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3. Long-range dispersal, stochasticity and the broken accelerating wave of advance

Author

Jacobs, Guy S. and Sluckin, Tim J.

Subjects
Quantitative Biology - Populations and Evolution
Abstract

Rare long distance dispersal events are thought to have a disproportionate impact on the spread of invasive species. Modelling using integrodifference equations suggests that, when long distance contacts are represented by a fat-tailed dispersal kernel, an accelerating wave of advance can ensue. Invasions spreading in this manner could have particularly dramatic effects. Recently, various authors have suggested that demographic stochasticity disrupts wave acceleration. Integrodifference models have been widely used in movement ecology, and as such a clearer understanding of stochastic effects is needed. Here, we present a stochastic non-linear one-dimensional lattice model in which demographic stochasticity and the dispersal regime can be systematically varied. Extensive simulations show that stochasticity has a profound effect on model behaviour, and usually breaks acceleration for fat-tailed kernels. Exceptions are seen for some power law kernels, $K(l) \propto |l|^{-\beta}$ with $\beta < 3$, for which acceleration persists despite stochasticity. Such kernels lack a second moment and are important in `accelerating' phenomena such as L\'{e}vy flights. Furthermore, for long-range kernels the approach to the continuum limit behaviour as stochasticity is reduced is generally slow. Given that real-world populations are finite, stochastic models may give better predictive power when long-range dispersal is important. Insights from mean-field models such as integrodifference equations should be applied with caution in such circumstances., Comment: Preprint version (October 2014) of TPB article accepted for publication December 2014

Published
2015
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5. Genomic analyses inform on migration events during the peopling of Eurasia

Author

Pagani, Luca, Lawson, Daniel John, Jagoda, Evelyn, Mörseburg, Alexander, Eriksson, Anders, Mitt, Mario, Clemente, Florian, Hudjashov, Georgi, DeGiorgio, Michael, Saag, Lauri, Wall, Jeffrey D, Cardona, Alexia, Mägi, Reedik, Sayres, Melissa A Wilson, Kaewert, Sarah, Inchley, Charlotte, Scheib, Christiana L, Järve, Mari, Karmin, Monika, Jacobs, Guy S, Antao, Tiago, Iliescu, Florin Mircea, Kushniarevich, Alena, Ayub, Qasim, Tyler-Smith, Chris, Xue, Yali, Yunusbayev, Bayazit, Tambets, Kristiina, Mallick, Chandana Basu, Saag, Lehti, Pocheshkhova, Elvira, Andriadze, George, Muller, Craig, Westaway, Michael C, Lambert, David M, Zoraqi, Grigor, Turdikulova, Shahlo, Dalimova, Dilbar, Sabitov, Zhaxylyk, Sultana, Gazi Nurun Nahar, Lachance, Joseph, Tishkoff, Sarah, Momynaliev, Kuvat, Isakova, Jainagul, Damba, Larisa D, Gubina, Marina, Nymadawa, Pagbajabyn, Evseeva, Irina, Atramentova, Lubov, Utevska, Olga, Ricaut, François-Xavier, Brucato, Nicolas, Sudoyo, Herawati, Letellier, Thierry, Cox, Murray P, Barashkov, Nikolay A, Škaro, Vedrana, Mulahasanovic´, Lejla, Primorac, Dragan, Sahakyan, Hovhannes, Mormina, Maru, Eichstaedt, Christina A, Lichman, Daria V, Abdullah, Syafiq, Chaubey, Gyaneshwer, Wee, Joseph TS, Mihailov, Evelin, Karunas, Alexandra, Litvinov, Sergei, Khusainova, Rita, Ekomasova, Natalya, Akhmetova, Vita, Khidiyatova, Irina, Marjanović, Damir, Yepiskoposyan, Levon, Behar, Doron M, Balanovska, Elena, Metspalu, Andres, Derenko, Miroslava, Malyarchuk, Boris, Voevoda, Mikhail, Fedorova, Sardana A, Osipova, Ludmila P, Lahr, Marta Mirazón, Gerbault, Pascale, Leavesley, Matthew, Migliano, Andrea Bamberg, Petraglia, Michael, Balanovsky, Oleg, Khusnutdinova, Elza K, Metspalu, Ene, Thomas, Mark G, Manica, Andrea, Nielsen, Rasmus, Villems, Richard, Willerslev, Eske, Kivisild, Toomas, and Metspalu, Mait

Subjects
Human Genome, Biotechnology, Genetics, Generic health relevance, Africa, Animals, Asia, Datasets as Topic, Estonia, Europe, Fossils, Gene Flow, Genetics, Population, Genome, Human, Genomics, Heterozygote, History, Ancient, Human Migration, Humans, Native Hawaiian or Other Pacific Islander, Neanderthals, New Guinea, Population Dynamics, Racial Groups, General Science & Technology
Abstract

High-coverage whole-genome sequence studies have so far focused on a limited number of geographically restricted populations, or been targeted at specific diseases, such as cancer. Nevertheless, the availability of high-resolution genomic data has led to the development of new methodologies for inferring population history and refuelled the debate on the mutation rate in humans. Here we present the Estonian Biocentre Human Genome Diversity Panel (EGDP), a dataset of 483 high-coverage human genomes from 148 populations worldwide, including 379 new genomes from 125 populations, which we group into diversity and selection sets. We analyse this dataset to refine estimates of continent-wide patterns of heterozygosity, long- and short-distance gene flow, archaic admixture, and changes in effective population size through time as well as for signals of positive or balancing selection. We find a genetic signature in present-day Papuans that suggests that at least 2% of their genome originates from an early and largely extinct expansion of anatomically modern humans (AMHs) out of Africa. Together with evidence from the western Asian fossil record, and admixture between AMHs and Neanderthals predating the main Eurasian expansion, our results contribute to the mounting evidence for the presence of AMHs out of Africa earlier than 75,000 years ago.

Published
2016

11. Introgression, hominin dispersal and megafaunal survival in Late Pleistocene Island Southeast Asia

Author

Teixeira, João C., primary, Jacobs, Guy S., additional, Stringer, Chris, additional, Tuke, Jonathan, additional, Hudjashov, Georgi, additional, Purnomo, Gludhug A., additional, Sudoyo, Herawati, additional, Cox, Murray P., additional, Tobler, Ray, additional, Turney, Chris S.M., additional, Cooper, Alan, additional, and Helgen, Kristofer M., additional

Published
2020
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13. Genome-wide DNA methylation and gene expression patterns reflect genetic ancestry and environmental differences across the Indonesian archipelago

Author

Natri, Heini M., primary, Bobowik, Katalina S., additional, Kusuma, Pradiptajati, additional, Crenna Darusallam, Chelzie, additional, Jacobs, Guy S., additional, Hudjashov, Georgi, additional, Lansing, J. Stephen, additional, Sudoyo, Herawati, additional, Banovich, Nicholas E., additional, Cox, Murray P., additional, and Gallego Romero, Irene, additional

Published
2020
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14. Sex-linked genetic diversity originates from persistent sociocultural processes at microgeographic scales

Author

Chung, Ning Ning, Jacobs, Guy S., Sudoyo, Herawati, Malik, Safarina G., Chew, Lock Yue, Lansing, J. Stephen, Cox, Murray P., Chung, Ning Ning, Jacobs, Guy S., Sudoyo, Herawati, Malik, Safarina G., Chew, Lock Yue, Lansing, J. Stephen, and Cox, Murray P.

Abstract

Population genetics has been successful at identifying the relationships between human groups and their interconnected histories. However, the link between genetic demography inferred at large scales and the individual human behaviours that ultimately generate that demography is not always clear. While anthropological and historical context are routinely presented as adjuncts in population genetic studies to help describe the past, determining how underlying patterns of human sociocultural behaviour impact genetics still remains challenging. Here, we analyse patterns of genetic variation in village-scale samples from two islands in eastern Indonesia, patrilocal Sumba and a matrilocal region of Timor. Adopting a ‘process modelling’ approach, we iteratively explore combinations of structurally different models as a thinking tool. We find interconnected socio-genetic interactions involving sex-biased migration, lineage-focused founder effects, and on Sumba, heritable social dominance. Strikingly, founder ideology, a cultural model derived from anthropological and archaeological studies at larger regional scales, has both its origins and impact at the scale of villages. Process modelling lets us explore these complex interactions, first by circumventing the complexity of formal inference when studying large datasets with many interacting parts, and then by explicitly testing complex anthropological hypotheses about sociocultural behaviour from a more familiar population genetic standpoint.

Published
2019
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17. Genome-wide DNA methylation and gene expression patterns reflect genetic ancestry and environmental differences across the Indonesian archipelago

Author

Natri, Heini, primary, Bobowik, Katalina S., additional, Kusuma, Pradiptajati, additional, Darusallam, Chelzie Crenna, additional, Jacobs, Guy S., additional, Hudjashov, Georgi, additional, Lansing, J. Stephen, additional, Sudoyo, Herawati, additional, Banovich, Nicholas E., additional, Cox, Murray P., additional, and Gallego Romero, Irene, additional

Published
2019
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18. Multiple Deeply Divergent Denisovan Ancestries in Papuans

Author

Jacobs, Guy S., primary, Hudjashov, Georgi, additional, Saag, Lauri, additional, Kusuma, Pradiptajati, additional, Darusallam, Chelzie C., additional, Lawson, Daniel J., additional, Mondal, Mayukh, additional, Pagani, Luca, additional, Ricaut, François-Xavier, additional, Stoneking, Mark, additional, Metspalu, Mait, additional, Sudoyo, Herawati, additional, Lansing, J. Stephen, additional, and Cox, Murray P., additional

Published
2019
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20. Characterisation of a second gain of function EDARvariant, encoding EDAR380R, in East Asia

Author

Riddell, Jon, Basu Mallick, Chandana, Jacobs, Guy S., Schoenebeck, Jeffrey J., and Headon, Denis J.

Abstract

Ectodysplasin A1 receptor (EDAR) is a TNF receptor family member with roles in the development and growth of hair, teeth and glands. A derived allele of EDAR, single-nucleotide variant rs3827760, encodes EDAR:p.(Val370Ala), a receptor with more potent signalling effects than the ancestral EDAR370Val. This allele of rs3827760 is at very high frequency in modern East Asian and Native American populations as a result of ancient positive selection and has been associated with straighter, thicker hair fibres, alteration of tooth and ear shape, reduced chin protrusion and increased fingertip sweat gland density. Here we report the characterisation of another SNV in EDAR, rs146567337, encoding EDAR:p.(Ser380Arg). The derived allele of this SNV is at its highest global frequency, of up to 5%, in populations of southern China, Vietnam, the Philippines, Malaysia and Indonesia. Using haplotype analyses, we find that the rs3827760 and rs146567337 SNVs arose on distinct haplotypes and that rs146567337 does not show the same signs of positive selection as rs3827760. From functional studies in cultured cells, we find that EDAR:p.(Ser380Arg) displays increased EDAR signalling output, at a similar level to that of EDAR:p.(Val370Ala). The existence of a second SNV with partly overlapping geographic distribution, the same in vitro functional effect and similar evolutionary age as the derived allele of rs3827760, but of independent origin and not exhibiting the same signs of strong selection, suggests a northern focus of positive selection on EDAR function in East Asia.

Published
2020
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21. Evidence of Early-Stage Selection on EPAS1 and GPR126 Genes in Andean High Altitude Populations

Author

Eichstaedt, Christina A., primary, Pagani, Luca, additional, Antao, Tiago, additional, Inchley, Charlotte E., additional, Cardona, Alexia, additional, Mörseburg, Alexander, additional, Clemente, Florian J., additional, Sluckin, Timothy J., additional, Metspalu, Ene, additional, Mitt, Mario, additional, Mägi, Reedik, additional, Hudjashov, Georgi, additional, Metspalu, Mait, additional, Mormina, Maru, additional, Jacobs, Guy S., additional, and Kivisild, Toomas, additional

Published
2017
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24. Genome-wide DNA methylation and gene expression patterns reflect genetic ancestry and environmental differences across the Indonesian archipelago

Author

Natri, Heini M, Bobowik, Katalina S, Kusuma, Pradiptajati, Crenna Darusallam, Chelzie, Jacobs, Guy S, Hudjashov, Georgi, Lansing, J Stephen, Sudoyo, Herawati, Banovich, Nicholas E, Cox, Murray P, and Gallego Romero, Irene

Subjects
Islands, Gene Expression Profiling, Genomics, DNA Methylation, Environment, Pacific Islands, Polymorphism, Single Nucleotide, 3. Good health, Epigenesis, Genetic, Pedigree, Genetics, Population, Phenotype, Indonesia, Ethnicity, Humans, CpG Islands, Gene-Environment Interaction, RNA-Seq, Transcriptome, Genome-Wide Association Study
Abstract

Indonesia is the world's fourth most populous country, host to striking levels of human diversity, regional patterns of admixture, and varying degrees of introgression from both Neanderthals and Denisovans. However, it has been largely excluded from the human genomics sequencing boom of the last decade. To serve as a benchmark dataset of molecular phenotypes across the region, we generated genome-wide CpG methylation and gene expression measurements in over 100 individuals from three locations that capture the major genomic and geographical axes of diversity across the Indonesian archipelago. Investigating between- and within-island differences, we find up to 10.55% of tested genes are differentially expressed between the islands of Sumba and New Guinea. Variation in gene expression is closely associated with DNA methylation, with expression levels of 9.80% of genes correlating with nearby promoter CpG methylation, and many of these genes being differentially expressed between islands. Genes identified in our differential expression and methylation analyses are enriched in pathways involved in immunity, highlighting Indonesia's tropical role as a source of infectious disease diversity and the strong selective pressures these diseases have exerted on humans. Finally, we identify robust within-island variation in DNA methylation and gene expression, likely driven by fine-scale environmental differences across sampling sites. Together, these results strongly suggest complex relationships between DNA methylation, transcription, archaic hominin introgression and immunity, all jointly shaped by the environment. This has implications for the application of genomic medicine, both in critically understudied Indonesia and globally, and will allow a better understanding of the interacting roles of genomic and environmental factors shaping molecular and complex phenotypes.

25. Genomic analyses inform on migration events during the peopling of Eurasia

Author

Pagani, Luca, Lawson, Daniel John, Jagoda, Evelyn, Mörseburg, Alexander, Eriksson, Anders, Mitt, Mario, Clemente, Florian, Hudjashov, Georgi, DeGiorgio, Michael, Saag, Lauri, Wall, Jeffrey D, Cardona, Alexia, Mägi, Reedik, Wilson Sayres, Melissa A, Kaewert, Sarah, Inchley, Charlotte, Scheib, Christiana L, Järve, Mari, Karmin, Monika, Jacobs, Guy S, Antao, Tiago, Iliescu, Florin Mircea, Kushniarevich, Alena, Ayub, Qasim, Tyler-Smith, Chris, Xue, Yali, Yunusbayev, Bayazit, Tambets, Kristiina, Mallick, Chandana Basu, Saag, Lehti, Pocheshkhova, Elvira, Andriadze, George, Muller, Craig, Westaway, Michael C, Lambert, David M, Zoraqi, Grigor, Turdikulova, Shahlo, Dalimova, Dilbar, Sabitov, Zhaxylyk, Sultana, Gazi Nurun Nahar, Lachance, Joseph, Tishkoff, Sarah, Momynaliev, Kuvat, Isakova, Jainagul, Damba, Larisa D, Gubina, Marina, Nymadawa, Pagbajabyn, Evseeva, Irina, Atramentova, Lubov, Utevska, Olga, Ricaut, François-Xavier, Brucato, Nicolas, Sudoyo, Herawati, Letellier, Thierry, Cox, Murray P, Barashkov, Nikolay A, Skaro, Vedrana, Mulahasanovic, Lejla, Primorac, Dragan, Sahakyan, Hovhannes, Mormina, Maru, Eichstaedt, Christina A, Lichman, Daria V, Abdullah, Syafiq, Chaubey, Gyaneshwer, Wee, Joseph TS, Mihailov, Evelin, Karunas, Alexandra, Litvinov, Sergei, Khusainova, Rita, Ekomasova, Natalya, Akhmetova, Vita, Khidiyatova, Irina, Marjanović, Damir, Yepiskoposyan, Levon, Behar, Doron M, Balanovska, Elena, Metspalu, Andres, Derenko, Miroslava, Malyarchuk, Boris, Voevoda, Mikhail, Fedorova, Sardana A, Osipova, Ludmila P, Lahr, Marta Mirazón, Gerbault, Pascale, Leavesley, Matthew, Migliano, Andrea Bamberg, Petraglia, Michael, Balanovsky, Oleg, Khusnutdinova, Elza K, Metspalu, Ene, Thomas, Mark G, Manica, Andrea, Nielsen, Rasmus, Villems, Richard, Willerslev, Eske, Kivisild, Toomas, and Metspalu, Mait

Subjects
Estonia, Gene Flow, Heterozygote, New Guinea, Asia, Continental Population Groups, Fossils, Genome, Human, Human Migration, Population Dynamics, Datasets as Topic, Genomics, 3. Good health, Europe, Oceanic Ancestry Group, Genetics, Population, Africa, Animals, Humans, History, Ancient, Neanderthals
Abstract

High-coverage whole-genome sequence studies have so far focused on a limited number of geographically restricted populations, or been targeted at specific diseases, such as cancer. Nevertheless, the availability of high-resolution genomic data has led to the development of new methodologies for inferring population history and refuelled the debate on the mutation rate in humans. Here we present the Estonian Biocentre Human Genome Diversity Panel (EGDP), a dataset of 483 high-coverage human genomes from 148 populations worldwide, including 379 new genomes from 125 populations, which we group into diversity and selection sets. We analyse this dataset to refine estimates of continent-wide patterns of heterozygosity, long- and short-distance gene flow, archaic admixture, and changes in effective population size through time as well as for signals of positive or balancing selection. We find a genetic signature in present-day Papuans that suggests that at least 2% of their genome originates from an early and largely extinct expansion of anatomically modern humans (AMHs) out of Africa. Together with evidence from the western Asian fossil record, and admixture between AMHs and Neanderthals predating the main Eurasian expansion, our results contribute to the mounting evidence for the presence of AMHs out of Africa earlier than 75,000 years ago., Support was provided by: Estonian Research Infrastructure Roadmap grant no 3.2.0304.11-0312; Australian Research Council Discovery grants (DP110102635 and DP140101405) (D.M.L., M.W. and E.W.); Danish National Research Foundation; the Lundbeck Foundation and KU2016 (E.W.); ERC Starting Investigator grant (FP7 - 261213) (T.K.); Estonian Research Council grant PUT766 (G.C. and M.K.); EU European Regional Development Fund through the Centre of Excellence in Genomics to Estonian Biocentre (R.V.; M.Me. and A.Me.), and Centre of Excellence for Genomics and Translational Medicine Project No. 2014-2020.4.01.15-0012 to EGC of UT (A.Me.) and EBC (M.Me.); Estonian Institutional Research grant IUT24-1 (L.S., M.J., A.K., B.Y., K.T., C.B.M., Le.S., H.Sa., S.L., D.M.B., E.M., R.V., G.H., M.K., G.C., T.K. and M.Me.) and IUT20-60 (A.Me.); French Ministry of Foreign and European Affairs and French ANR grant number ANR-14-CE31-0013-01 (F.-X.R.); Gates Cambridge Trust Funding (E.J.); ICG SB RAS (No. VI.58.1.1) (D.V.L.); Leverhulme Programme grant no. RP2011-R-045 (A.B.M., P.G. and M.G.T.); Ministry of Education and Science of Russia; Project 6.656.2014/K (S.A.F.); NEFREX grant funded by the European Union (People Marie Curie Actions; International Research Staff Exchange Scheme; call FP7-PEOPLE-2012-IRSES-number 318979) (M.Me., G.H. and M.K.); NIH grants 5DP1ES022577 05, 1R01DK104339-01, and 1R01GM113657-01 (S.Tis.); Russian Foundation for Basic Research (grant N 14-06-00180a) (M.G.); Russian Foundation for Basic Research; grant 16-04-00890 (O.B. and E.B); Russian Science Foundation grant 14-14-00827 (O.B.); The Russian Foundation for Basic Research (14-04-00725-a), The Russian Humanitarian Scientific Foundation (13-11-02014) and the Program of the Basic Research of the RAS Presidium “Biological diversity” (E.K.K.); Wellcome Trust and Royal Society grant WT104125AIA & the Bristol Advanced Computing Research Centre (http://www.bris.ac.uk/acrc/) (D.J.L.); Wellcome Trust grant 098051 (Q.A.; C.T.-S. and Y.X.); Wellcome Trust Senior Research Fellowship grant 100719/Z/12/Z (M.G.T.); Young Explorers Grant from the National Geographic Society (8900-11) (C.A.E.); ERC Consolidator Grant 647787 ‘LocalAdaptatio’ (A.Ma.); Program of the RAS Presidium “Basic research for the development of the Russian Arctic” (B.M.); Russian Foundation for Basic Research grant 16-06-00303 (E.B.); a Rutherford Fellowship (RDF-10-MAU-001) from the Royal Society of New Zealand (M.P.C.).

26. Sex-linked genetic diversity originates from persistent sociocultural processes at microgeographic scales

Author

Chung, Ning Ning, Jacobs, Guy S, Sudoyo, Herawati, Malik, Safarina G, Chew, Lock Yue, Lansing, J Stephen, and Cox, Murray P

Subjects
process models, 10. No inequality, dominance, migration, Pacific prehistory
Abstract

Population genetics has been successful at identifying the relationships between human groups and their interconnected histories. However, the link between genetic demography inferred at large scales and the individual human behaviours that ultimately generate that demography is not always clear. While anthropological and historical context are routinely presented as adjuncts in population genetic studies to help describe the past, determining how underlying patterns of human sociocultural behaviour impact genetics still remains challenging. Here, we analyse patterns of genetic variation in village-scale samples from two islands in eastern Indonesia, patrilocal Sumba and a matrilocal region of Timor. Adopting a 'process modelling' approach, we iteratively explore combinations of structurally different models as a thinking tool. We find interconnected socio-genetic interactions involving sex-biased migration, lineage-focused founder effects, and on Sumba, heritable social dominance. Strikingly, founder ideology, a cultural model derived from anthropological and archaeological studies at larger regional scales, has both its origins and impact at the scale of villages. Process modelling lets us explore these complex interactions, first by circumventing the complexity of formal inference when studying large datasets with many interacting parts, and then by explicitly testing complex anthropological hypotheses about sociocultural behaviour from a more familiar population genetic standpoint.

27. Genome-wide DNA methylation and gene expression patterns reflect genetic ancestry and environmental differences across the Indonesian archipelago

Author

Katalina S. Bobowik, Nicholas E. Banovich, Pradiptajati Kusuma, Heini M. Natri, Irene Gallego Romero, Georgi Hudjashov, J. Stephen Lansing, Murray P. Cox, Chelzie Crenna Darusallam, Herawati Sudoyo, Guy S. Jacobs, Natri, Heini M [0000-0003-4698-6103], Bobowik, Katalina S [0000-0002-7030-3969], Kusuma, Pradiptajati [0000-0002-9722-4048], Jacobs, Guy S [0000-0002-4698-7758], Hudjashov, Georgi [0000-0002-7536-9086], Lansing, J Stephen [0000-0003-2132-5309], Banovich, Nicholas E [0000-0003-2604-3247], Cox, Murray P [0000-0003-1936-0236], Gallego Romero, Irene [0000-0003-1613-8998], Apollo - University of Cambridge Repository, School of Physical and Mathematical Sciences, and Complexity Institute

Subjects
Cancer Research, Topography, Molecular biology, Introgression, Gene Expression, QH426-470, Biochemistry, Genome, Epigenesis, Genetic, Geographical Locations, Sequencing techniques, 0302 clinical medicine, Gene expression, Ethnicity, RNA-Seq, Genetics (clinical), Islands, education.field_of_study, 0303 health sciences, DNA methylation, RNA sequencing, Genomics, Methylation, Phenotype, Chromatin, Pedigree, 3. Good health, Nucleic acids, CpG site, Epigenetics, DNA modification, Chromatin modification, Research Article, Chromosome biology, Cell biology, Asia, Evolutionary Processes, Genetic genealogy, Population, Oceania, Environment, Biology, Pacific Islands, Polymorphism, Single Nucleotide, 03 medical and health sciences, Genomic Medicine, Physics [Science], Genetics, Humans, education, Gene, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Landforms, Evolutionary Biology, Biology and life sciences, Population Biology, Gene Expression Profiling, Geomorphology, DNA, DNA Methylation, Gene expression profiling, Research and analysis methods, Genetics, Population, Molecular biology techniques, Indonesia, Evolutionary biology, People and Places, Earth Sciences, CpG Islands, Gene-Environment Interaction, Transcriptome, Population Genetics, 030217 neurology & neurosurgery, Genome-Wide Association Study
Abstract

Indonesia is the world’s fourth most populous country, host to striking levels of human diversity, regional patterns of admixture, and varying degrees of introgression from both Neanderthals and Denisovans. However, it has been largely excluded from the human genomics sequencing boom of the last decade. To serve as a benchmark dataset of molecular phenotypes across the region, we generated genome-wide CpG methylation and gene expression measurements in over 100 individuals from three locations that capture the major genomic and geographical axes of diversity across the Indonesian archipelago. Investigating between- and within-island differences, we find up to 10.55% of tested genes are differentially expressed between the islands of Sumba and New Guinea. Variation in gene expression is closely associated with DNA methylation, with expression levels of 9.80% of genes correlating with nearby promoter CpG methylation, and many of these genes being differentially expressed between islands. Genes identified in our differential expression and methylation analyses are enriched in pathways involved in immunity, highlighting Indonesia's tropical role as a source of infectious disease diversity and the strong selective pressures these diseases have exerted on humans. Finally, we identify robust within-island variation in DNA methylation and gene expression, likely driven by fine-scale environmental differences across sampling sites. Together, these results strongly suggest complex relationships between DNA methylation, transcription, archaic hominin introgression and immunity, all jointly shaped by the environment. This has implications for the application of genomic medicine, both in critically understudied Indonesia and globally, and will allow a better understanding of the interacting roles of genomic and environmental factors shaping molecular and complex phenotypes., Author summary Understanding how gene expression varies across individuals and environments is fundamental for the success of molecular medicine. However, the vast majority of studies of gene expression, particularly in healthy individuals, have primarily involved populations of European descent. It is unclear whether these findings are generalizable to the rest of humanity. We examined gene expression and DNA methylation in 116 individuals across Indonesia, the world's fourth most populous country. Our three populations–Mentawai off the western coast of Sumatra, Sumba in central Indonesia, and a group of hunter-gatherers, the Korowai, living in the province of Indonesian New Guinea–span the main axes of genetic and geographic diversity in the region. Up to 10% of genes show differences in expression and methylation patterns between islands, with many involved in immune function. Variation between villages within each location can likely be attributed to small-scale environmental differences. These findings emphasise the need to consider a broad range of genetic and environmental backgrounds when examining how molecular patterns and processes are shared across human populations.

Published
2019
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