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223 results on '"Gilbert, MTP"'

1. Multiple, single trait GWAS and supervised machine learning reveal the genetic architecture ofFraxinus excelsiortolerance to ash dieback in Europe

Author

Doonan, JM, primary, Budde, KB, additional, Kosawang, C, additional, Lobo, A, additional, Verbylaite, R, additional, Brealey, JC, additional, Martin, MD, additional, Pliūra, A, additional, Thomas, K, additional, Konrad, H, additional, Seegmüller, S, additional, Liziniewicz, M, additional, Cleary, M, additional, Nemesio-Gorriz, M, additional, Fussi, B, additional, Kirisits, T, additional, Gilbert, MTP, additional, Heuertz, MTP, additional, Kjær, ED, additional, and Nielsen, LR, additional

Published
2023
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2. The Australian dingo is an early offshoot of modern breed dogs.

Author

Field, MA, Yadav, S, Dudchenko, O, Esvaran, M, Rosen, BD, Skvortsova, K, Edwards, RJ, Keilwagen, J, Cochran, BJ, Manandhar, B, Bustamante, S, Rasmussen, JA, Melvin, RG, Chernoff, B, Omer, A, Colaric, Z, Chan, EKF, Minoche, AE, Smith, TPL, Gilbert, MTP, Bogdanovic, O, Zammit, RA, Thomas, T, Aiden, EL, Ballard, JWO, Field, MA, Yadav, S, Dudchenko, O, Esvaran, M, Rosen, BD, Skvortsova, K, Edwards, RJ, Keilwagen, J, Cochran, BJ, Manandhar, B, Bustamante, S, Rasmussen, JA, Melvin, RG, Chernoff, B, Omer, A, Colaric, Z, Chan, EKF, Minoche, AE, Smith, TPL, Gilbert, MTP, Bogdanovic, O, Zammit, RA, Thomas, T, Aiden, EL, and Ballard, JWO

Abstract

Dogs are uniquely associated with human dispersal and bring transformational insight into the domestication process. Dingoes represent an intriguing case within canine evolution being geographically isolated for thousands of years. Here, we present a high-quality de novo assembly of a pure dingo (CanFam_DDS). We identified large chromosomal differences relative to the current dog reference (CanFam3.1) and confirmed no expanded pancreatic amylase gene as found in breed dogs. Phylogenetic analyses using variant pairwise matrices show that the dingo is distinct from five breed dogs with 100% bootstrap support when using Greenland wolf as the outgroup. Functionally, we observe differences in methylation patterns between the dingo and German shepherd dog genomes and differences in serum biochemistry and microbiome makeup. Our results suggest that distinct demographic and environmental conditions have shaped the dingo genome. In contrast, artificial human selection has likely shaped the genomes of domestic breed dogs after divergence from the dingo.

Published
2022

4. Archival influenza virus genomes from Europe reveal genomic and phenotypic variability during the 1918 pandemic

Author

Fabian H. Leendertz, Jeffery K. Taubenberger, Ariane Duex, Livia V. Patrono, Sebastian Lequime, Gilbert Mtp, Tenkhoff L, Bram Vrancken, Sébastien Calvignac-Spencer, Sengül Boral, Jasmin Schlotterbeck, Matthias Budt, Michael Worobey, Prepoint B, Kevin Merkel, Hoffmann L, Jan F. Gogarten, Thomas Schnalke, Navena Widulin, Winter E, Thorsten Wolff, David M. Morens, Urban C, Marc A. Suchard, David Horst, Philippe Lemey, and Schuenemann

Subjects
Phylogenetic tree, Evolutionary biology, Transmission (medicine), Reassortment, Pandemic, Biology, Adaptation, Molecular clock, Genome, Virus
Abstract

The 1918 influenza pandemic was the deadliest respiratory pandemic of the 20th century and determined the genomic make-up of subsequent human influenza A viruses (IAV). Here, we analyze the first 1918 IAV genomes from Europe and from the first, milder wave of the pandemic. 1918 IAV genomic diversity is consistent with local transmission and frequent long-distance dispersal events and in vitro polymerase characterization suggests potential phenotypic variability. Comparison of first and second wave genomes shows variation at two sites in the nucleoprotein gene associated with resistance to host antiviral response, pointing at a possible adaptation of 1918 IAV to humans. Finally, phylogenetic estimates based on extended molecular clock modelling suggests a pure pandemic descent of seasonal H1N1 IAV as an alternative to the hypothesis of an intrasubtype reassortment origin.One Sentence SummaryMuch can be learned about past pandemics by uncovering their footprints in medical archives, which we here demonstrate for the 1918 flu pandemic.

Published
2021
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5. The potential of aquatic haematophagous, liquidosomatophagous and macrophagous leeches as a tool for iDNA characterisation

Author

Gilbert Mtp, Kristine Bohmann, Sebastian Kvist, Christina Lynggaard, and Alejandro Oceguera-Figueroa

Subjects
animal structures, Taxon, biology, Range (biology), biology.animal, Vertebrate, Leech, Terrestrial leech, Zoology, Taxonomic rank, Haemadipsidae, biology.organism_classification, Invertebrate
Abstract

Leeches play important roles in food webs due to their abundance, diversity and feeding habits. Studies using invertebrate-derived DNA (iDNA) extracted from leech gut contents to target vertebrate DNA have focused on the Indo-Pacific region and mainly leveraged the leech family Haemadipsidae, composed of haematophagous terrestrial leeches, while the aquatic haematophagous, liquidosomatophagous and macrophagous counterparts have largely been disregarded. While there is general knowledge regarding the taxonomic groups that leeches prefer to feed on, detailed taxonomic resolution is still missing and therefore, their potential use for monitoring animals is not known. In this study, 116 non-haemadipsid leeches belonging to 12 species and spanning the three feeding habits were collected in Mexico and Canada. We used DNA metabarcoding to investigate their diet and assess their potential use for vertebrate monitoring. We detected vertebrate taxa from five orders including fish, turtles and birds in the diet of the aquatic haematophagous leeches; eight invertebrate orders of annelids, arthropods and molluscs in the liquidosomatophagous leeches; and ten orders of invertebrates belonging to Arthropoda and Annelida, as well as one vertebrate and one parasitic nematode, in the macrophagous leeches. These results show the potential use of iDNA from the gut content of aquatic haematophagous leeches for retrieving vertebrate taxa, and from macrophagous and liquidosomatophagous counterparts for invertebrates. Our study provides information about the dietary range of the freshwater leeches and the non-haemadipsid terrestrial leech and proof-of-concept for the use of non-haemadipsid leeches for animal monitoring, expanding our knowledge of the use of iDNA from leech gut contents to North America.

Published
2021
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6. The pangenome of the fungal pathogen Neonectria neomacrospora

Author

Kimmo Sirén, Knud Nielsen, Gilbert Mtp, Thorfinn Sand Korneliussen, Ole K. Hansen, Bent O. Petersen, and Thomas Sicheritz-Pontén

Subjects
Genetics, Transposable element, education.field_of_study, Nuclear gene, Population, Neonectria, Biology, education, biology.organism_classification, Genome size, Gene, Genome, Reference genome
Abstract

The fungal plant pathogen Neonectria neomacrospora (C. Booth & Samuels) Mantiri & Samuels (Ascomycota, Hypocreales) is a bark parasite causing twig blight, canker, and in severe cases, dieback in fir (Abies spp.). Although often described as a mild pathogen, foresty and phytosanitary agencies have expressed their concern for potential economic impact. Two epidemics caused by this species are known: one from eastern Canada and one current within Northern Europe. We present key genome features of N. neomacrospora, to facilitate the research into the biology of this pathogen.We present the first genome assembly of N. neomacrospora as well as the first pangenome within this genus. The reference genome for N. neomacrospora is a long-read sequenced Danish isolate, while the pangenome is pieced together using additional 60 short-read sequenced strains covering the known geographical distribution of the species, including Europe, North America, and China.The gapless reference genome consist of twelve chromosomes sequenced telomere to telomere to a total length of 37.1 Mb. The mitochondrial genome was assembled and circularised with a length of 22 Kb.The gapless nuclear genome contains a total of 11,291 annotated genes, where 642 only have a hypothetical function, and a 4.3 % repeat content. Two minor chromosomes are enriched in transposable elements, AT content, and effector candidates. Chromosome 12 segregates within the population, indicating an accessory nature. The pangenome compile 15,101 genes, 34% more genes than present in the single isolate reference genome of N. neomacrospora. These genes organise into 13,069 homologous clusters, of which 8,316 clusters are present in all analysed strains, 985 are private to single strains.The British Columbian population branched out before the other populations and are characterized by comparatively larger genomes. The increased genome size can be explained by an expansion of repetitive elements.The comparative analysis finds a higher number of genes with a signal peptide within N. neomacrospora and species within the genus compared to the closely related genera. A species-specific pattern is observed in the carbohydrate-active enzyme repertoire, with a reduced number of polysaccharide lyases, compared to other species within the genus. The CAZymes battery responsible for plant cell wall degradation is similar to that observed in necrotrophic and hemibiotrophic plant pathogenic fungi.The genome size of N. neomacrospora is close to the median size for Ascomycota but is the smallest genome within the Neonectria genus. Comparative analysis revealed significant intraspecies genome size differences between populations explained by a difference in repeat content. Isolates with the smallest genomes formed a monophyletic group consisting of all strains from Europe and Quebec. Based on the field observations, we assume that N. neomacrospora is a hemibiotroph. Our analysis revealed a secretome consistent with a hemibiotrophic lifestyle.

Published
2021
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7. Genomic analyses of the extinct Sardinian dhole (Cynotherium sardous) reveal its evolutionary history

Author

Ettore Randi, Erika Rosengren, Arca M, Shyam Gopalakrishnan, Enrico Cappellini, Guojie C, C. Tuveri, Marco Galaverni, Marta Maria Ciucani, Mikkel-Holger S. Sinding, Oliver Smith, Guojie Zhang, Lorenzo Rook, Bartolini Lucentini S, Thomas Sicheritz-Pontén, Love Dalén, Gilbert Mtp, and Jensen Jk

Subjects
education.field_of_study, Taxon, Extinction, Phylogenetic tree, Extant taxon, Evolutionary biology, Population, Sardinian dhole, Biology, education, Endemism, biology.organism_classification, Gene flow
Abstract

SummaryThe Sardinian dhole (Cynotherium sardous)1 was an iconic and unique canid species of canid that was endemic of Sardinia and Corsica until it became extinct at the end of the Late Pleistocene2–5. Given its peculiar dental morphology, small body size and high level of endemism, several canids have been proposed as possible ancestors of the Sardinian dhole, including the Asian dhole and African hunting dog ancestor 3,6–9. Morphometric analyses3,6,8–12 have failed to clarify the evolutionary relationship with other canids.We sequenced the genome of a ca 21,100 year old Sardinian dhole in order to understand its genomic history and clarify its phylogenetic position. We found it represents a separate taxon from all other living canids from Eurasia, Africa and North America, and that the Sardinian and Asian dhole lineages diverged ca 885 ka. We additionally detected historical gene flow between the Sardinian and Asian dhole lineages, that ended approximately 500-300 ka, when the landbridge between Sardinia and mainland Italy was broken, severing their population connectivity. Our sample showed low genome-wide diversity compared to other extant canids - probably a result of the long-term isolation - that could have contributed to the subsequent extinction of the Sardinian dhole.

Published
2021
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8. Runs of homozygosity in killer whale genomes provide a global record of demographic histories.

Author

Foote, AD, Hooper, R, Alexander, A, Baird, RW, Baker, CS, Ballance, L, Barlow, J, Brownlow, A, Collins, T, Constantine, R, Dalla Rosa, L, Davison, NJ, Durban, JW, Esteban, R, Excoffier, L, Martin, SLF, Forney, KA, Gerrodette, T, Gilbert, MTP, Guinet, C, Hanson, MB, Li, S, Martin, MD, Robertson, KM, Samarra, FIP, de Stephanis, R, Tavares, SB, Tixier, P, Totterdell, JA, Wade, P, Wolf, JBW, Fan, G, Zhang, Y, Morin, PA, Foote, AD, Hooper, R, Alexander, A, Baird, RW, Baker, CS, Ballance, L, Barlow, J, Brownlow, A, Collins, T, Constantine, R, Dalla Rosa, L, Davison, NJ, Durban, JW, Esteban, R, Excoffier, L, Martin, SLF, Forney, KA, Gerrodette, T, Gilbert, MTP, Guinet, C, Hanson, MB, Li, S, Martin, MD, Robertson, KM, Samarra, FIP, de Stephanis, R, Tavares, SB, Tixier, P, Totterdell, JA, Wade, P, Wolf, JBW, Fan, G, Zhang, Y, and Morin, PA

Abstract

Runs of homozygosity (ROH) occur when offspring inherit haplotypes that are identical by descent from each parent. Length distributions of ROH are informative about population history; specifically, the probability of inbreeding mediated by mating system and/or population demography. Here, we investigated whether variation in killer whale (Orcinus orca) demographic history is reflected in genome-wide heterozygosity and ROH length distributions, using a global data set of 26 genomes representative of geographic and ecotypic variation in this species, and two F1 admixed individuals with Pacific-Atlantic parentage. We first reconstructed demographic history for each population as changes in effective population size through time using the pairwise sequential Markovian coalescent (PSMC) method. We found a subset of populations declined in effective population size during the Late Pleistocene, while others had more stable demography. Genomes inferred to have undergone ancestral declines in effective population size, were autozygous at hundreds of short ROH (<1 Mb), reflecting high background relatedness due to coalescence of haplotypes deep within the pedigree. In contrast, longer and therefore younger ROH (>1.5 Mb) were found in low latitude populations, and populations of known conservation concern. These include a Scottish killer whale, for which 37.8% of the autosomes were comprised of ROH >1.5 Mb in length. The fate of this population, in which only two adult males have been sighted in the past five years, and zero fecundity over the last two decades, may be inextricably linked to its demographic history and consequential inbreeding depression.

Published
2021

9. Dense sampling of bird diversity increases power of comparative genomics (vol 587, pg 252, 2020)

Author

Feng, S, Stiller, J, Deng, Y, Armstrong, J, Fang, Q, Reeve, AH, Xie, D, Chen, G, Guo, C, Faircloth, BC, Petersen, B, Wang, Z, Zhou, Q, Diekhans, M, Chen, W, Andreu-Sanchez, S, Margaryan, A, Howard, JT, Parent, C, Pacheco, G, Sinding, M-HS, Puetz, L, Cavill, E, Ribeiro, AM, Eckhart, L, Fjeldsa, J, Hosner, PA, Brumfield, RT, Christidis, L, Bertelsen, MF, Sicheritz-Ponten, T, Tietze, DT, Robertson, BC, Song, G, Borgia, G, Claramunt, S, Lovette, IJ, Cowen, SJ, Njoroge, P, Dumbacher, JP, Ryder, OA, Fuchs, J, Bunce, M, Burt, DW, Cracraft, J, Meng, G, Hackett, SJ, Ryan, PG, Jonsson, KA, Jamieson, IG, da Fonseca, RR, Braun, EL, Houde, P, Mirarab, S, Suh, A, Hansson, B, Ponnikas, S, Sigeman, H, Stervander, M, Frandsen, PB, van der Zwan, H, van der Sluis, R, Visser, C, Balakrishnan, CN, Clark, AG, Fitzpatrick, JW, Bowman, R, Chen, N, Cloutier, A, Sackton, TB, Edwards, SV, Foote, DJ, Shakya, SB, Sheldon, FH, Vignal, A, Soares, AER, Shapiro, B, Gonzalez-Solis, J, Ferrer-Obiol, J, Rozas, J, Riutort, M, Tigano, A, Friesen, V, Dalen, L, Urrutia, AO, Szekely, T, Liu, Y, Campana, MG, Corvelo, A, Fleischer, RC, Rutherford, KM, Gemmell, NJ, Dussex, N, Mouritsen, H, Thiele, N, Delmore, K, Liedvogel, M, Franke, A, Hoeppner, MP, Krone, O, Fudickar, AM, Mila, B, Ketterson, ED, Fidler, AE, Friis, G, Parody-Merino, AM, Battley, PF, Cox, MP, Lima, NCB, Prosdocimi, F, Parchman, TL, Schlinger, BA, Loiselle, BA, Blake, JG, Lim, HC, Day, LB, Fuxjager, MJ, Baldwin, MW, Braun, MJ, Wirthlin, M, Dikow, RB, Ryder, TB, Camenisch, G, Keller, LF, DaCosta, JM, Hauber, ME, Louder, MIM, Witt, CC, McGuire, JA, Mudge, J, Megna, LC, Carling, MD, Wang, B, Taylor, SA, Del-Rio, G, Aleixo, A, Vasconcelos, ATR, Mello, CV, Weir, JT, Haussler, D, Li, Q, Yang, H, Wang, J, Lei, F, Rahbek, C, Gilbert, MTP, Graves, GR, Jarvis, ED, Paten, B, Zhang, G, Feng, S, Stiller, J, Deng, Y, Armstrong, J, Fang, Q, Reeve, AH, Xie, D, Chen, G, Guo, C, Faircloth, BC, Petersen, B, Wang, Z, Zhou, Q, Diekhans, M, Chen, W, Andreu-Sanchez, S, Margaryan, A, Howard, JT, Parent, C, Pacheco, G, Sinding, M-HS, Puetz, L, Cavill, E, Ribeiro, AM, Eckhart, L, Fjeldsa, J, Hosner, PA, Brumfield, RT, Christidis, L, Bertelsen, MF, Sicheritz-Ponten, T, Tietze, DT, Robertson, BC, Song, G, Borgia, G, Claramunt, S, Lovette, IJ, Cowen, SJ, Njoroge, P, Dumbacher, JP, Ryder, OA, Fuchs, J, Bunce, M, Burt, DW, Cracraft, J, Meng, G, Hackett, SJ, Ryan, PG, Jonsson, KA, Jamieson, IG, da Fonseca, RR, Braun, EL, Houde, P, Mirarab, S, Suh, A, Hansson, B, Ponnikas, S, Sigeman, H, Stervander, M, Frandsen, PB, van der Zwan, H, van der Sluis, R, Visser, C, Balakrishnan, CN, Clark, AG, Fitzpatrick, JW, Bowman, R, Chen, N, Cloutier, A, Sackton, TB, Edwards, SV, Foote, DJ, Shakya, SB, Sheldon, FH, Vignal, A, Soares, AER, Shapiro, B, Gonzalez-Solis, J, Ferrer-Obiol, J, Rozas, J, Riutort, M, Tigano, A, Friesen, V, Dalen, L, Urrutia, AO, Szekely, T, Liu, Y, Campana, MG, Corvelo, A, Fleischer, RC, Rutherford, KM, Gemmell, NJ, Dussex, N, Mouritsen, H, Thiele, N, Delmore, K, Liedvogel, M, Franke, A, Hoeppner, MP, Krone, O, Fudickar, AM, Mila, B, Ketterson, ED, Fidler, AE, Friis, G, Parody-Merino, AM, Battley, PF, Cox, MP, Lima, NCB, Prosdocimi, F, Parchman, TL, Schlinger, BA, Loiselle, BA, Blake, JG, Lim, HC, Day, LB, Fuxjager, MJ, Baldwin, MW, Braun, MJ, Wirthlin, M, Dikow, RB, Ryder, TB, Camenisch, G, Keller, LF, DaCosta, JM, Hauber, ME, Louder, MIM, Witt, CC, McGuire, JA, Mudge, J, Megna, LC, Carling, MD, Wang, B, Taylor, SA, Del-Rio, G, Aleixo, A, Vasconcelos, ATR, Mello, CV, Weir, JT, Haussler, D, Li, Q, Yang, H, Wang, J, Lei, F, Rahbek, C, Gilbert, MTP, Graves, GR, Jarvis, ED, Paten, B, and Zhang, G

Abstract

A Correction to this paper has been published: https://doi.org/10.1038/s41586-021-03473-8.

Published
2021

10. Leech blood‐meal iDNA reveals differences in Bornean mammal diversity across habitats

Author

Drinkwater, R, Jucker, T, Potter, JHT, Swinfield, T, Coomes, DA, Slade, EM, Gilbert, MTP, Lewis, OT, Bernard, H, Struebig, MJ, Clare, EL, and Rossiter, SJ

Abstract

The application of metabarcoding to environmental and invertebrate‐derived DNA (eDNA and iDNA) is a new and increasingly applied method for monitoring biodiversity across a diverse range of habitats. This approach is particularly promising for sampling in the biodiverse humid tropics, where rapid land‐use change for agriculture means there is a growing need to understand the conservation value of the remaining mosaic and degraded landscapes. Here we use iDNA from blood‐feeding leeches (Haemadipsa picta) to assess differences in mammalian diversity across a gradient of forest degradation in Sabah, Malaysian Borneo. We screened 557 individual leeches for mammal DNA by targeting fragments of the 16S rRNA gene and detected 14 mammalian genera. We recorded lower mammal diversity in the most heavily degraded forest compared to higher quality twice logged forest. Although the accumulation curves of diversity estimates were comparable across these habitat types, diversity was higher in twice logged forest, with more taxa of conservation concern. In addition, our analysis revealed differences between the community recorded in the heavily logged forest and that of the twice logged forest. By revealing differences in mammal diversity across a human‐modified tropical landscape, our study demonstrates the value of iDNA as a non‐invasive biomonitoring approach in conservation assessments.

Published
2020

11. Investigating the grape varieties cultivated by the Romans in Southern Gaul through geometric morphometrics and palaeogenomics

Author

Bouby, Laurent, Ramos-Madrigal, Jazmín, Wiborg Runge, Anne, Lacombe, Thierry, Bonhomme, Vincent, Ivorra, Sarah, Samaniego Castruita, José, Bacilieri, Roberto, Gilbert, Mtp, Terral, Jean-Frédéric, Wales, Nathan, Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), ANR-16-CE27-0013,VINICULTURE,Vignes et vins en France du Néolithique au Moyen Age. Approche intégrée en archéosciences(2016), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), Bouby, Laurent, and Vignes et vins en France du Néolithique au Moyen Age. Approche intégrée en archéosciences - - VINICULTURE2016 - ANR-16-CE27-0013 - AAPG2016 - VALID

Subjects
[SDV] Life Sciences [q-bio], [SHS.ARCHEO] Humanities and Social Sciences/Archaeology and Prehistory, [SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, [SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2020

13. Dense sampling of bird diversity increases power of comparative genomics

Author

Feng, S, Stiller, J, Deng, Y, Armstrong, J, Fang, Q, Reeve, AH, Xie, D, Chen, G, Guo, C, Faircloth, BC, Petersen, B, Wang, Z, Zhou, Q, Diekhans, M, Chen, W, Andreu-Sanchez, S, Margaryan, A, Howard, JT, Parent, C, Pacheco, G, Sinding, M-HS, Puetz, L, Cavill, E, Ribeiro, AM, Eckhart, L, Fjeldsa, J, Hosner, PA, Brumfield, RT, Christidis, L, Bertelsen, MF, Sicheritz-Ponten, T, Tietze, DT, Robertson, BC, Song, G, Borgia, G, Claramunt, S, Lovette, IJ, Cowen, SJ, Njoroge, P, Dumbacher, JP, Ryder, OA, Fuchs, J, Bunce, M, Burt, DW, Cracraft, J, Meng, G, Hackett, SJ, Ryan, PG, Jonsson, KA, Jamieson, IG, da Fonseca, RR, Braun, EL, Houde, P, Mirarab, S, Suh, A, Hansson, B, Ponnikas, S, Sigeman, H, Stervander, M, Frandsen, PB, van der Zwan, H, van der Sluis, R, Visser, C, Balakrishnan, CN, Clark, AG, Fitzpatrick, JW, Bowman, R, Chen, N, Cloutier, A, Sackton, TB, Edwards, SV, Foote, DJ, Shakya, SB, Sheldon, FH, Vignal, A, Soares, AER, Shapiro, B, Gonzalez-Solis, J, Ferrer-Obiol, J, Rozas, J, Riutort, M, Tigano, A, Friesen, V, Dalen, L, Urrutia, AO, Szekely, T, Liu, Y, Campana, MG, Corvelo, A, Fleischer, RC, Rutherford, KM, Gemmell, NJ, Dussex, N, Mouritsen, H, Thiele, N, Delmore, K, Liedvogel, M, Franke, A, Hoeppner, MP, Krone, O, Fudickar, AM, Mila, B, Ketterson, ED, Fidler, AE, Friis, G, Parody-Merino, AM, Battley, PF, Cox, MP, Lima, NCB, Prosdocimi, F, Parchman, TL, Schlinger, BA, Loiselle, BA, Blake, JG, Lim, HC, Day, LB, Fuxjager, MJ, Baldwin, MW, Braun, MJ, Wirthlin, M, Dikow, RB, Ryder, TB, Camenisch, G, Keller, LF, DaCosta, JM, Hauber, ME, Louder, MIM, Witt, CC, McGuire, JA, Mudge, J, Megna, LC, Carling, MD, Wang, B, Taylor, SA, Del-Rio, G, Aleixo, A, Vasconcelos, ATR, Mello, CV, Weir, JT, Haussler, D, Li, Q, Yang, H, Wang, J, Lei, F, Rahbek, C, Gilbert, MTP, Graves, GR, Jarvis, ED, Paten, B, Zhang, G, Feng, S, Stiller, J, Deng, Y, Armstrong, J, Fang, Q, Reeve, AH, Xie, D, Chen, G, Guo, C, Faircloth, BC, Petersen, B, Wang, Z, Zhou, Q, Diekhans, M, Chen, W, Andreu-Sanchez, S, Margaryan, A, Howard, JT, Parent, C, Pacheco, G, Sinding, M-HS, Puetz, L, Cavill, E, Ribeiro, AM, Eckhart, L, Fjeldsa, J, Hosner, PA, Brumfield, RT, Christidis, L, Bertelsen, MF, Sicheritz-Ponten, T, Tietze, DT, Robertson, BC, Song, G, Borgia, G, Claramunt, S, Lovette, IJ, Cowen, SJ, Njoroge, P, Dumbacher, JP, Ryder, OA, Fuchs, J, Bunce, M, Burt, DW, Cracraft, J, Meng, G, Hackett, SJ, Ryan, PG, Jonsson, KA, Jamieson, IG, da Fonseca, RR, Braun, EL, Houde, P, Mirarab, S, Suh, A, Hansson, B, Ponnikas, S, Sigeman, H, Stervander, M, Frandsen, PB, van der Zwan, H, van der Sluis, R, Visser, C, Balakrishnan, CN, Clark, AG, Fitzpatrick, JW, Bowman, R, Chen, N, Cloutier, A, Sackton, TB, Edwards, SV, Foote, DJ, Shakya, SB, Sheldon, FH, Vignal, A, Soares, AER, Shapiro, B, Gonzalez-Solis, J, Ferrer-Obiol, J, Rozas, J, Riutort, M, Tigano, A, Friesen, V, Dalen, L, Urrutia, AO, Szekely, T, Liu, Y, Campana, MG, Corvelo, A, Fleischer, RC, Rutherford, KM, Gemmell, NJ, Dussex, N, Mouritsen, H, Thiele, N, Delmore, K, Liedvogel, M, Franke, A, Hoeppner, MP, Krone, O, Fudickar, AM, Mila, B, Ketterson, ED, Fidler, AE, Friis, G, Parody-Merino, AM, Battley, PF, Cox, MP, Lima, NCB, Prosdocimi, F, Parchman, TL, Schlinger, BA, Loiselle, BA, Blake, JG, Lim, HC, Day, LB, Fuxjager, MJ, Baldwin, MW, Braun, MJ, Wirthlin, M, Dikow, RB, Ryder, TB, Camenisch, G, Keller, LF, DaCosta, JM, Hauber, ME, Louder, MIM, Witt, CC, McGuire, JA, Mudge, J, Megna, LC, Carling, MD, Wang, B, Taylor, SA, Del-Rio, G, Aleixo, A, Vasconcelos, ATR, Mello, CV, Weir, JT, Haussler, D, Li, Q, Yang, H, Wang, J, Lei, F, Rahbek, C, Gilbert, MTP, Graves, GR, Jarvis, ED, Paten, B, and Zhang, G

Abstract

Whole-genome sequencing projects are increasingly populating the tree of life and characterizing biodiversity1-4. Sparse taxon sampling has previously been proposed to confound phylogenetic inference5, and captures only a fraction of the genomic diversity. Here we report a substantial step towards the dense representation of avian phylogenetic and molecular diversity, by analysing 363 genomes from 92.4% of bird families-including 267 newly sequenced genomes produced for phase II of the Bird 10,000 Genomes (B10K) Project. We use this comparative genome dataset in combination with a pipeline that leverages a reference-free whole-genome alignment to identify orthologous regions in greater numbers than has previously been possible and to recognize genomic novelties in particular bird lineages. The densely sampled alignment provides a single-base-pair map of selection, has more than doubled the fraction of bases that are confidently predicted to be under conservation and reveals extensive patterns of weak selection in predominantly non-coding DNA. Our results demonstrate that increasing the diversity of genomes used in comparative studies can reveal more shared and lineage-specific variation, and improve the investigation of genomic characteristics. We anticipate that this genomic resource will offer new perspectives on evolutionary processes in cross-species comparative analyses and assist in efforts to conserve species.

Published
2020

14. Plasmodium vivax Malaria Viewed through the Lens of an Eradicated European Strain

Author

Shapiro, B, van Dorp, L, Gelabert, P, Rieux, A, de Manuel, M, de-Dios, T, Gopalakrishnan, S, Caroe, C, Sandoval-Velasco, M, Fregel, R, Olalde, I, Escosa, R, Aranda, C, Huijben, S, Mueller, I, Marques-Bonet, T, Balloux, F, Gilbert, MTP, Lalueza-Fox, C, Shapiro, B, van Dorp, L, Gelabert, P, Rieux, A, de Manuel, M, de-Dios, T, Gopalakrishnan, S, Caroe, C, Sandoval-Velasco, M, Fregel, R, Olalde, I, Escosa, R, Aranda, C, Huijben, S, Mueller, I, Marques-Bonet, T, Balloux, F, Gilbert, MTP, and Lalueza-Fox, C

Abstract

The protozoan Plasmodium vivax is responsible for 42% of all cases of malaria outside Africa. The parasite is currently largely restricted to tropical and subtropical latitudes in Asia, Oceania, and the Americas. Though, it was historically present in most of Europe before being finally eradicated during the second half of the 20th century. The lack of genomic information on the extinct European lineage has prevented a clear understanding of historical population structuring and past migrations of P. vivax. We used medical microscope slides prepared in 1944 from malaria-affected patients from the Ebro Delta in Spain, one of the last footholds of malaria in Europe, to generate a genome of a European P. vivax strain. Population genetics and phylogenetic analyses placed this strain basal to a cluster including samples from the Americas. This genome allowed us to calibrate a genomic mutation rate for P. vivax, and to estimate the mean age of the last common ancestor between European and American strains to the 15th century. This date points to an introduction of the parasite during the European colonization of the Americas. In addition, we found that some known variants for resistance to antimalarial drugs, including Chloroquine and Sulfadoxine, were already present in this European strain, predating their use. Our results shed light on the evolution of an important human pathogen and illustrate the value of antique medical collections as a resource for retrieving genomic information on pathogens from the past.

Published
2020

15. Darwin’s Fancy Revised: An Updated Understanding of the Genomic Constitution of Pigeon Breeds

Author

Pacheco, G, van Grouw, Hein, Shapiro, MD, Gilbert, MTP, Vieira, FG, Pacheco, G, van Grouw, Hein, Shapiro, MD, Gilbert, MTP, and Vieira, FG

Abstract

Through its long history of artificial selection, the rock pigeon (Columba livia Gmelin, 1789) was forged into a large number of domestic breeds. The incredible amount of phenotypic diversity exhibited in these breeds has long held the fascination of scholars, particularly those interested in biological inheritance and evolution. However, exploiting them as a model system is challenging, as unlike with many other domestic species, few reliable records exist about the origins of, and relationships between, each of the breeds. Therefore, in order to broaden our understanding of the complex evolutionary relationships among pigeon breeds, we generated genome-wide data by performing the Genotyping-by-Sequencing (GBS) method on close to 200 domestic individuals representing over 60 breeds. We analyzed this GBS data alongside previously published Whole-Genome Sequencing (WGS) data, and this combined analysis allowed us to conduct the most extensive phylogenetic analysis of the group, including two feral pigeons and one outgroup. We improve previous phylogenies, find considerable population structure across the different breeds, and identify unreported interbreed admixture events. Despite the reduced number of loci relative to WGS, we demonstrate that GBS data provide sufficient analytical power to investigate intertwined evolutionary relationships, such as those that are characteristic of animal domestic breeds. Thus, we argue that future studies should consider sequencing methods akin to the GBS approach as an optimal cost-effective approach for addressing complex phylogenies.

Published
2020

16. Contrasting dates of rainforest fragmentation in Africa inferred from trees with different dispersal abilities

Author

Rosalía Piñeiro, Gilbert Mtp, Shyam Gopalakrishnan, Olivier J. Hardy, Carolina Tovar, and Filipe G. Vieira

Subjects
Genetic diversity, Geography, Ecology, Lineage (evolution), Seed dispersal, Fragmentation (computing), Climate change, Biological dispersal, Rainforest, Arid
Abstract

The rainforests of Tropical Africa have fluctuated over time. Although today the forest cover is continuous in Central Africa this may have not always been the case, as the scarce fossil record in this region suggests that more arid conditions might have significantly reduced the density of trees during the Ice Ages. Our aim was to investigate whether the dry ice-age periods left a genetic signature on tree species that can be used to date the past fragmentation of the rainforest. We sequenced reduced representation libraries of 182 samples representing five Legume tree species that are widespread in African rainforests and seven outgroups. Phylogenetic analyses identified an early divergent lineage for all species in West Africa (Upper Guinea), and two clades in Central Africa: Lower Guinea-North and Lower Guinea-South. As the structure separating the Northern and Southern clades cannot be explained by geographic barriers, we tested other hypotheses using demographic model testing. The best estimates recovered using ∂a∂I indicate that the two clades split between the Upper Pliocene and the Pleistocene, a date compatible with forest fragmentation driven by ice-age climatic oscillations. Furthermore, we found remarkably older split dates for the shade-tolerant tree species with non-assisted seed dispersal than for light-demanding long-distance wind-dispersed trees. We also show that the genetic diversity significantly declines with the distance from ice-age refugia in the two long-distance dispersed species only. Different recolonisation abilities after recurrent cycles of forest fragmentation seem to explain why we observe congruent genetic spatial structures across species with contrasted timescales.SIGNIFICANCE STATEMENTAlthough today the rainforest cover is continuous in Central Africa, the scarce fossil record suggests that arid conditions during the Ice Ages might have reduced the density of trees during the Ice Ages. However, the vast majority of the fossil pollen records preserved in Tropical Africa is too young to inform about this period. Investigating whether the past climate change left a genetic signature on trees can thus be useful to date past forest fragmentation. However, most genetic studies available to date lack resolution as they use limited numbers of loci. In this study we use modern DNA technology to study five Legume trees. Our results show significant differentiation of the populations of each species at a date compatible with forest fragmentation driven by ice-age climatic oscillations. Contrasted timescales were obtained for each species, which probably reflects their different recolonisation abilities after forest fragmentation.

Published
2019
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17. Fellow travellers: a concordance of colonization patterns between mice and men in the North Atlantic region

Author

Jones EP, Skirnisson K, McGovern TH, Gilbert MTP, Willerslev E, and Searle JB

Subjects
Evolution, QH359-425
Abstract

Abstract Background House mice (Mus musculus) are commensals of humans and therefore their phylogeography can reflect human colonization and settlement patterns. Previous studies have linked the distribution of house mouse mitochondrial (mt) DNA clades to areas formerly occupied by the Norwegian Vikings in Norway and the British Isles. Norwegian Viking activity also extended further westwards in the North Atlantic with the settlement of Iceland, short-lived colonies in Greenland and a fleeting colony in Newfoundland in 1000 AD. Here we investigate whether house mouse mtDNA sequences reflect human history in these other regions as well. Results House mice samples from Iceland, whether from archaeological Viking Age material or from modern-day specimens, had an identical mtDNA haplotype to the clade previously linked with Norwegian Vikings. From mtDNA and microsatellite data, the modern-day Icelandic mice also share the low genetic diversity shown by their human hosts on Iceland. Viking Age mice from Greenland had an mtDNA haplotype deriving from the Icelandic haplotype, but the modern-day Greenlandic mice belong to an entirely different mtDNA clade. We found no genetic association between modern Newfoundland mice and the Icelandic/ancient Greenlandic mice (no ancient Newfoundland mice were available). The modern day Icelandic and Newfoundland mice belong to the subspecies M. m. domesticus, the Greenlandic mice to M. m. musculus. Conclusions In the North Atlantic region, human settlement history over a thousand years is reflected remarkably by the mtDNA phylogeny of house mice. In Iceland, the mtDNA data show the arrival and continuity of the house mouse population to the present day, while in Greenland the data suggest the arrival, subsequent extinction and recolonization of house mice - in both places mirroring the history of the European human host populations. If house mice arrived in Newfoundland with the Viking settlers at all, then, like the humans, their presence was also fleeting and left no genetic trace. The continuity of mtDNA haplotype in Iceland over 1000 years illustrates that mtDNA can retain the signature of the ancestral house mouse founders. We also show that, in terms of genetic variability, house mouse populations may also track their host human populations.

Published
2012
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18. Genome-culture coevolution promotes rapid divergence of killer whale ecotypes.

Author

Foote, AD, Vijay, N, Ávila-Arcos, MC, Baird, RW, Durban, JW, Fumagalli, M, Gibbs, RA, Hanson, MB, Korneliussen, TS, Martin, MD, Robertson, KM, Sousa, VC, Vieira, FG, Vinař, T, Wade, P, Worley, KC, Excoffier, L, Morin, PA, Gilbert, MTP, Wolf, JBW, Foote, AD, Vijay, N, Ávila-Arcos, MC, Baird, RW, Durban, JW, Fumagalli, M, Gibbs, RA, Hanson, MB, Korneliussen, TS, Martin, MD, Robertson, KM, Sousa, VC, Vieira, FG, Vinař, T, Wade, P, Worley, KC, Excoffier, L, Morin, PA, Gilbert, MTP, and Wolf, JBW

Abstract

Analysing population genomic data from killer whale ecotypes, which we estimate have globally radiated within less than 250,000 years, we show that genetic structuring including the segregation of potentially functional alleles is associated with socially inherited ecological niche. Reconstruction of ancestral demographic history revealed bottlenecks during founder events, likely promoting ecological divergence and genetic drift resulting in a wide range of genome-wide differentiation between pairs of allopatric and sympatric ecotypes. Functional enrichment analyses provided evidence for regional genomic divergence associated with habitat, dietary preferences and post-zygotic reproductive isolation. Our findings are consistent with expansion of small founder groups into novel niches by an initial plastic behavioural response, perpetuated by social learning imposing an altered natural selection regime. The study constitutes an important step towards an understanding of the complex interaction between demographic history, culture, ecological adaptation and evolution at the genomic level.

Published
2016

20. Storytelling and story testing in domestication

Author

Gerbault, P, Allaby, RG, Boivin, N, Rudzinski, A, Grimaldi, IM, Pires, JC, Climer Vigueira, C, Dobney, K, Gremillion, KJ, Barton, L, Arroyo-Kalin, M, Purugganan, MD, De Casas, RR, Bollongino, R, Burger, J, Fuller, DQ, Bradley, DG, Balding, DJ, Richerson, PJ, Gilbert, MTP, Larson, G, Thomas, MG, Gerbault, P, Allaby, RG, Boivin, N, Rudzinski, A, Grimaldi, IM, Pires, JC, Climer Vigueira, C, Dobney, K, Gremillion, KJ, Barton, L, Arroyo-Kalin, M, Purugganan, MD, De Casas, RR, Bollongino, R, Burger, J, Fuller, DQ, Bradley, DG, Balding, DJ, Richerson, PJ, Gilbert, MTP, Larson, G, and Thomas, MG

Abstract

The domestication of plants and animals marks one of the most significant transitions in human, and indeed global, history. Traditionally, study of the domestication process was the exclusive domain of archaeologists and agricultural scientists; today it is an increasingly multidisciplinary enterprise that has come to involve the skills of evolutionary biologists and geneticists. Although the application of new information sources and methodologies has dramatically transformed our ability to study and understand domestication, it has also generated increasingly large and complex datasets, the interpretation of which is not straightforward. In particular, challenges of equifinality, evolutionary variance, and emergence of unexpected or counter-intuitive patterns all face researchers attempting to infer past processes directly from patterns in data. We argue that explicit modeling approaches, drawing upon emerging methodologies in statistics and population genetics, provide a powerful means of addressing these limitations. Modeling also offers an approach to analyzing datasets that avoids conclusions steered by implicit biases, and makes possible the formal integration of different data types. Here we outline some of the modeling approaches most relevant to current problems in domestication research, and demonstrate the ways in which simulation modeling is beginning to reshape our understanding of the domestication process.

Published
2014

21. Current perspectives and the future of domestication studies

Author

Larson, G, Piperno, DR, Allaby, RG, Purugganan, MD, Andersson, L, Arroyo-Kalin, M, Barton, L, Vigueira, CC, Denham, T, Dobney, K, Doust, AN, Gepts, P, Gilbert, MTP, Gremillion, KJ, Lucas, L, Lukens, L, Marshall, FB, Olsen, KM, Pires, JC, Richerson, PJ, De Casas, RR, Sanjur, OI, Thomas, MG, Fuller, DQ, Larson, G, Piperno, DR, Allaby, RG, Purugganan, MD, Andersson, L, Arroyo-Kalin, M, Barton, L, Vigueira, CC, Denham, T, Dobney, K, Doust, AN, Gepts, P, Gilbert, MTP, Gremillion, KJ, Lucas, L, Lukens, L, Marshall, FB, Olsen, KM, Pires, JC, Richerson, PJ, De Casas, RR, Sanjur, OI, Thomas, MG, and Fuller, DQ

Abstract

It is difficult to overstate the cultural and biological impacts that the domestication of plants and animals has had on our species. Fundamental questions regarding where, when, and how many times domestication took place have been of primary interest within a wide range of academic disciplines. Within the last two decades, the advent of new archaeological and genetic techniques has revolutionized our understanding of the pattern and process of domestication and agricultural origins that led to our modern way of life. In the spring of 2011, 25 scholars with a central interest in domestication representing the fields of genetics, archaeobotany, zooarchaeology, geoarchaeology, and archaeology met at the National Evolutionary Synthesis Center to discuss recent domestication research progress and identify challenges for the future. In this introduction to the resulting Special Feature, we present the state of the art in the field by discussing what is known about the spatial and temporal patterns of domestication, and controversies surrounding the speed, intentionality, and evolutionary aspects of the domestication process. We then highlight three key challenges for future research. We conclude by arguing that although recent progress has been impressive, the next decade will yield even more substantial insights not only into how domestication took place, but also when and where it did, and where and why it did not.

Published
2014

22. Mitogenomic phylogenetic analyses of the Delphinidae with an emphasis on the Globicephalinae.

Author

Vilstrup, JT, Ho, SY, Foote, AD, Morin, PA, Kreb, D, Krützen, M, Parra, GJ, Robertson, KM, de Stephanis, R, Verborgh, P, Willerslev, E, Orlando, L, Gilbert, MTP, Vilstrup, JT, Ho, SY, Foote, AD, Morin, PA, Kreb, D, Krützen, M, Parra, GJ, Robertson, KM, de Stephanis, R, Verborgh, P, Willerslev, E, Orlando, L, and Gilbert, MTP

Abstract

BACKGROUND: Previous DNA-based phylogenetic studies of the Delphinidae family suggest it has undergone rapid diversification, as characterised by unresolved and poorly supported taxonomic relationships (polytomies) for some of the species within this group. Using an increased amount of sequence data we test between alternative hypotheses of soft polytomies caused by rapid speciation, slow evolutionary rate and/or insufficient sequence data, and hard polytomies caused by simultaneous speciation within this family. Combining the mitogenome sequences of five new and 12 previously published species within the Delphinidae, we used Bayesian and maximum-likelihood methods to estimate the phylogeny from partitioned and unpartitioned mitogenome sequences. Further ad hoc tests were then conducted to estimate the support for alternative topologies. RESULTS: We found high support for all the relationships within our reconstructed phylogenies, and topologies were consistent between the Bayesian and maximum-likelihood trees inferred from partitioned and unpartitioned data. Resolved relationships included the placement of the killer whale (Orcinus orca) as sister taxon to the rest of the Globicephalinae subfamily, placement of the Risso's dolphin (Grampus griseus) within the Globicephalinae subfamily, removal of the white-beaked dolphin (Lagenorhynchus albirostris) from the Delphininae subfamily and the placement of the rough-toothed dolphin (Steno bredanensis) as sister taxon to the rest of the Delphininae subfamily rather than within the Globicephalinae subfamily. The additional testing of alternative topologies allowed us to reject all other putative relationships, with the exception that we were unable to reject the hypothesis that the relationship between L. albirostris and the Globicephalinae and Delphininae subfamilies was polytomic. CONCLUSION: Despite their rapid diversification, the increased sequence data yielded by mitogenomes enables the resolution of a strongly suppo

Published
2011

24. Response to Drancourt and Raoult

Author

Thomas, M., Gilbert, MTP, Cuccui, J, White, W, Lynnerup, Niels, Titball, RW, Cooper, A., Prentice, MB, Thomas, M., Gilbert, MTP, Cuccui, J, White, W, Lynnerup, Niels, Titball, RW, Cooper, A., and Prentice, MB

Abstract

Biologisk antropologi

Published
2004

26. Direct evidence of milk consumption from ancient human dental calculus

Author

Warinner, C, Hendy, J, Speller, C, Cappellini, E, Fischer, R, Trachsel, C, Arneborg, J, Lynnerup, N, Craig, OE, Swallow, DM, Fotakis, A, Christensen, RJ, Olsen, JV, Liebert, A, Montalva, N, Fiddyment, S, Charlton, S, Mackie, M, Canci, A, Bouwman, A, Rühli, F, Gilbert, MTP, and Collins, MJ

Subjects
2. Zero hunger, Milk, Sheep, Archaeology, Tandem Mass Spectrometry, Animals, Humans, Cattle, Dental Calculus, Dairy Products, Lactoglobulins, Biological Evolution
Abstract

Milk is a major food of global economic importance, and its consumption is regarded as a classic example of gene-culture evolution. Humans have exploited animal milk as a food resource for at least 8500 years, but the origins, spread, and scale of dairying remain poorly understood. Indirect lines of evidence, such as lipid isotopic ratios of pottery residues, faunal mortality profiles, and lactase persistence allele frequencies, provide a partial picture of this process; however, in order to understand how, where, and when humans consumed milk products, it is necessary to link evidence of consumption directly to individuals and their dairy livestock. Here we report the first direct evidence of milk consumption, the whey protein β-lactoglobulin (BLG), preserved in human dental calculus from the Bronze Age (ca. 3000 BCE) to the present day. Using protein tandem mass spectrometry, we demonstrate that BLG is a species-specific biomarker of dairy consumption, and we identify individuals consuming cattle, sheep, and goat milk products in the archaeological record. We then apply this method to human dental calculus from Greenland's medieval Norse colonies, and report a decline of this biomarker leading up to the abandonment of the Norse Greenland colonies in the 15(th) century CE.

27. Multidisciplinary medical identification of a French king's head (Henri IV)

Author

Charlier, Philippe, Huynh-Charlier, Isabelle, Poupon, Joël, Keyser, Christine, Lancelot, Eloïse, Favier, Dominique, Vignal, Jean-Noël, Sorel, Philippe, Chaillot, Pierre F., Boano, Rosa, Grilletto, Renato, Delacourte, Sylvaine, Duriez, Jean-Michel, Loublier, Yves, Campos, Paola, Willerslev, Eske, Gilbert, MTP, Eisenberg, Leslie, Ludes, Bertrand, and de la Grandmaison, Geoffroy

Published
2010
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28. The genomic origin of early maize in eastern North America.

Author

Ramos-Madrigal J, Fritz GJ, Schroeder B, Smith B, Sánchez-Barreiro F, Carøe C, Runge AKW, Boer S, McGrath K, Vieira FG, Liu S, da Fonseca RR, Guo C, Zhang G, Petersen B, Sicheritz-Pontén T, Gopalakrishnan S, Gilbert MTP, and Wales N

Abstract

Indigenous maize varieties from eastern North America have played an outsized role in breeding programs, yet their early origins are not fully understood. We generated paleogenomic data to reconstruct how maize first reached this region and how it was selected during the process. Genomic ancestry analyses reveal recurrent movements northward from different parts of Mexico, likely culminating in at least two dispersals from the US Southwest across the Great Plains to the Ozarks and beyond. We find that 1,000-year-old Ozark specimens carry a highly differentiated wx1 gene, which is involved in the synthesis of amylose, highlighting repeated selective pressures on the starch metabolic pathway throughout maize's domestication. This population shows a close affinity with the lineage that ultimately became the Northern Flints, a major contributor to modern commercial maize., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published
2024
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29. The genomic natural history of the aurochs.

Author

Rossi C, Sinding MS, Mullin VE, Scheu A, Erven JAM, Verdugo MP, Daly KG, Ciucani MM, Mattiangeli V, Teasdale MD, Diquelou D, Manin A, Bangsgaard P, Collins M, Lord TC, Zeibert V, Zorzin R, Vinter M, Timmons Z, Kitchener AC, Street M, Haruda AF, Tabbada K, Larson G, Frantz LAF, Gehlen B, Alhaique F, Tagliacozzo A, Fornasiero M, Pandolfi L, Karastoyanova N, Sørensen L, Kiryushin K, Ekström J, Mostadius M, Grandal-d'Anglade A, Vidal-Gorosquieta A, Benecke N, Kropp C, Grushin SP, Gilbert MTP, Merts I, Merts V, Outram AK, Rosengren E, Kosintsev P, Sablin M, Tishkin AA, Makarewicz CA, Burger J, and Bradley DG

Subjects
Animals, Female, Male, Asia, Domestication, Europe, Genetics, Population history, History, Ancient, Ice Cover, Natural History history, Phylogeny, Extinction, Biological, Cattle classification, Cattle genetics, Genome genetics, Genomics
Abstract

Now extinct, the aurochs (Bos primigenius) was a keystone species in prehistoric Eurasian and North African ecosystems, and the progenitor of cattle (Bos taurus), domesticates that have provided people with food and labour for millennia 1 . Here we analysed 38 ancient genomes and found 4 distinct population ancestries in the aurochs-European, Southwest Asian, North Asian and South Asian-each of which has dynamic trajectories that have responded to changes in climate and human influence. Similarly to Homo heidelbergensis, aurochsen first entered Europe around 650 thousand years ago 2 , but early populations left only trace ancestry, with both North Asian and European B. primigenius genomes coalescing during the most recent glaciation. North Asian and European populations then appear separated until mixing after the climate amelioration of the early Holocene. European aurochsen endured the more severe bottleneck during the Last Glacial Maximum, retreating to southern refugia before recolonizing from Iberia. Domestication involved the capture of a small number of individuals from the Southwest Asian aurochs population, followed by early and pervasive male-mediated admixture involving each ancestral strain of aurochs after domestic stocks dispersed beyond their cradle of origin., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2024
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30. A Genomic Exploration of the Possible De-Extirpation of the Zanzibar Leopard.

Author

Sun X, Cavill EL, Margaryan A, Lin J, Thingaard S, Said TA, Gopalakrishnan S, and Gilbert MTP

Abstract

The recently extirpated Zanzibar leopard was the only known African leopard (Panthera pardus spp.) population restricted exclusively to a major island habitat. Although its demise was driven through habitat change and conflict with humans, given its role as a keystone species for the Zanzibar Archipelago, its successful potential reintroduction might offer a means for helping preserve the natural biodiversity of its former habitat. Whether this is feasible, however, would be contingent on both whether closely related source populations can be identified on mainland Africa, and whether the Zanzibar form exhibited any special adaptations that might need to be considered when choosing such a source. In light of these questions, we genomically profiled two of the six known historic specimens, to explore whether they represent a realistic candidate for de-extirpation through reintroduction. Our analyses indicate that despite its geographical separation, the Zanzibar leopard shared a close genetic relationship with mainland East African individuals. Furthermore, although its uniqueness as an island population was emphasised by genomic signatures of high inbreeding and increased mutation load, the latter similar to the level of the critically endangered Amur leopard (P. p. orientalis), we find no evidence of functionally significant genetic diversity unique to Zanzibar. We therefore conclude that should attempts to restore leopards to Zanzibar be considered, then mainland East African leopards would provide a suitable gene pool., (© 2024 The Author(s). Molecular Ecology published by John Wiley & Sons Ltd.)

Published
2024
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31. Corroborating written history with ancient DNA: The case of the Well-man described in an Old Norse saga .

Author

Ellegaard MR, Ebenesersdóttir SS, Moore KHS, Petersén A, Vågene ÅJ, Bieker VC, Denham SD, Cavalleri GL, Gilbert E, Werge T, Hansen TF, Kockum I, Alfredsson L, Olsson T, Hovig E, Gilbert MTP, Stefánsson K, Stenøien HK, Helgason A, and Martin MD

Abstract

The potential of ancient DNA analyses to provide independent sources of information about events in the historical record remains to be demonstrated. Here we apply palaeogenomic analysis to human remains excavated from a medieval well at the ruins of Sverresborg Castle in central Norway. In Sverris Saga , the Old Norse saga of King Sverre Sigurdsson, one passage details a 1197-CE raid on the castle and mentions a dead man thrown into the well. Radiocarbon dating supports that these are that individual's remains. We sequenced the Well-man's nuclear genome to 3.4× and compared it to Scandinavian populations, revealing he was closely related to inhabitants of southern Norway. This was surprising because King Sverre's defeated army was assumed to be recruited from parts of central Norway, whereas the raiders were from the south. The findings also indicate that the unique genetic drift seen in present-day southern Norwegians already existed 800 years ago., Competing Interests: The authors declare no competing interests., (© 2024 The Author(s).)

Published
2024
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32. The overlooked biodiversity loss.

Author

Limborg MT, Winther-Have CS, Morueta-Holme N, Gilbert MTP, and Rasmussen JA

Subjects
Animals, Biological Coevolution, Conservation of Natural Resources, Ecosystem, Host Microbial Interactions, Microbiota, Biodiversity, Extinction, Biological
Abstract

As most life-forms exist as holobionts, reduction of host-level biodiversity drives parallel habitat losses to their host-adapted microorganisms. The holobiont concept helps us to understand how species are habitats for - often ignored - coevolved microorganisms also worthy of conservation. Indeed, loss of host-associated microbial biodiversity may accelerate the extinction risks of their host., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
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33. A chromosome phased diploid genome assembly of African hunting dog (Lycaon pictus).

Author

Kliver S, Kovacic I, Mak S, Sinding MS, Stagegaard J, Petersen B, Nesme J, and Gilbert MTP

Abstract

The African hunting dog (Lycaon pictus, 2n=78) once ranged over most sub-Saharan ecosystems except its deserts and rainforests. However as a result of (still ongoing) population declines, today they remain only as small fragmented populations. Furthermore, the future of the species remains unclear, due to both anthropogenic pressure as well as interactions with domestic dogs, thus their preservation is a conservation priority. On the tree of life, the hunting dog is basal to Canis and Cuon and forms a crown group with them, making it a useful species for comparative genomic studies. Here, we present a diploid chromosome level assembly of an African hunting dog. Assembled according to VGP guidelines from a combination of PacBio HiFi reads and HiC data, it is phased at the level of individual chromosomes. The maternal (pseudo)haplotype (mat) of our assembly has a length of 2.38 Gbp, and 99.36 % of the sequence is encompassed by 39 chromosomal scaffolds. The rest is included in only 36 unplaced short scaffolds. At the contig level, mat consists of only 166 contigs with an N50 of 39 Mbp. BUSCO analysis showed 95.4 % completeness based on Сarnivora conservative genes (carnivora&#95;odb10). When compared to other available genomes from subtribe Canina, the quality of the assembly is excellent, typically between the 1st and 3rd depending on the parameter used, and a significant improvement on previously published genomes for the species. We hope this assembly will play an important role in future conservation efforts and comparative studies of canid genomes., (© The Author(s) 2024. Published by Oxford University Press on behalf of The American Genetic Association. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published
2024
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34. Field and laboratory guidelines for reliable bioinformatic and statistical analysis of bacterial shotgun metagenomic data.

Author

Aizpurua O, Dunn RR, Hansen LH, Gilbert MTP, and Alberdi A

Subjects
Guidelines as Topic, Microbiota genetics, Humans, Data Interpretation, Statistical, Reproducibility of Results, Metagenomics methods, Computational Biology methods, Bacteria genetics, Bacteria classification
Abstract

Shotgun metagenomics is an increasingly cost-effective approach for profiling environmental and host-associated microbial communities. However, due to the complexity of both microbiomes and the molecular techniques required to analyze them, the reliability and representativeness of the results are contingent upon the field, laboratory, and bioinformatic procedures employed. Here, we consider 15 field and laboratory issues that critically impact downstream bioinformatic and statistical data processing, as well as result interpretation, in bacterial shotgun metagenomic studies. The issues we consider encompass intrinsic properties of samples, study design, and laboratory-processing strategies. We identify the links of field and laboratory steps with downstream analytical procedures, explain the means for detecting potential pitfalls, and propose mitigation measures to overcome or minimize their impact in metagenomic studies. We anticipate that our guidelines will assist data scientists in appropriately processing and interpreting their data, while aiding field and laboratory researchers to implement strategies for improving the quality of the generated results.

Published
2024
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35. The genome sequence of the Mauritius parakeet, Alexandrinus eques (formerly Psittacula eques ) (A.Newton & E. Newton, 1876).

Author

Morales HE, Groombridge JJ, Tollington S, Henshaw S, Tatayah V, Ruhomaun K, van Oosterhout C, and Gilbert MTP

Abstract

We present a genome assembly from an individual male Alexandrinus eques , formerly Psittacula eques (the Mauritius Parakeet; Chordata; Aves; Psittaciformes; Psittacidae). The genome sequence is 1203.8 megabases in span. Most of the assembly is scaffolded into 35 chromosomal pseudomolecules, including the Z sex chromosome. The mitochondrial genome has also been assembled and is 18.86 kilobases in length., Competing Interests: No competing interests were disclosed., (Copyright: © 2024 Morales HE et al.)

Published
2024
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36. A practical introduction to holo-omics.

Author

Odriozola I, Rasmussen JA, Gilbert MTP, Limborg MT, and Alberdi A

Subjects
Humans, Metabolomics, Genomics, Proteomics methods, Computational Biology methods, Animals, Host Microbial Interactions genetics, Microbiota
Abstract

Holo-omics refers to the joint study of non-targeted molecular data layers from host-microbiota systems or holobionts, which is increasingly employed to disentangle the complex interactions between the elements that compose them. We navigate through the generation, analysis, and integration of omics data, focusing on the commonalities and main differences to generate and analyze the various types of omics, with a special focus on optimizing data generation and integration. We advocate for careful generation and distillation of data, followed by independent exploration and analyses of the single omic layers to obtain a better understanding of the study system, before the integration of multiple omic layers in a final model is attempted. We highlight critical decision points to achieve this aim and flag the main challenges to address complex biological questions regarding the integrative study of host-microbiota relationships., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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37. Temporal dynamics of woolly mammoth genome erosion prior to extinction.

Author

Dehasque M, Morales HE, Díez-Del-Molino D, Pečnerová P, Chacón-Duque JC, Kanellidou F, Muller H, Plotnikov V, Protopopov A, Tikhonov A, Nikolskiy P, Danilov GK, Giannì M, van der Sluis L, Higham T, Heintzman PD, Oskolkov N, Gilbert MTP, Götherström A, van der Valk T, Vartanyan S, and Dalén L

Subjects
Animals, Siberia, Phylogeny, Evolution, Molecular, Time Factors, Mammoths genetics, Extinction, Biological, Genome genetics, Mutation
Abstract

A number of species have recently recovered from near-extinction. Although these species have avoided the immediate extinction threat, their long-term viability remains precarious due to the potential genetic consequences of population declines, which are poorly understood on a timescale beyond a few generations. Woolly mammoths (Mammuthus primigenius) became isolated on Wrangel Island around 10,000 years ago and persisted for over 200 generations before becoming extinct around 4,000 years ago. To study the evolutionary processes leading up to the mammoths' extinction, we analyzed 21 Siberian woolly mammoth genomes. Our results show that the population recovered quickly from a severe bottleneck and remained demographically stable during the ensuing six millennia. We find that mildly deleterious mutations gradually accumulated, whereas highly deleterious mutations were purged, suggesting ongoing inbreeding depression that lasted for hundreds of generations. The time-lag between demographic and genetic recovery has wide-ranging implications for conservation management of recently bottlenecked populations., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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38. Three-dimensional genome architecture persists in a 52,000-year-old woolly mammoth skin sample.

Author

Sandoval-Velasco M, Dudchenko O, Rodríguez JA, Pérez Estrada C, Dehasque M, Fontsere C, Mak SST, Khan R, Contessoto VG, Oliveira Junior AB, Kalluchi A, Zubillaga Herrera BJ, Jeong J, Roy RP, Christopher I, Weisz D, Omer AD, Batra SS, Shamim MS, Durand NC, O'Connell B, Roca AL, Plikus MV, Kusliy MA, Romanenko SA, Lemskaya NA, Serdyukova NA, Modina SA, Perelman PL, Kizilova EA, Baiborodin SI, Rubtsov NB, Machol G, Rath K, Mahajan R, Kaur P, Gnirke A, Garcia-Treviño I, Coke R, Flanagan JP, Pletch K, Ruiz-Herrera A, Plotnikov V, Pavlov IS, Pavlova NI, Protopopov AV, Di Pierro M, Graphodatsky AS, Lander ES, Rowley MJ, Wolynes PG, Onuchic JN, Dalén L, Marti-Renom MA, Gilbert MTP, and Aiden EL

Subjects
Animals, Female, Elephants genetics, Chromatin genetics, Fossils, DNA, Ancient analysis, Mice, Humans, X Chromosome genetics, Mammoths genetics, Genome genetics, Skin
Abstract

Analyses of ancient DNA typically involve sequencing the surviving short oligonucleotides and aligning to genome assemblies from related, modern species. Here, we report that skin from a female woolly mammoth (†Mammuthus primigenius) that died 52,000 years ago retained its ancient genome architecture. We use PaleoHi-C to map chromatin contacts and assemble its genome, yielding 28 chromosome-length scaffolds. Chromosome territories, compartments, loops, Barr bodies, and inactive X chromosome (Xi) superdomains persist. The active and inactive genome compartments in mammoth skin more closely resemble Asian elephant skin than other elephant tissues. Our analyses uncover new biology. Differences in compartmentalization reveal genes whose transcription was potentially altered in mammoths vs. elephants. Mammoth Xi has a tetradic architecture, not bipartite like human and mouse. We hypothesize that, shortly after this mammoth's death, the sample spontaneously freeze-dried in the Siberian cold, leading to a glass transition that preserved subfossils of ancient chromosomes at nanometer scale., Competing Interests: Declaration of interests E.L.A., M.T.P.G., and L.D. are on the scientific advisory board of Colossal Biosciences and hold stock options. From 2021 to 2023, M.A.M.-R. received consulting honoraria from Acuity Spatial Genomics. E.L.A. and O.D. are inventors on US provisional patent applications 16/308,386 (E.L.A. and O.D., filed 12/7/2018), 16/247,502 (E.L.A. and O.D., 1/14/2019), and PCT/US2020/064704 (E.L.A., 12/11/2020) by the Baylor College of Medicine and the Broad Institute, relating to the assembly methods in this manuscript., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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39. Framework for valorizing waste- and by-products through insects and their microbiomes for food and feed.

Author

Muurmann AT, Banovic M, Gilbert MTP, Sogari G, Limborg MT, Sicheritz-Pontén T, and Bahrndorff S

Subjects
Animals, Animal Feed microbiology, Humans, Food Technology, Waste Products, Symbiosis, Probiotics, Prebiotics, Microbiota, Insecta microbiology
Abstract

One third of the food produced for human consumption is currently lost or wasted. Insects have a high potential for converting organic waste- and by-products into food and feed for a growing human population due to symbiosis with microorganisms. These symbioses provide an untapped reservoir of functional microbiomes that can be used to improve industrial insect production but are poorly studied in most insect species. Here we review the most current understanding and challenges of valorizing organic waste- and by-products through insects and their microbiomes for food and feed, and emerging novel food technologies that can be used to investigate and manipulate host(insects)-microbiome interactions. We further construct a holistic framework, by integration of novel food technologies including holo-omics, genome editing, breeding, phage therapy, and administration of prebiotics and probiotics to investigate and manipulate host(insects)-microbiome interactions, and solutions for achieving stakeholder acceptance of novel food technologies for a sustainable food production., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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40. When birds of a feather flock together: Severe genomic erosion and the implications for genetic rescue in an endangered island passerine.

Author

Cavill EL, Morales HE, Sun X, Westbury MV, van Oosterhout C, Accouche W, Zora A, Schulze MJ, Shah N, Adam PA, Brooke ML, Sweet P, Gopalakrishnan S, and Gilbert MTP

Abstract

The Seychelles magpie-robin's (SMR) five island populations exhibit some of the lowest recorded levels of genetic diversity among endangered birds, and high levels of inbreeding. These populations collapsed during the 20th century, and the species was listed as Critically Endangered in the IUCN Red List in 1994. An assisted translocation-for-recovery program initiated in the 1990s increased the number of mature individuals, resulting in its downlisting to Endangered in 2005. Here, we explore the temporal genomic erosion of the SMR based on a dataset of 201 re-sequenced whole genomes that span the past ~150 years. Our sample set includes individuals that predate the bottleneck by up to 100 years, as well as individuals from contemporary populations established during the species recovery program. Despite the SMR's recent demographic recovery, our data reveal a marked increase in both the genetic load and realized load in the extant populations when compared to the historical samples. Conservation management may have reduced the intensity of selection by increasing juvenile survival and relaxing intraspecific competition between individuals, resulting in the accumulation of loss-of-function mutations (i.e. severely deleterious variants) in the rapidly recovering population. In addition, we found a 3-fold decrease in genetic diversity between temporal samples. While the low genetic diversity in modern populations may limit the species' adaptability to future environmental changes, future conservation efforts (including IUCN assessments) may also need to assess the threats posed by their high genetic load. Our computer simulations highlight the value of translocations for genetic rescue and show how this could halt genomic erosion in threatened species such as the SMR., Competing Interests: The authors have no conflicts of interest to declare., (© 2024 The Author(s). Evolutionary Applications published by John Wiley & Sons Ltd.)

Published
2024
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41. The genome sequence of the Mauritius kestrel, Falco punctatus (Temminck, 1821).

Author

Morales HE, Norris K, Henshaw S, Tatayah V, Ruhomaun K, van Oosterhout C, Groombridge JJ, and Gilbert MTP

Abstract

We present a genome assembly from an individual male Falco punctatus (the Mauritius kestrel; Chordata; Aves; Falconiformes; Falconidae). The genome sequence is 1,279.3 megabases in span. Most of the assembly is scaffolded into 23 chromosomal pseudomolecules, including the Z sex chromosome. The mitochondrial genome has also been assembled and is 17.34 kilobases in length., Competing Interests: No competing interests were disclosed., (Copyright: © 2024 Morales HE et al.)

Published
2024
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43. Complexity of avian evolution revealed by family-level genomes.

Author

Stiller J, Feng S, Chowdhury AA, Rivas-González I, Duchêne DA, Fang Q, Deng Y, Kozlov A, Stamatakis A, Claramunt S, Nguyen JMT, Ho SYW, Faircloth BC, Haag J, Houde P, Cracraft J, Balaban M, Mai U, Chen G, Gao R, Zhou C, Xie Y, Huang Z, Cao Z, Yan Z, Ogilvie HA, Nakhleh L, Lindow B, Morel B, Fjeldså J, Hosner PA, da Fonseca RR, Petersen B, Tobias JA, Székely T, Kennedy JD, Reeve AH, Liker A, Stervander M, Antunes A, Tietze DT, Bertelsen MF, Lei F, Rahbek C, Graves GR, Schierup MH, Warnow T, Braun EL, Gilbert MTP, Jarvis ED, Mirarab S, and Zhang G

Subjects
Animals, Brain anatomy & histology, Extinction, Biological, Genomics, Population Density, Male, Female, Birds genetics, Birds classification, Birds anatomy & histology, Evolution, Molecular, Genome genetics, Phylogeny
Abstract

Despite tremendous efforts in the past decades, relationships among main avian lineages remain heavily debated without a clear resolution. Discrepancies have been attributed to diversity of species sampled, phylogenetic method and the choice of genomic regions 1-3 . Here we address these issues by analysing the genomes of 363 bird species 4 (218 taxonomic families, 92% of total). Using intergenic regions and coalescent methods, we present a well-supported tree but also a marked degree of discordance. The tree confirms that Neoaves experienced rapid radiation at or near the Cretaceous-Palaeogene boundary. Sufficient loci rather than extensive taxon sampling were more effective in resolving difficult nodes. Remaining recalcitrant nodes involve species that are a challenge to model due to either extreme DNA composition, variable substitution rates, incomplete lineage sorting or complex evolutionary events such as ancient hybridization. Assessment of the effects of different genomic partitions showed high heterogeneity across the genome. We discovered sharp increases in effective population size, substitution rates and relative brain size following the Cretaceous-Palaeogene extinction event, supporting the hypothesis that emerging ecological opportunities catalysed the diversification of modern birds. The resulting phylogenetic estimate offers fresh insights into the rapid radiation of modern birds and provides a taxon-rich backbone tree for future comparative studies., (© 2024. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published
2024
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44. Late Pleistocene stickleback environmental genomes reveal the chronology of freshwater adaptation.

Author

Laine J, Mak SST, Martins NFG, Chen X, Gilbert MTP, Jones FC, Pedersen MW, Romundset A, and Foote AD

Subjects
Animals, Adaptation, Physiological genetics, Retrospective Studies, Lakes, Ecosystem, Smegmamorpha genetics
Abstract

Directly observing the chronology and tempo of adaptation in response to ecological change is rarely possible in natural ecosystems. Sedimentary ancient DNA (sedaDNA) has been shown to be a tractable source of genome-scale data of long-dead organisms 1 , 2 , 3 and to thereby potentially provide an understanding of the evolutionary histories of past populations. 4 , 5 To date, time series of ecosystem biodiversity have been reconstructed from sedaDNA, typically using DNA metabarcoding or shotgun sequence data generated from less than 1 g of sediment. 6 , 7 Here, we maximize sequence coverage by extracting DNA from ∼50× more sediment per sample than the majority of previous studies 1 , 2 , 3 to achieve genotype resolution. From a time series of Late Pleistocene sediments spanning from a marine to freshwater ecosystem, we compare adaptive genotypes reconstructed from the environmental genomes of three-spined stickleback at key time points of this transition. We find a staggered temporal dynamic in which freshwater alleles at known loci of large effect in marine-freshwater divergence of three-spined stickleback (e.g., EDA) 8 were already established during the brackish phase of the formation of the isolation basin. However, marine alleles were still detected across the majority of marine-freshwater divergence-associated loci, even after the complete isolation of the lake from marine ingression. Our retrospective approach to studying adaptation from environmental genomes of three-spined sticklebacks at the end of the last glacial period complements contemporary experimental approaches 9 , 10 , 11 and highlights the untapped potential for retrospective "evolve and resequence" natural experiments using sedaDNA., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
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45. Host-gut microbiota interactions shape parasite infections in farmed Atlantic salmon.

Author

Brealey JC, Kodama M, Rasmussen JA, Hansen SB, Santos-Bay L, Lecaudey LA, Hansen M, Fjære E, Myrmel LS, Madsen L, Bernhard A, Sveier H, Kristiansen K, Gilbert MTP, Martin MD, and Limborg MT

Subjects
Humans, Animals, Aquaculture, Dysbiosis veterinary, Gastrointestinal Microbiome genetics, Salmo salar, Parasitic Diseases, Cestode Infections
Abstract

Animals and their associated microbiota share long evolutionary histories. However, it is not always clear how host genotype and microbiota interact to affect phenotype. We applied a hologenomic approach to explore how host-microbiota interactions shape lifetime growth and parasite infection in farmed Atlantic salmon ( Salmo salar ). Multi-omics data sets were generated from the guts of 460 salmon, 82% of which were naturally infected with an intestinal cestode. A single Mycoplasma bacterial strain, MAG01, dominated the gut metagenome of large, non-parasitized fish, consistent with previous studies showing high levels of Mycoplasma in the gut microbiota of healthy salmon. While small and/or parasitized salmon also had high abundance of MAG01, we observed increased alpha diversity in these individuals, driven by increased frequency of low-abundance Vibrionaceae and other Mycoplasma species that carried known virulence genes. Colonization by one of these cestode-associated Mycoplasma strains was associated with host individual genomic variation in long non-coding RNAs. Integrating the multi-omic data sets revealed coordinated changes in the salmon gut mRNA transcriptome and metabolome that correlated with shifts in the microbiota of smaller, parasitized fish. Our results suggest that the gut microbiota of small and/or parasitized fish is in a state of dysbiosis that partly depends on the host genotype, highlighting the value of using a hologenomic approach to incorporate the microbiota into the study of host-parasite dynamics.IMPORTANCEStudying host-microbiota interactions through the perspective of the hologenome is gaining interest across all life sciences. Intestinal parasite infections are a huge burden on human and animal health; however, there are few studies investigating the role of the hologenome during parasite infections. We address this gap in the largest multi-omics fish microbiota study to date using natural cestode infection of farmed Atlantic salmon. We find a clear association between cestode infection, salmon lifetime growth, and perturbation of the salmon gut microbiota. Furthermore, we provide the first evidence that the genetic background of the host may partly determine how the gut microbiota changes during parasite-associated dysbiosis. Our study therefore highlights the value of a hologenomic approach for gaining a more in-depth understanding of parasitism., Competing Interests: H.S. is employed at Lerøy Seafood Group, who produces, markets, and sells farmed Atlantic salmon, including the fish used in the current investigation. Furthermore, Lerøy Seafood Group provided parts of the funding for this study. All other authors declare they have no competing interests.

Published
2024
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46. Exploring the microbial diversity of novel misos with metagenomics.

Author

Kothe CI, Rasmussen JA, Mak SST, Gilbert MTP, and Evans J

Subjects
Glycine max, Metagenomics, Flavoring Agents analysis, Fermentation, Fabaceae, Soy Foods, Fermented Foods
Abstract

Interest in fermented foods, especially plant-based ones, has increased considerably in the last decade. Miso-a Japanese paste traditionally fermented with soybeans, salt, and kōji (Aspergillus oryzae grown on grains or beans)-has gained attention among chefs for its rich flavour and versatility. Some chefs have even been experimenting with making novel misos with untraditional substrates to create new flavours. Such novel fermented foods also offer new scientific opportunities. To explore the microbial diversity of these new traditional foods, we sampled six misos made by the team at a leading restaurant called Noma in Copenhagen (Denmark), using yellow peas (including a nixtamalised treatment), lupin seeds, Swedish Vreta peas, grey peas, and Gotland lentils as substrates. All misos were made with the same recipe and fermented for 3 months at 28 °C. Samples were collected at the end of fermentation for subsequent shotgun metagenomic sequencing and a genome-resolved metagenomic analysis. The taxonomic profile of the samples revealed the presence of kōji mould (A. oryzae) and Bacillus amyloliquefaciens in all misos. Various species of the genera Latilactobacillus, Lactiplantibacillus, Pediococcus and Staphylococcus were also detected. The Metagenome-Assembled Genomes (MAGs) revealed genomic sequences belonging to 12 different species and functional analyses of these MAGs were performed. Notably, we detected the presence of Exiguobacterium-the first reported instance of the genus in miso-and Average Nucleotide Identity (ANI) analyses suggest a potentially new species. We hope these results will improve the scientific literature on misos and contribute to developing novel fermented plant-based foods., Competing Interests: Declaration of competing interest The authors Caroline Isabel Kothe, Jacob Agerbo Rasmussen, Sarah S. T. Mak, M. Thomas P. Gilbert and Joshua Evans have no affiliations with or involvement in any organization or entity with any financial interest (such as honoraria; educational grants; participation in speakers’ bureaus; membership, employment, consultancies, stock ownership, or other equity interest; and expert testimony or patent-licensing arrangements) in the subject matter or materials discussed in this manuscript., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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47. A pangenome graph reference of 30 chicken genomes allows genotyping of large and complex structural variants.

Author

Rice ES, Alberdi A, Alfieri J, Athrey G, Balacco JR, Bardou P, Blackmon H, Charles M, Cheng HH, Fedrigo O, Fiddaman SR, Formenti G, Frantz LAF, Gilbert MTP, Hearn CJ, Jarvis ED, Klopp C, Marcos S, Mason AS, Velez-Irizarry D, Xu L, and Warren WC

Subjects
Animals, Genotype, Sequence Analysis, DNA, Genomics, Chickens genetics, Genome
Abstract

Background: The red junglefowl, the wild outgroup of domestic chickens, has historically served as a reference for genomic studies of domestic chickens. These studies have provided insight into the etiology of traits of commercial importance. However, the use of a single reference genome does not capture diversity present among modern breeds, many of which have accumulated molecular changes due to drift and selection. While reference-based resequencing is well-suited to cataloging simple variants such as single-nucleotide changes and short insertions and deletions, it is mostly inadequate to discover more complex structural variation in the genome., Methods: We present a pangenome for the domestic chicken consisting of thirty assemblies of chickens from different breeds and research lines., Results: We demonstrate how this pangenome can be used to catalog structural variants present in modern breeds and untangle complex nested variation. We show that alignment of short reads from 100 diverse wild and domestic chickens to this pangenome reduces reference bias by 38%, which affects downstream genotyping results. This approach also allows for the accurate genotyping of a large and complex pair of structural variants at the K feathering locus using short reads, which would not be possible using a linear reference., Conclusions: We expect that this new paradigm of genomic reference will allow better pinpointing of exact mutations responsible for specific phenotypes, which will in turn be necessary for breeding chickens that meet new sustainability criteria and are resilient to quickly evolving pathogen threats., (© 2023. The Author(s).)

Published
2023
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48. Redefining the Evolutionary History of the Rock Dove, Columba livia, Using Whole Genome Sequences.

Author

Hernández-Alonso G, Ramos-Madrigal J, van Grouw H, Ciucani MM, Cavill EL, Sinding MS, Gopalakrishnan S, Pacheco G, and Gilbert MTP

Subjects
Animals, Columbidae genetics, Genome
Abstract

The domestic pigeon's exceptional phenotypic diversity was key in developing Darwin's Theory of Evolution and establishing the concept of artificial selection. However, unlike its domestic counterpart, its wild progenitor, the rock dove Columba livia has received considerably less attention. Therefore, questions regarding its domestication, evolution, taxonomy, and conservation status remain unresolved. We generated whole-genome sequencing data from 65 historical rock doves that represent all currently recognized subspecies and span the species' original geographic distribution. Our dataset includes 3 specimens from Darwin's collection, and the type specimens of 5 different taxa. We characterized their population structure, genomic diversity, and gene-flow patterns. Our results show the West African subspecies C. l. gymnocyclus is basal to rock doves and domestic pigeons, and suggests gene-flow between the rock dove's sister species C. rupestris, and the ancestor of rock doves after its split from West African populations. These genomes allowed us to propose a model for the evolution of the rock dove in light of the refugia theory. We propose that rock dove genetic diversity and introgression patterns derive from a history of allopatric cycles and dispersion waves during the Quaternary glacial and interglacial periods. To explore the rock dove domestication history, we combined our new dataset with available genomes from domestic pigeons. Our results point to at least 1 domestication event in the Levant that gave rise to all domestic breeds analysed in this study. Finally, we propose a species-level taxonomic arrangement to reflect the evolutionary history of the West African rock dove populations., (© The Author(s) 2023. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published
2023
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49. Ancient DNA reveals genetic admixture in China during tiger evolution.

Author

Sun X, Liu YC, Tiunov MP, Gimranov DO, Zhuang Y, Han Y, Driscoll CA, Pang Y, Li C, Pan Y, Velasco MS, Gopalakrishnan S, Yang RZ, Li BG, Jin K, Xu X, Uphyrkina O, Huang Y, Wu XH, Gilbert MTP, O'Brien SJ, Yamaguchi N, and Luo SJ

Subjects
Animals, DNA, Ancient, Phylogeny, Russia, China, Tigers genetics
Abstract

The tiger (Panthera tigris) is a charismatic megafauna species that originated and diversified in Asia and probably experienced population contraction and expansion during the Pleistocene, resulting in low genetic diversity of modern tigers. However, little is known about patterns of genomic diversity in ancient populations. Here we generated whole-genome sequences from ancient or historical (100-10,000 yr old) specimens collected across mainland Asia, including a 10,600-yr-old Russian Far East specimen (RUSA21, 8× coverage) plus six ancient mitogenomes, 14 South China tigers (0.1-12×) and three Caspian tigers (4-8×). Admixture analysis showed that RUSA21 clustered within modern Northeast Asian phylogroups and partially derived from an extinct Late Pleistocene lineage. While some of the 8,000-10,000-yr-old Russian Far East mitogenomes are basal to all tigers, one 2,000-yr-old specimen resembles present Amur tigers. Phylogenomic analyses suggested that the Caspian tiger probably dispersed from an ancestral Northeast Asian population and experienced gene flow from southern Bengal tigers. Lastly, genome-wide monophyly supported the South China tiger as a distinct subspecies, albeit with mitochondrial paraphyly, hence resolving its longstanding taxonomic controversy. The distribution of mitochondrial haplogroups corroborated by biogeographical modelling suggested that Southwest China was a Late Pleistocene refugium for a relic basal lineage. As suitable habitat returned, admixture between divergent lineages of South China tigers took place in Eastern China, promoting the evolution of other northern subspecies. Altogether, our analysis of ancient genomes sheds light on the evolutionary history of tigers and supports the existence of nine modern subspecies., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2023
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