museum |
| Australian Museum |
| Haidong Yang |
| Beijing Synchrotron Radiation Facility |
| Science and Technology Planning Project of Fuzhou |
| Prataculture Science of Ningxia University |
| Bureau of International Cooperation |
| First-class discipline of Prataculture Science of Ningxia University |
| Guizhou Science and Technology Planning Project |
| Agradecimiento |
|---|
| We thank Yun Ding (University of Pennsylvania) for helpful discussions of the transgenic experiments in mice. This work was supported by grants from the Strategic Priority Research Program of the Chinese Academy of Sciences (XDB31020000); the International Partnership Program of the Chinese Academy of Sciences (152453KYSB20170002); the Carlsberg Foundation (CF16-0663); the Villum Foundation (25900) to G.Z.; a National Natural Science Foundation of China grant (31901214) to S.F.; grants from the National Natural Science Foundation of China (31961143002), Bureau of International Cooperation, Chinese Academy of Sciences, the First-class discipline of Prataculture Science of Ningxia University (NXYLXK2017A01), Hainan Yazhou Bay Seed Lab (B21HJ0102), and Guizhou Science and Technology Planning Project (General support-2022-173) to M.B.; GDAS Special Project of Science and Technology Development (2020GDASYL-20200301003) to H.Y.; a NIH grant (OD022988) to K.E.S.; a FONDECYT grant (1180917) to R.F.N.; and a grant from the Novo Nordisk Foundation (NNF18OC0031004) to M.H.S. We thank the Beijing Synchrotron Radiation Facility (BSRF) and Shanghai Synchrotron Radiation Facility (SSRF) for beam time, staff 4W1A and 4W1B of the BSRF, and staff BL13W1 of the SSRF for analytical assistance. Parts of this manuscript were prepared while Warren E. Johnson held a National Research Council Research Associateship Award at the Walter Reed Army Institute of Research (WRAIR). The material has been reviewed by WRAIR and there is no objection to its presentation and/or publication. The opinions and assertions contained herein are the private views of the authors and are not to be construed as official or as reflecting true views of the Department of the Army or the Department of Defense. We thank Associate Professor Stephen Johnston (University of Queensland), the Queensland Museum, and the Australian Museum for making photographs of marsupial skeletal material available. Conceptualization, G.Z.; software, S.F. M.B. I.R.-G. Y.T. and Haidong Yang; formal analysis, S.F. I.R.-G. C.L. G.C. D.X. and M.H.S.; investigation, M.B. C.L. K.E.S. Y.T. and Haidong Yang; resources, L.M.F. R.F.N. J.D.G.-E. K.B. W.E.J. P.A.B. C.J.H. M.B.R. and K.M.H.; data curation, S.F. and G.C.; writing—original draft, S.F. M.B. C.L. and S.L.; writing—review & editing, G.Z. M.H.S. J.J.B. R.F.N. J.D.G.-E. M.B.R. K.M.H. and W.E.J.; visualization, S.F. M.B. Haidong Yang, Y.T. and G.C.; supervision, G.Z. and Huanming Yang; funding acquisition, G.Z. The authors declare no competing interests. |
| We thank Yun Ding (University of Pennsylvania) for helpful discussions of the transgenic experiments in mice. This work was supported by grants from the Strategic Priority Research Program of the Chinese Academy of Sciences (XDB31020000); the International Partnership Program of the Chinese Academy of Sciences (152453KYSB20170002); the Carlsberg Foundation (CF16-0663); the Villum Foundation (25900) to G.Z.; a National Natural Science Foundation of China grant (31901214) to S.F.; grants from the National Natural Science Foundation of China (31961143002), Bureau of International Cooperation, Chinese Academy of Sciences, the First-class discipline of Prataculture Science of Ningxia University (NXYLXK2017A01), Hainan Yazhou Bay Seed Lab (B21HJ0102), and Guizhou Science and Technology Planning Project (General support-2022-173) to M.B.; GDAS Special Project of Science and Technology Development (2020GDASYL-20200301003) to H.Y.; a NIH grant (OD022988) to K.E.S.; a FONDECYT grant (1180917) to R.F.N.; and a grant from the Novo Nordisk Foundation (NNF18OC0031004) to M.H.S. We thank the Beijing Synchrotron Radiation Facility (BSRF) and Shanghai Synchrotron Radiation Facility (SSRF) for beam time, staff 4W1A and 4W1B of the BSRF, and staff BL13W1 of the SSRF for analytical assistance. Parts of this manuscript were prepared while Warren E. Johnson held a National Research Council Research Associateship Award at the Walter Reed Army Institute of Research (WRAIR). The material has been reviewed by WRAIR and there is no objection to its presentation and/or publication. The opinions and assertions contained herein are the private views of the authors and are not to be construed as official or as reflecting true views of the Department of the Army or the Department of Defense. We thank Associate Professor Stephen Johnston (University of Queensland), the Queensland Museum, and the Australian Museum for making photographs of marsupial skeletal material available. Conceptualization, G.Z.; software, S.F. M.B. I.R.-G. Y.T. and Haidong Yang; formal analysis, S.F. I.R.-G. C.L. G.C. D.X. and M.H.S.; investigation, M.B. C.L. K.E.S. Y.T. and Haidong Yang; resources, L.M.F. R.F.N. J.D.G.-E. K.B. W.E.J. P.A.B. C.J.H. M.B.R. and K.M.H.; data curation, S.F. and G.C.; writing—original draft, S.F. M.B. C.L. and S.L.; writing—review & editing, G.Z. M.H.S. J.J.B. R.F.N. J.D.G.-E. M.B.R. K.M.H. and W.E.J.; visualization, S.F. M.B. Haidong Yang, Y.T. and G.C.; supervision, G.Z. and Huanming Yang; funding acquisition, G.Z. The authors declare no competing interests. |
| We thank Yun Ding (University of Pennsylvania) for helpful discussions of the transgenic experiments in mice. This work was supported by grants from the Strategic Priority Research Program of the Chinese Academy of Sciences (XDB31020000) ; the International Partnership Program of the Chinese Academy of Sciences (152453KYSB20170002) ; the Carlsberg Foundation (CF16-0663) ; the Villum Foundation (25900) to G.Z.; a National Natural Science Foundation of China grant (31901214) to S.F.; grants from the National Natural Science Foundation of China (31961143002) , Bureau of International Cooperation, Chinese Academy of Sciences, the First-class discipline of Prataculture Science of Ningxia University (NXYLXK2017A01) , Hainan Yazhou Bay Seed Lab (B21HJ0102) , and Guizhou Science and Technology Planning Project (General support-2022-173) to M.B.; GDAS Special Project of Science and Technology Development (2020GDASYL-20200301003) to H.Y.; a NIH grant (OD022988) to K.E.S.; a FONDECYT grant (1180917) to R.F.N.; and a grant from the Novo Nordisk Foundation (NNF18OC0031004) to M.H.S. We thank the Beijing Synchrotron Radiation Facility (BSRF) and Shanghai Synchrotron Radiation Facility (SSRF) for beam time, staff 4W1A and 4W1B of the BSRF, and staff BL13W1 of the SSRF for analytical assistance. Parts of this manu-script were prepared while Warren E. Johnson held a National Research Coun-cil Research Associateship Award at the Walter Reed Army Institute of Research (WRAIR) . The material has been reviewed by WRAIR and there is no objection to its presentation and/or publication. The opinions and asser-tions contained herein are the private views of the authors and are not to be construed as official or as reflecting true views of the Department of the Army or the Department of Defense. We thank Associate Professor Stephen Johnston (University of Queensland) , the Queensland Museum, and the Australian Museum for making photographs of marsupial skeletal material available. |
