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35 results on '"Stahlke, Amanda R."'

1. Large‐effect loci affect survival in Tasmanian devils (Sarcophilus harrisii) infected with a transmissible cancer

Author

Margres, Mark J, Jones, Menna E, Epstein, Brendan, Kerlin, Douglas H, Comte, Sebastien, Fox, Samantha, Fraik, Alexandra K, Hendricks, Sarah A, Huxtable, Stewart, Lachish, Shelly, Lazenby, Billie, O'Rourke, Sean M, Stahlke, Amanda R, Wiench, Cody G, Hamede, Rodrigo, Schönfeld, Barbara, McCallum, Hamish, Miller, Michael R, Hohenlohe, Paul A, and Storfer, Andrew

Subjects
Biological Sciences, Genetics, Human Genome, Biotechnology, Cancer, Animals, Conservation of Natural Resources, Disease Resistance, Endangered Species, Female, Genetic Association Studies, Genomics, Male, Marsupialia, Neoplasms, Phenotype, Polymorphism, Single Nucleotide, Sex Factors, Survival Rate, Tasmania, adaptation, cancer, effect size, genotype-phenotype, GWAS, Evolutionary Biology, Biological sciences
Abstract

Identifying the genetic architecture of complex phenotypes is a central goal of modern biology, particularly for disease-related traits. Genome-wide association methods are a classical approach for identifying the genomic basis of variation in disease phenotypes, but such analyses are particularly challenging in natural populations due to sample size difficulties. Extensive mark-recapture data, strong linkage disequilibrium and a lethal transmissible cancer make the Tasmanian devil (Sarcophilus harrisii) an ideal model for such an association study. We used a RAD-capture approach to genotype 624 devils at ~16,000 loci and then used association analyses to assess the heritability of three cancer-related phenotypes: infection case-control (where cases were infected devils and controls were devils that were never infected), age of first infection and survival following infection. The SNP array explained much of the phenotypic variance for female survival (>80%) and female case-control (>61%). We found that a few large-effect SNPs explained much of the variance for female survival (~5 SNPs explained >61% of the total variance), whereas more SNPs (~56) of smaller effect explained less of the variance for female case-control (~23% of the total variance). By contrast, these same SNPs did not account for a significant proportion of phenotypic variance in males, suggesting that the genetic bases of these traits and/or selection differ across sexes. Loci involved with cell adhesion and cell-cycle regulation underlay trait variation, suggesting that the devil immune system is rapidly evolving to recognize and potentially suppress cancer growth through these pathways. Overall, our study provided necessary data for genomics-based conservation and management in Tasmanian devils.

Published
2018

10. Population genomic structure in Goodman's mouse lemur reveals long‐standing separation of Madagascar's Central Highlands and eastern rainforests

Author

Tiley, George P., primary, van Elst, Tobias, additional, Teixeira, Helena, additional, Schüßler, Dominik, additional, Salmona, Jordi, additional, Blanco, Marina B., additional, Ralison, José M., additional, Randrianambinina, Blanchard, additional, Rasoloarison, Rodin M., additional, Stahlke, Amanda R., additional, Hohenlohe, Paul A., additional, Chikhi, Lounès, additional, Louis, Edward E., additional, Radespiel, Ute, additional, and Yoder, Anne D., additional

Published
2022
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11. A Chromosome-Scale Genome Assembly of a Helicoverpa zea Strain Resistant to Bacillus thuringiensis Cry1Ac Insecticidal Protein

Author

Stahlke, Amanda R, primary, Chang, Jennifer, additional, Tembrock, Luke R, additional, Sim, Sheina B, additional, Chudalayandi, Sivanandan, additional, Geib, Scott M, additional, Scheffler, Brian E, additional, Perera, Omaththage P, additional, Gilligan, Todd M, additional, Childers, Anna K, additional, Hackett, Kevin J, additional, and Coates, Brad S, additional

Published
2022
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12. A chromosome-scale genome assembly of a Bacillus thuringiensis Cry1Ac insecticidal protein resistant strain of Helicoverpa zea

Author

Stahlke, Amanda R., primary, Chang, Jennifer, additional, Tembrock, Luke R., additional, Sim, Sheina B., additional, Chudalayandi, Sivanandan, additional, Geib, Scott M., additional, Scheffler, Brian E., additional, Perera, Omaththage P., additional, Gilligan, Todd M., additional, Childers, Anna K., additional, Hackett, Kevin J., additional, and Coates, Brad S., additional

Published
2022
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15. A Chromosome-Scale Genome Assembly of a Helicoverpa zea Strain Resistant to Bacillus thuringiensis Cry1Ac Insecticidal Protein.

Author

Stahlke, Amanda R, Chang, Jennifer, Tembrock, Luke R, Sim, Sheina B, Chudalayandi, Sivanandan, Geib, Scott M, Scheffler, Brian E, Perera, Omaththage P, Gilligan, Todd M, Childers, Anna K, Hackett, Kevin J, and Coates, Brad S

Subjects
*HELIOTHIS zea, *BACILLUS thuringiensis, *HELICOVERPA armigera, *FALL armyworm, *MITOCHONDRIAL DNA, *INSECT pests, *ECOLOGICAL zones, *BT cotton
Abstract

Helicoverpa zea (Lepidoptera: Noctuidae) is an insect pest of major cultivated crops in North and South America. The species has adapted to different host plants and developed resistance to several insecticidal agents, including Bacillus thuringiensis (Bt) insecticidal proteins in transgenic cotton and maize. Helicoverpa zea populations persist year-round in tropical and subtropical regions, but seasonal migrations into temperate zones increase the geographic range of associated crop damage. To better understand the genetic basis of these physiological and ecological characteristics, we generated a high-quality chromosome-level assembly for a single H. zea male from Bt-resistant strain, HzStark_Cry1AcR. Hi-C data were used to scaffold an initial 375.2 Mb contig assembly into 30 autosomes and the Z sex chromosome (scaffold N50 = 12.8 Mb and L50 = 14). The scaffolded assembly was error-corrected with a novel pipeline, polishCLR. The mitochondrial genome was assembled through an improved pipeline and annotated. Assessment of this genome assembly indicated 98.8% of the Lepidopteran Benchmark Universal Single-Copy Ortholog set were complete (98.5% as complete single copy). Repetitive elements comprised approximately 29.5% of the assembly with the plurality (11.2%) classified as retroelements. This chromosome-scale reference assembly for H. zea , ilHelZeax1.1, will facilitate future research to evaluate and enhance sustainable crop production practices. [ABSTRACT FROM AUTHOR]

Published
2023
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17. Supplementary Information from Contemporary and historical selection in Tasmanian devils (Sarcophilus harrisii) support novel, polygenic response to transmissible cancer

Author

Stahlke, Amanda R., Epstein, Brendan, Soraia Barbosa, Margres, Mark J., Patton, Austin, Hendricks, Sarah A., Veillet, Anne, Fraik, Alexandra K., Schönfeld, Barbara, McCallum, Hamish I., Hamede, Rodrigo, Jones, Menna E., Storfer, Andrew, and Hohenlohe, Paul A.

Abstract

Detailed methods; figures displaying sequencing coverage, relationships among selection metrics, and gene set overlaps. Tables displaying sample sizes, ANGSD settings, effective population size estimates, candidate gene information, and PAML results.

Published
2021
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18. Contemporary and historical selection in Tasmanian devils ( Sarcophilus harrisii ) support novel, polygenic response to transmissible cancer

Author

Stahlke, Amanda R., primary, Epstein, Brendan, additional, Barbosa, Soraia, additional, Margres, Mark J., additional, Patton, Austin H., additional, Hendricks, Sarah A., additional, Veillet, Anne, additional, Fraik, Alexandra K., additional, Schönfeld, Barbara, additional, McCallum, Hamish I., additional, Hamede, Rodrigo, additional, Jones, Menna E., additional, Storfer, Andrew, additional, and Hohenlohe, Paul A., additional

Published
2021
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19. Phylogeographic analysis of Goodman’s mouse lemur reveals historical interconnectivity of Madagascar’s Central Highlands and eastern rainforests

Author

Tiley, George P., Blanco, Marina B., Ralison, José M., Rasoloarison, Rodin M., Stahlke, Amanda R., Hohenlohe, Paul A., and Yoder, Anne D.

Subjects
parasitic diseases, geographic locations
Abstract

The Central Highland Plateau of Madagascar is largely composed of savannah, interspersed with patches of closed-canopy forests. The origins of this landscape are now accepted as long preceding the arrival of humans in Madagascar, but whether savannah vegetation has remained static or expanded over time remains a topic of debate. By analyzing multiple populations of Goodman’s mouse lemur ( Microcebus lehilahytsara ), a small-bodied nocturnal primate, we reconstruct its phylogeographic and demographic history to serve as a proximal estimate of the time at which the Central Highland and eastern forests became discontinuous. We applied coalescent methods to RADseq data to infer phylogeographic relationships, population structure, and migration corridors among sampling sites. Analyses revealed that forest fragmentation occurred rapidly and affected both the Central Highlands and eastern forests during a period of decreased precipitation near the last glacial maximum. There was clear structure between Central Highland populations versus those of the eastern rainforests, but there has also been historical migration across this presumed gene flow barrier. Findings support origins of the Central Highland savannah that predate human arrival and demonstrate that this natural landscape has long impacted the population dynamics of Goodman’s mouse lemur.

Published
2020
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20. Contemporary and historical selection in Tasmanian devils (Sarcophilus harrisii) support novel, polygenic response to transmissible cancer

Author

Stahlke, Amanda R., primary, Epstein, Brendan, additional, Barbosa, Soraia, additional, Margres, Mark J., additional, Patton, Austin, additional, Hendricks, Sarah A., additional, Veillet, Anne, additional, Fraik, Alexandra K, additional, Schönfeld, Barbara, additional, McCallum, Hamish I., additional, Hamede, Rodrigo, additional, Jones, Menna E., additional, Storfer, Andrew, additional, and Hohenlohe, Paul A., additional

Published
2020
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21. Comparative landscape genetics reveals differential effects of environment on host and pathogen genetic structure in Tasmanian devils (Sarcophilus harrisii) and their transmissible tumour

Author

Kozakiewicz, Christopher P., primary, Ricci, Lauren, additional, Patton, Austin H., additional, Stahlke, Amanda R., additional, Hendricks, Sarah A., additional, Margres, Mark J., additional, Ruiz‐Aravena, Manuel, additional, Hamilton, David G., additional, Hamede, Rodrigo, additional, McCallum, Hamish, additional, Jones, Menna E., additional, Hohenlohe, Paul A., additional, and Storfer, Andrew, additional

Published
2020
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22. Spontaneous Tumor Regression in Tasmanian Devils Associated with RASL11A Activation

Author

Margres, Mark J, primary, Ruiz-Aravena, Manuel, additional, Hamede, Rodrigo, additional, Chawla, Kusum, additional, Patton, Austin H, additional, Lawrance, Matthew F, additional, Fraik, Alexandra K, additional, Stahlke, Amanda R, additional, Davis, Brian W, additional, Ostrander, Elaine A, additional, Jones, Menna E, additional, McCallum, Hamish, additional, Paddison, Patrick J, additional, Hohenlohe, Paul A, additional, Hockenbery, David, additional, and Storfer, Andrew, additional

Published
2020
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23. Cryptic Patterns of Speciation in Cryptic Primates: Microendemic Mouse Lemurs and the Multispecies Coalescent

Author

Poelstra, Jelmer W, primary, Salmona, Jordi, additional, Tiley, George P, additional, Schüßler, Dominik, additional, Blanco, Marina B, additional, Andriambeloson, Jean B, additional, Bouchez, Olivier, additional, Campbell, C Ryan, additional, Etter, Paul D, additional, Hohenlohe, Paul A, additional, Hunnicutt, Kelsie E, additional, Iribar, Amaia, additional, Johnson, Eric A, additional, Kappeler, Peter M, additional, Larsen, Peter A, additional, Manzi, Sophie, additional, Ralison, JosÉ M, additional, Randrianambinina, Blanchard, additional, Rasoloarison, Rodin M, additional, Rasolofoson, David W, additional, Stahlke, Amanda R, additional, Weisrock, David W, additional, Williams, Rachel C, additional, Chikhi, LounÈs, additional, Louis, Edward E, additional, Radespiel, Ute, additional, and Yoder, Anne D, additional

Published
2020
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24. Disease swamps molecular signatures of genetic‐environmental associations to abiotic factors in Tasmanian devil ( Sarcophilus harrisii ) populations

Author

Fraik, Alexandra K., primary, Margres, Mark J., additional, Epstein, Brendan, additional, Barbosa, Soraia, additional, Jones, Menna, additional, Hendricks, Sarah, additional, Schönfeld, Barbara, additional, Stahlke, Amanda R., additional, Veillet, Anne, additional, Hamede, Rodrigo, additional, McCallum, Hamish, additional, Lopez‐Contreras, Elisa, additional, Kallinen, Samantha J., additional, Hohenlohe, Paul A., additional, Kelley, Joanna L., additional, and Storfer, Andrew, additional

Published
2020
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26. Hybridization and range expansion in tamarisk beetles (Diorhabda spp.) introduced to North America for classical biological control.

Author

Stahlke, Amanda R., Bitume, Ellyn V., Özsoy, Zeynep A., Bean, Dan W., Veillet, Anne, Clark, Meaghan I., Clark, Eliza I., Moran, Patrick, Hufbauer, Ruth A., and Hohenlohe, Paul A.

Subjects
*TAMARISKS, *SPECIES hybridization, *GENETIC drift, *BIOLOGICAL pest control agents, *GENETIC variation, *BEETLES, *INTROGRESSION (Genetics)
Abstract

With the global rise of human‐mediated translocations and invasions, it is critical to understand the genomic consequences of hybridization and mechanisms of range expansion. Conventional wisdom is that high genetic drift and loss of genetic diversity due to repeated founder effects will constrain introduced species. However, reduced genetic variation can be countered by behavioral aspects and admixture with other distinct populations. As planned invasions, classical biological control (biocontrol) agents present important opportunities to understand the mechanisms of establishment and spread in a novel environment. The ability of biocontrol agents to spread and adapt, and their effects on local ecosystems, depends on genomic variation and the consequences of admixture in novel environments. Here, we use a biocontrol system to examine the genome‐wide outcomes of introduction, spread, and hybridization in four cryptic species of a biocontrol agent, the tamarisk beetle (Diorhabda carinata, D. carinulata, D. elongata, and D. sublineata), introduced from six localities across Eurasia to control the invasive shrub tamarisk (Tamarix spp.) in western North America. We assembled a de novo draft reference genome and applied RADseq to over 500 individuals across laboratory cultures, the native ranges, and the introduced range. Despite evidence of a substantial genetic bottleneck among D. carinulata in N. America, populations continue to establish and spread, possibly due to aggregation behavior. We found that D. carinata, D. elongata, and D. sublineata hybridize in the field to varying extents, with D. carinata × D. sublineata hybrids being the most abundant. Genetic diversity was greater at sites with hybrids, highlighting potential for increased ability to adapt and expand. Our results demonstrate the complex patterns of genomic variation that can result from introduction of multiple ecotypes or species for biocontrol, and the importance of understanding them to predict and manage the effects of biocontrol agents in novel ecosystems. [ABSTRACT FROM AUTHOR]

Published
2022
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27. Disease swamps molecular signatures of genetic-environmental associations to abiotic factors in Tasmanian devil (Sarcophilus harrisii) populations

Author

Fraik, Alexandra K., primary, Margres, Mark J., additional, Epstein, Brendan, additional, Barbosa, Soraia, additional, Jones, Menna, additional, Hendricks, Sarah, additional, Schönfeld, Barbara, additional, Stahlke, Amanda R., additional, Veillet, Anne, additional, Hamede, Rodrigo, additional, McCallum, Hamish, additional, Lopez-Contreras, Elisa, additional, Kallinen, Samantha J., additional, Hohenlohe, Paul A., additional, Kelley, Joanna L., additional, and Storfer, Andrew, additional

Published
2019
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28. Cryptic Patterns of Speciation in Cryptic Primates: Microendemic Mouse Lemurs and the Multispecies Coalescent

Author

Poelstra, Jelmer, primary, Salmona, Jordi, additional, Tiley, George P., additional, Schüßler, Dominik, additional, Blanco, Marina B., additional, Andriambeloson, Jean B., additional, Manzi, Sophie, additional, Campbell, C. Ryan, additional, Bouchez, Olivier, additional, Etter, Paul D., additional, Iribar, Amaia, additional, Hohenlohe, Paul A., additional, Hunnicutt, Kelsie E., additional, Johnson, Eric A., additional, Kappeler, Peter M., additional, Larsen, Peter A., additional, Ralison, José M., additional, Randrianambinina, Blanchard, additional, Rasoloarison, Rodin M., additional, Rasolofoson, David W., additional, Stahlke, Amanda R., additional, Weisrock, David, additional, Williams, Rachel C., additional, Chikhi, Lounès, additional, Louis, Edward E, additional, Radespiel, Ute, additional, and Yoder, Anne D., additional

Published
2019
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29. Contemporary Demographic Reconstruction Methods Are Robust to Genome Assembly Quality: A Case Study in Tasmanian Devils

Author

Patton, Austin H, primary, Margres, Mark J, additional, Stahlke, Amanda R, additional, Hendricks, Sarah, additional, Lewallen, Kevin, additional, Hamede, Rodrigo K, additional, Ruiz-Aravena, Manuel, additional, Ryder, Oliver, additional, McCallum, Hamish I, additional, Jones, Menna E, additional, Hohenlohe, Paul A, additional, and Storfer, Andrew, additional

Published
2019
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31. Insight into weevil biology from a reference quality genome of the boll weevil, Anthonomus grandis grandis Boheman (Coleoptera: Curculionidae).

Author

Cohen, Zachary P., Perkin, Lindsey C., Sim, Sheina B., Stahlke, Amanda R., Geib, Scott M., Childers, Anna K., Smith, Timothy P. L., and Suh, Charles

Subjects
*CURCULIONIDAE, *PHEROMONE traps, *BIOLOGY, *PEST control, *GENE families, *INSECT diversity
Abstract

The boll weevil, Anthonomus grandis grandis Boheman, is one of the most historically impactful insects due to its near destruction of the US cotton industry in the early 20th century. Contemporary efforts to manage this insect primarily use pheromone baited traps for detection and organophosphate insecticides for control, but this strategy is not sustainable due to financial and environmental costs. We present a high-quality boll weevil genome assembly, consisting of 306 scaffolds with approximately 24,000 annotated genes, as a first step in the identification of gene targets for novel pest control. Gene content and transposable element distribution are similar to those found in other Curculionidae genomes; however, this is the most contiguous and only assembly reported to date for a member in the species-rich genus Anthonomus. Transcriptome profiles across larval, pupal, and adult life stages led to identification of several genes and gene families that could present targets for novel control strategies. [ABSTRACT FROM AUTHOR]

Published
2023
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32. otb: an automated HiC/HiFi pipeline assembles the Prosapia bicincta Genome.

Author

Molik DC, Stahlke AR, Sharma SP, Simmonds TJ, Corpuz RL, Kauwe AN, Schrader JE, Mason CJ, Sim SB, and Geib SM

Subjects
Animals, Hemiptera genetics, Software, Genome, Insect, Genomics methods
Abstract

The implementation of a new genomic assembly pipeline named only the best (otb) has effectively addressed various challenges associated with data management during the development and storage of genome assemblies. otb, which incorporates a comprehensive pipeline involving a setup layer, quality checks, templating, and the integration of Nextflow and Singularity. The primary objective of otb is to streamline the process of creating a HiFi/HiC genome, aiming to minimize the manual intervention required in the genome assembly process. The 2-lined spittlebug, (Prosapia bicincta, Hemiptera: Cercopidae), a true bug insect herbivore, serves as a practical test case for evaluating otb. The 2-lined spittlebug is both a crucial agricultural pest and a genomically understudied insect belonging to the order Hemiptera. This insect is a significant threat to grasslands and pastures, leading to plant wilting and phytotoxemia when infested. Its presence in tropical and subtropical regions around the world poses a long-term threat to the composition of plant communities in grassland landscapes, impacting rangelands, and posing a substantial risk to cattle production., Competing Interests: Conflicts of interest The author(s) declare no conflicts of interest., (Published by Oxford University Press on behalf of The Genetics Society of America 2024.)

Published
2024
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33. Chromosome-scale genome assembly of the pink bollworm, Pectinophora gossypiella, a global pest of cotton.

Author

Stahlke AR, Chang J, Chudalayandi S, Heu CC, Geib SM, Scheffler BE, Childers AK, and Fabrick JA

Subjects
Animals, Insecticide Resistance genetics, Plants, Genetically Modified genetics, Bacterial Proteins genetics, Endotoxins genetics, Endotoxins metabolism, Chromosomes metabolism, Gossypium genetics, Gossypium metabolism, Moths genetics, Moths metabolism, Bacillus thuringiensis genetics, Bacillus thuringiensis metabolism
Abstract

The pink bollworm, Pectinophora gossypiella (Saunders) (Lepidoptera: Gelechiidae), is a major global pest of cotton. Current management practices include chemical insecticides, cultural strategies, sterile insect releases, and transgenic cotton producing crystalline (Cry) protein toxins of the bacterium Bacillus thuringiensis (Bt). These strategies have contributed to the eradication of P. gossypiella from the cotton-growing areas of the United States and northern Mexico. However, this pest has evolved resistance to Bt cotton in Asia, where it remains a critical pest, and the benefits of using transgenic Bt crops have been lost. A complete annotated reference genome is needed to improve global Bt resistance management of the pink bollworm. We generated the first chromosome-level genome assembly for pink bollworm from a Bt-susceptible laboratory strain (APHIS-S) using PacBio continuous long reads for contig generation, Illumina Hi-C for scaffolding, and Illumina whole-genome re-sequencing for error correction. The pseudo-haploid assembly consists of 29 autosomes and the Z sex chromosome. The assembly exceeds the minimum Earth BioGenome Project quality standards, has a low error rate, is highly contiguous at both the contig and scaffold levels (L/N50 of 18/8.26 MB and 14/16.44 MB, respectively), and is complete, with 98.6% of lepidopteran single-copy orthologs represented without duplication. The genome was annotated with 50% repeat content and 14,107 protein-coding genes, further assigned to 41,666 functional annotations. This assembly represents the first publicly available complete annotated genome of pink bollworm and will serve as the foundation for advancing molecular genetics of this important pest species., Competing Interests: Conflicts of interest None declared., (Published by Oxford University Press on behalf of the Genetics Society of America 2023.)

Published
2023
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34. Contemporary and historical selection in Tasmanian devils ( Sarcophilus harrisii ) support novel, polygenic response to transmissible cancer.

Author

Stahlke AR, Epstein B, Barbosa S, Margres MJ, Patton AH, Hendricks SA, Veillet A, Fraik AK, Schönfeld B, McCallum HI, Hamede R, Jones ME, Storfer A, and Hohenlohe PA

Subjects
Animals, Genomics, Facial Neoplasms genetics, Facial Neoplasms veterinary, Marsupialia genetics, Neoplasms genetics, Neoplasms veterinary
Abstract

Tasmanian devils ( Sarcophilus harrisii ) are evolving in response to a unique transmissible cancer, devil facial tumour disease (DFTD), first described in 1996. Persistence of wild populations and the recent emergence of a second independently evolved transmissible cancer suggest that transmissible cancers may be a recurrent feature in devils. Here, we compared signatures of selection across temporal scales to determine whether genes or gene pathways under contemporary selection (six to eight generations) have also been subject to historical selection (65-85 Myr). First, we used targeted sequencing, RAD-capture, in approximately 2500 devils in six populations to identify genomic regions subject to rapid evolution. We documented genome-wide contemporary evolution, including 186 candidate genes related to cell cycling and immune response. Then we used a molecular evolution approach to identify historical positive selection in devils compared to other marsupials and found evidence of selection in 1773 genes. However, we found limited overlap across time scales, with only 16 shared candidate genes, and no overlap in enriched functional gene sets. Our results are consistent with a novel, multi-locus evolutionary response of devils to DFTD. Our results can inform conservation by identifying high priority targets for genetic monitoring and guiding maintenance of adaptive potential in managed populations.

Published
2021
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35. Cryptic Patterns of Speciation in Cryptic Primates: Microendemic Mouse Lemurs and the Multispecies Coalescent.

Author

Poelstra JW, Salmona J, Tiley GP, Schüßler D, Blanco MB, Andriambeloson JB, Bouchez O, Campbell CR, Etter PD, Hohenlohe PA, Hunnicutt KE, Iribar A, Johnson EA, Kappeler PM, Larsen PA, Manzi S, Ralison JM, Randrianambinina B, Rasoloarison RM, Rasolofoson DW, Stahlke AR, Weisrock DW, Williams RC, Chikhi L, Louis EE, Radespiel U, and Yoder AD

Subjects
Animals, DNA, Mitochondrial genetics, Ecosystem, Fossils, Phylogeny, Cheirogaleidae classification, Cheirogaleidae genetics, Genetic Speciation
Abstract

Mouse lemurs (Microcebus) are a radiation of morphologically cryptic primates distributed throughout Madagascar for which the number of recognized species has exploded in the past two decades. This taxonomic revision has prompted understandable concern that there has been substantial oversplitting in the mouse lemur clade. Here, we investigate mouse lemur diversity in a region in northeastern Madagascar with high levels of microendemism and predicted habitat loss. We analyzed RADseq data with multispecies coalescent (MSC) species delimitation methods for two pairs of sister lineages that include three named species and an undescribed lineage previously identified to have divergent mtDNA. Marked differences in effective population sizes, levels of gene flow, patterns of isolation-by-distance, and species delimitation results were found among the two pairs of lineages. Whereas all tests support the recognition of the presently undescribed lineage as a separate species, the species-level distinction of two previously described species, M. mittermeieri and M. lehilahytsara is not supported-a result that is particularly striking when using the genealogical discordance index (gdi). Nonsister lineages occur sympatrically in two of the localities sampled for this study, despite an estimated divergence time of less than 1 Ma. This suggests rapid evolution of reproductive isolation in the focal lineages and in the mouse lemur clade generally. The divergence time estimates reported here are based on the MSC calibrated with pedigree-based mutation rates and are considerably more recent than previously published fossil-calibrated relaxed-clock estimates. We discuss the possible explanations for this discrepancy, noting that there are theoretical justifications for preferring the MSC estimates in this case. [Cryptic species; effective population size; microendemism; multispecies coalescent; speciation; species delimitation.]., (© The Author(s) 2020. Published by Oxford University Press, on behalf of the Society of Systematic Biologists. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2021
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