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2. Publisher Correction: The genome of the stable fly, Stomoxys calcitrans, reveals potential mechanisms underlying reproduction, host interactions, and novel targets for pest control

Author

Olafson, Pia U, Aksoy, Serap, Attardo, Geoffrey M, Buckmeier, Greta, Chen, Xiaoting, Coates, Craig J, Davis, Megan, Dykema, Justin, Emrich, Scott J, Friedrich, Markus, Holmes, Christopher J, Ioannidis, Panagiotis, Jansen, Evan N, Jennings, Emily C, Lawson, Daniel, Martinson, Ellen O, Maslen, Gareth L, Meisel, Richard P, Murphy, Terence D, Nayduch, Dana, Nelson, David R, Oyen, Kennan J, Raszick, Tyler J, Ribeiro, José MC, Robertson, Hugh M, Rosendale, Andrew J, Sackton, Timothy B, Saelao, Perot, Swiger, Sonja L, Sze, Sing-Hoi, Tarone, Aaron M, Taylor, David B, Warren, Wesley C, Waterhouse, Robert M, Weirauch, Matthew T, Werren, John H, Wilson, Richard K, Zdobnov, Evgeny M, and Benoit, Joshua B

Subjects
Microbiology, Biological Sciences, Developmental Biology, Biological sciences
Abstract

Following publication of the original article [1], it was reported that the article copyright was incorrect. The correct copyright statement is: © This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply 2021. The original article [1] has been corrected.

Published
2021

3. The genome of the stable fly, Stomoxys calcitrans, reveals potential mechanisms underlying reproduction, host interactions, and novel targets for pest control.

Author

Olafson, Pia U, Aksoy, Serap, Attardo, Geoffrey M, Buckmeier, Greta, Chen, Xiaoting, Coates, Craig J, Davis, Megan, Dykema, Justin, Emrich, Scott J, Friedrich, Markus, Holmes, Christopher J, Ioannidis, Panagiotis, Jansen, Evan N, Jennings, Emily C, Lawson, Daniel, Martinson, Ellen O, Maslen, Gareth L, Meisel, Richard P, Murphy, Terence D, Nayduch, Dana, Nelson, David R, Oyen, Kennan J, Raszick, Tyler J, Ribeiro, José MC, Robertson, Hugh M, Rosendale, Andrew J, Sackton, Timothy B, Saelao, Perot, Swiger, Sonja L, Sze, Sing-Hoi, Tarone, Aaron M, Taylor, David B, Warren, Wesley C, Waterhouse, Robert M, Weirauch, Matthew T, Werren, John H, Wilson, Richard K, Zdobnov, Evgeny M, and Benoit, Joshua B

Subjects
Chemoreceptor genes, Gene regulation, Insect adaptation, Insect immunity, Insect orthology, Metabolic detoxification genes, Muscid genomics, Opsin gene duplication, Stable fly genome, Biological Sciences, Developmental Biology
Abstract

BackgroundThe stable fly, Stomoxys calcitrans, is a major blood-feeding pest of livestock that has near worldwide distribution, causing an annual cost of over $2 billion for control and product loss in the USA alone. Control of these flies has been limited to increased sanitary management practices and insecticide application for suppressing larval stages. Few genetic and molecular resources are available to help in developing novel methods for controlling stable flies.ResultsThis study examines stable fly biology by utilizing a combination of high-quality genome sequencing and RNA-Seq analyses targeting multiple developmental stages and tissues. In conjunction, 1600 genes were manually curated to characterize genetic features related to stable fly reproduction, vector host interactions, host-microbe dynamics, and putative targets for control. Most notable was characterization of genes associated with reproduction and identification of expanded gene families with functional associations to vision, chemosensation, immunity, and metabolic detoxification pathways.ConclusionsThe combined sequencing, assembly, and curation of the male stable fly genome followed by RNA-Seq and downstream analyses provide insights necessary to understand the biology of this important pest. These resources and new data will provide the groundwork for expanding the tools available to control stable fly infestations. The close relationship of Stomoxys to other blood-feeding (horn flies and Glossina) and non-blood-feeding flies (house flies, medflies, Drosophila) will facilitate understanding of the evolutionary processes associated with development of blood feeding among the Cyclorrhapha.

Published
2021

4. Comparative genomic analysis of six Glossina genomes, vectors of African trypanosomes

Author

Attardo, Geoffrey M, Abd-Alla, Adly MM, Acosta-Serrano, Alvaro, Allen, James E, Bateta, Rosemary, Benoit, Joshua B, Bourtzis, Kostas, Caers, Jelle, Caljon, Guy, Christensen, Mikkel B, Farrow, David W, Friedrich, Markus, Hua-Van, Aurélie, Jennings, Emily C, Larkin, Denis M, Lawson, Daniel, Lehane, Michael J, Lenis, Vasileios P, Lowy-Gallego, Ernesto, Macharia, Rosaline W, Malacrida, Anna R, Marco, Heather G, Masiga, Daniel, Maslen, Gareth L, Matetovici, Irina, Meisel, Richard P, Meki, Irene, Michalkova, Veronika, Miller, Wolfgang J, Minx, Patrick, Mireji, Paul O, Ometto, Lino, Parker, Andrew G, Rio, Rita, Rose, Clair, Rosendale, Andrew J, Rota-Stabelli, Omar, Savini, Grazia, Schoofs, Liliane, Scolari, Francesca, Swain, Martin T, Takáč, Peter, Tomlinson, Chad, Tsiamis, George, Van Den Abbeele, Jan, Vigneron, Aurelien, Wang, Jingwen, Warren, Wesley C, Waterhouse, Robert M, Weirauch, Matthew T, Weiss, Brian L, Wilson, Richard K, Zhao, Xin, and Aksoy, Serap

Subjects
Biological Sciences, Genetics, Vector-Borne Diseases, Biotechnology, Infectious Diseases, Infection, Good Health and Well Being, Animals, DNA Transposable Elements, Drosophila melanogaster, Female, Gene Expression Regulation, Genes, Insect, Genes, X-Linked, Genome, Insect, Genomics, Geography, Insect Proteins, Insect Vectors, Male, Mutagenesis, Insertional, Phylogeny, Repetitive Sequences, Nucleic Acid, Sequence Homology, Amino Acid, Synteny, Trypanosoma, Tsetse Flies, Wolbachia, Tsetse, Trypanosomiasis, Hematophagy, Lactation, Disease, Neglected, Symbiosis, Environmental Sciences, Information and Computing Sciences, Bioinformatics
Abstract

BackgroundTsetse flies (Glossina sp.) are the vectors of human and animal trypanosomiasis throughout sub-Saharan Africa. Tsetse flies are distinguished from other Diptera by unique adaptations, including lactation and the birthing of live young (obligate viviparity), a vertebrate blood-specific diet by both sexes, and obligate bacterial symbiosis. This work describes the comparative analysis of six Glossina genomes representing three sub-genera: Morsitans (G. morsitans morsitans, G. pallidipes, G. austeni), Palpalis (G. palpalis, G. fuscipes), and Fusca (G. brevipalpis) which represent different habitats, host preferences, and vectorial capacity.ResultsGenomic analyses validate established evolutionary relationships and sub-genera. Syntenic analysis of Glossina relative to Drosophila melanogaster shows reduced structural conservation across the sex-linked X chromosome. Sex-linked scaffolds show increased rates of female-specific gene expression and lower evolutionary rates relative to autosome associated genes. Tsetse-specific genes are enriched in protease, odorant-binding, and helicase activities. Lactation-associated genes are conserved across all Glossina species while male seminal proteins are rapidly evolving. Olfactory and gustatory genes are reduced across the genus relative to other insects. Vision-associated Rhodopsin genes show conservation of motion detection/tracking functions and variance in the Rhodopsin detecting colors in the blue wavelength ranges.ConclusionsExpanded genomic discoveries reveal the genetics underlying Glossina biology and provide a rich body of knowledge for basic science and disease control. They also provide insight into the evolutionary biology underlying novel adaptations and are relevant to applied aspects of vector control such as trap design and discovery of novel pest and disease control strategies.

Published
2019

7. The Glossina Genome Cluster: Comparative Genomic Analysis of the Vectors of African Trypanosomes

Author

Attardo, Geoffrey M, Abd-Alla, Adly MM, Acosta-Serrano, Alvaro, Allen, James E, Bateta, Rosemary, Benoit, Joshua B, Bourtzis, Kostas, Caers, Jelle, Caljon, Guy, Christensen, Mikkel B, Farrow, David W, Friedrich, Markus, Hua-Van, Aurélie, Jennings, Emily C, Larkin, Denis M, Lawson, Daniel, Lehane, Michael J, Lenis, Vasileios P, Lowy-Gallego, Ernesto, Macharia, Rosaline W, Malacrida, Anna R, Marco, Heather G, Masiga, Daniel, Maslen, Gareth L, Matetovici, Irina, Meisel, Richard P, Meki, Irene, Michalkova, Veronika, Miller, Wolfgang J, Minx, Patrick, Mireji, Paul O, Ometto, Lino, Parker, Andrew G, Rio, Rita, Rose, Clair, Rosendale, Andrew J, Rota-Stabelli, Omar, Savini, Grazia, Schoofs, Liliane, Scolari, Francesca, Swain, Martin T, Takáč, Peter, Tomlinson, Chad, Tsiamis, George, Van Den Abbeele, Jan, Vigneron, Aurelien, Wang, Jingwen, Warren, Wesley C, Waterhouse, Robert M, Weirauch, Matthew T, Weiss, Brian L, Wilson, Richard K, Zhao, Xin, and Aksoy, Serap

Subjects
Biological Sciences, Genetics, Infectious Diseases, Vector-Borne Diseases, Biotechnology, Infection, Good Health and Well Being
Abstract

Background: Tsetse flies (Glossina sp.) are the sole vectors of human and animal trypanosomiasis throughout sub-Saharan Africa. Tsetse are distinguished from other Diptera by unique adaptations, including lactation and the birthing of live young (obligate viviparity), a vertebrate blood specific diet by both sexes and obligate bacterial symbiosis. This work describes comparative analysis of six Glossina genomes representing three sub-genera: Morsitans (G. morsitans morsitans (G.m. morsitans), G. pallidipes, G. austeni), Palpalis (G. palpalis, G. fuscipes) and Fusca (G. brevipalpis) which represent different habitats, host preferences and vectorial capacity. Results: Genomic analyses validate established evolutionary relationships and sub-genera. Syntenic analysis of Glossina relative to Drosophila melanogaster shows reduced structural conservation across the sex-linked X chromosome. Sex linked scaffolds show increased rates of female specific gene expression and lower evolutionary rates relative to autosome associated genes. Tsetse specific genes are enriched in protease, odorant binding and helicase activities. Lactation associated genes are conserved across all Glossina species while male seminal proteins are rapidly evolving. Olfactory and gustatory genes are reduced across the genus relative to other characterized insects. Vision associated Rhodopsin genes show conservation of motion detection/tracking functions and significant variance in the Rhodopsin detecting colors in the blue wavelength ranges. Conclusions: Expanded genomic discoveries reveal the genetics underlying Glossina biology and provide a rich body of knowledge for basic science and disease control. They also provide insight into the evolutionary biology underlying novel adaptations and are relevant to applied aspects of vector control such as trap design and discovery of novel pest and disease control strategies.

Published
2019

8. Comparative analysis of animal lifespan.

Author

Riddle, Nicole C., Biga, Peggy R., Bronikowski, Anne M., Walters, James R., Wilkinson, Gerald S., IISAGE Consortium, Duan, Jingyue Ellie, Gamble, Anthony, Larschan, Erica, Meisel, Richard P., Singh, Ritambhara, and Webb, Ashley

Subjects
POPULATION aging, COMPARATIVE biology, COMPARATIVE studies, LIFE history theory, EXPERIMENTAL design, AGING
Abstract

Comparative studies of aging are a promising approach to identifying general properties of and processes leading to aging. While to date, many comparative studies of aging in animals have focused on relatively narrow species groups, methodological innovations now allow for studies that include evolutionary distant species. However, comparative studies of aging across a wide range of species that have distinct life histories introduce additional challenges in experimental design. Here, we discuss these challenges, highlight the most pressing problems that need to be solved, and provide suggestions based on current approaches to successfully carry out comparative aging studies across the animal kingdom. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Comparative genome sequencing of drosophila pseudoobscura: Chromosomal, gene and cis-element evolution

Author

Richards, Stephen, Liu, Yue, Bettencourt, Brian R., Hradecky, Pavel, Letovsky, Stan, Nielsen, Rasmus, Thornton, Kevin, Todd, Melissa J., Chen, Rui, Meisel, Richard P., Couronne, Olivier, Hua, Sujun, Smith, Mark A., Bussemaker, Harmen J., van Batenburg, Marinus F., Howells, Sally L., Scherer, Steven E., Sodergren, Erica, Matthews, Beverly B., Crosby, Madeline A., Schroeder, Andrew J., Ortiz-Barrientos, Daniel, Rives, Catherine M., Metzker, Michael L., Muzny, Donna M., Scott, Graham, Steffen, David, Wheeler, David A., Worley, Kim C., Havlak, Paul, Durbin, K. James, Egan, Amy, Gill, Rachel, Hume, Jennifer, Morgan, Margaret B., Miner, George, Hamilton, Cerissa, Huang, Yanmei, Waldron, Lenee, Verduzco, Daniel, Blankenburg, Kerstin P., Dubchak, Inna, Noor, Mohamed A.F., Anderson, Wyatt, White, Kevin P., Clark, Andrew G., Schaeffer, Stephen W., Gelbart, William, Weinstock, George M., and Gibbs, Richard A.

Subjects
Applied life sciences
Abstract

The genome sequence of a second fruit fly, D. pseudoobscura, presents an opportunity for comparative analysis of a primary model organism D. melanogaster. The vast majority of Drosophila genes have remained on the same arm, but within each arm gene order has been extensively reshuffled leading to the identification of approximately 1300 syntenic blocks. A repetitive sequence is found in the D. pseudoobscura genome at many junctions between adjacent syntenic blocks. Analysis of this novel repetitive element family suggests that recombination between offset elements may have given rise to many paracentric inversions, thereby contributing to the shuffling of gene order in the D. pseudoobscura lineage. Based on sequence similarity and synteny, 10,516 putative orthologs have been identified as a core gene set conserved over 35 My since divergence. Genes expressed in the testes had higher amino acid sequence divergence than the genome wide average consistent with the rapid evolution of sex-specific proteins. Cis-regulatory sequences are more conserved than control sequences between the species but the difference is slight, suggesting that the evolution of cis-regulatory elements is flexible. Overall, a picture of repeat mediated chromosomal rearrangement, and high co-adaptation of both male genes and cis-regulatory sequences emerges as important themes of genome divergence between these species of Drosophila.

Published
2004

17. Sex‐specific aging in animals: Perspective and future directions

Author

Bronikowski, Anne M., primary, Meisel, Richard P., additional, Biga, Peggy R., additional, Walters, James R., additional, Mank, Judith E., additional, Larschan, Erica, additional, Wilkinson, Gerald S., additional, Valenzuela, Nicole, additional, Conard, Ashley Mae, additional, Magalhães, João Pedro, additional, Duan, Jingyue (Ellie), additional, Elias, Amy E., additional, Gamble, Tony, additional, Graze, Rita M., additional, Gribble, Kristin E., additional, Kreiling, Jill A., additional, and Riddle, Nicole C., additional

Published
2022
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18. Gene-Level, but Not Chromosome-Wide, Divergence between a Very Young House Fly Proto-Y Chromosome and Its Homologous Proto-X Chromosome

Author

Son, Jae Hak and Meisel, Richard P

Subjects
Male, Mitochondrial DNA, Gene Expression, allele-specific expression, Biology, AcademicSubjects/SCI01180, Y chromosome, Houseflies, Testis, Genetics, Homologous chromosome, Animals, sex chromosome evolution, Allele, Molecular Biology, Gene, Discoveries, Ecology, Evolution, Behavior and Systematics, X chromosome, Sex Chromosomes, Autosome, Diptera, AcademicSubjects/SCI01130, Chromosome, Biological Evolution, sexual conflict, insect, Female
Abstract

X and Y chromosomes are usually derived from a pair of homologous autosomes, which then diverge from each other over time. Although Y-specific features have been characterized in sex chromosomes of various ages, the earliest stages of Y chromosome evolution remain elusive. In particular, we do not know whether early stages of Y chromosome evolution consist of changes to individual genes or happen via chromosome-scale divergence from the X. To address this question, we quantified divergence between young proto-X and proto-Y chromosomes in the house fly, Musca domestica. We compared proto-sex chromosome sequence and gene expression between genotypic (XY) and sex-reversed (XX) males. We find evidence for sequence divergence between genes on the proto-X and proto-Y, including five genes with mitochondrial functions. There is also an excess of genes with divergent expression between the proto-X and proto-Y, but the number of genes is small. This suggests that individual proto-Y genes, but not the entire proto-Y chromosome, have diverged from the proto-X. We identified one gene, encoding an axonemal dynein assembly factor (which functions in sperm motility), that has higher expression in XY males than XX males because of a disproportionate contribution of the proto-Y allele to gene expression. The upregulation of the proto-Y allele may be favored in males because of this gene’s function in spermatogenesis. The evolutionary divergence between proto-X and proto-Y copies of this gene, as well as the mitochondrial genes, is consistent with selection in males affecting the evolution of individual genes during early Y chromosome evolution.

Published
2020

19. Ecology and the Evolution of Sex Chromosomes

Author

Meisel, Richard

Subjects
Male, Sex Chromosomes, bepress|Life Sciences|Genetics and Genomics, Inheritance Patterns, Sex Determination Processes, bepress|Life Sciences|Ecology and Evolutionary Biology, Evolution, Molecular, Phenotype, bepress|Life Sciences, Animals, Female, Selection, Genetic, bepress|Life Sciences|Ecology and Evolutionary Biology|Evolution, Ecology, Evolution, Behavior and Systematics
Abstract

Sex chromosomes are common features of animal genomes, often carrying a sex determination gene responsible for initiating the development of sexually dimorphic traits. The specific chromosome that serves as the sex chromosome differs across taxa as a result of fusions between sex chromosomes and autosomes, along with sex chromosome turnover-autosomes becoming sex chromosomes and sex chromosomes 'reverting' back to autosomes. In addition, the types of genes on sex chromosomes frequently differ from the autosomes, and genes on sex chromosomes often evolve faster than autosomal genes. Sex-specific selection pressures, such as sexual antagonism and sexual selection, are hypothesized to be responsible for sex chromosome turnovers, the unique gene content of sex chromosomes and the accelerated evolutionary rates of genes on sex chromosomes. Sex-specific selection has pronounced effects on sex chromosomes because their sex-biased inheritance can tilt the balance of selection in favour of one sex. Despite the general consensus that sex-specific selection affects sex chromosome evolution, most population genetic models are agnostic as to the specific sources of these sex-specific selection pressures, and many of the details about the effects of sex-specific selection remain unresolved. Here, I review the evidence that ecological factors, including variable selection across heterogeneous environments and conflicts between sexual and natural selection, can be important determinants of sex-specific selection pressures that shape sex chromosome evolution. I also explain how studying the ecology of sex chromosome evolution can help us understand important and unresolved aspects of both sex chromosome evolution and sex-specific selection.

Published
2021

24. Supplemental Material for Meisel, 2021

Author

Meisel, Richard P.

Subjects
Evolutionary Biology, FOS: Biological sciences, humanities
Abstract

Supplemental code, figures, table, and methods for "The maintenance of polygenic sex determination depends on the dominance of fitness effects which are predictive of the role of sexual antagonism" by Richard P Meisel.

Published
2021
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30. Polymorphic house fly male-determining proto-Y chromosomes affect male behaviors in ways that are consistent with their distributions in natural populations

Author

Delclos, Pablo J., Adhikari, Kiran, Matuk, Anna, Presley, Rebecca, Oderhowho, Alexander, Hassan, Tomi, Tran, Jessica, and Meisel, Richard P.

Subjects
ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, ComputingMethodologies_GENERAL
Abstract

Presentation of Poster 1256B at TAGC 2020 Online. File includes a PDF of the poster (Delclos et al TAGC 2020 Poster.pdf).

Published
2020
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33. Population Genomics Reveals Incipient Speciation, Introgression, and Adaptation in the African Mona Monkey (Cercopithecus mona)

Author

Ayoola, Adeola Oluwakemi, primary, Zhang, Bao-Lin, additional, Meisel, Richard P, additional, Nneji, Lotanna M, additional, Shao, Yong, additional, Morenikeji, Olanrewaju B, additional, Adeola, Adeniyi C, additional, Ng’ang’a, Said I, additional, Ogunjemite, Babafemi G, additional, Okeyoyin, Agboola O, additional, Roos, Christian, additional, and Wu, Dong-Dong, additional

Published
2020
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40. Additional file 13: of Comparative genomic analysis of six Glossina genomes, vectors of African trypanosomes

Author

Attardo, Geoffrey, Adly Abd-Alla, Acosta-Serrano, Alvaro, Allen, James, Bateta, Rosemary, Benoit, Joshua, Bourtzis, Kostas, Caers, Jelle, Caljon, Guy, Christensen, Mikkel, Farrow, David, Friedrich, Markus, Aurélie Hua-Van, Jennings, Emily, Larkin, Denis, Lawson, Daniel, Lehane, Michael, Lenis, Vasileios, Lowy-Gallego, Ernesto, Macharia, Rosaline, Malacrida, Anna, Marco, Heather, Masiga, Daniel, Maslen, Gareth, Matetovici, Irina, Meisel, Richard, Meki, Irene, Michalkova, Veronika, Miller, Wolfgang, Minx, Patrick, Mireji, Paul, Ometto, Lino, Parker, Andrew, Rio, Rita, Rose, Clair, Rosendale, Andrew, Rota-Stabelli, Omar, Savini, Grazia, Schoofs, Liliane, Scolari, Francesca, Swain, Martin, Takáč, Peter, Tomlinson, Chad, Tsiamis, George, Abbeele, Jan, Vigneron, Aurelien, Jingwen Wang, Warren, Wesley, Waterhouse, Robert, Weirauch, Matthew, Weiss, Brian, Wilson, Richard, Zhao, Xin, and Aksoy, Serap

Abstract

Review history. (DOCX 31 kb)

Published
2019
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41. Supplementary Material for Son et al., 2019

Author

Son, Jae Hak, Kohlbrenner, Tea, Svenia Heinze, Beukeboom, Leo, Bopp, Daniel, and Meisel, Richard P.

Subjects
0303 health sciences, 03 medical and health sciences, 0302 clinical medicine, FOS: Biological sciences, fungi, Genetics, 030217 neurology & neurosurgery, 030304 developmental biology
Abstract

Supplementary information for Son et al. 2019 submission to Genetics: "Minimal effects of proto-Y chromosomes on house fly gene expression in spite of evidence that selection maintains stable polygenic sex determination."

Published
2019
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42. MOESM3 of The X chromosome of the German cockroach, Blattella germanica, is homologous to a fly X chromosome despite 400 million years divergence

Author

Meisel, Richard, Delclos, Pablo, and Wexler, Judith

Abstract

Additional file 3 Methods and results of qPCR validation of 2 candidate X-linked cockroach genes. Supporting Data, Table S1, Figure S1. Table S1: PCR primers used to test for X-linkage in qPCR assay. Figure S1: Relative concentrations of BGER000638 and BGER000663 in male and female B. germanica.

Published
2019
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43. Comparative genome sequencing of Drosophila pseudoobscura: Chromosomal, gene, and cis-element evolution

Author

Richards, Stephen, Metzker, Michael L., Bettencourt, Brian R., Yue Liu, Muzny, Donna M., Hradecky, Pavel, Scott, Graham, Letovsky, Stan, Nielsen, Rasmus, Meisel, Richard P., Thornton, Kevin, Steffen, David, Hubisz, Melissa J., Wheeler, David A., Rui Chen, Worley, Kim C., Couronne, Olivier, Durbin, K. James, Sujun Hua, Egan, Amy, Smith, Mark A., Gill, Rachel, Peili Zhang, Hume, Jennifer, Jing Liu, Havlak, Paul, Bussemaker, Harmen J., Sodergren, Erica, Batenburg, Marinus F. van, Morgan, Margaret B., Howells, Sally L., Miner, George, Scherer, Steven E., Matthews, Beverly B., Hamilton, Cerissa, Schroeder, Andrew J., Crosby, Madeline A., Yanmei Huang, Ortiz-Barrientos, Daniel, Waldron, Lenee, Rives, Catharine M., and Verduzco, Daniel

Subjects
Nucleotide sequence -- Research, Drosophila -- Genetic aspects, Genetic research, Health
Abstract

The genome of a second Drosophila species, Drosophila pseudoobscura, is sequenced and is compared to the genome sequence of Drosophila melanogaster, a primary model organism. A repetitive sequence is found in the Drosophila pseudoobscura genome at many junctions between adjacent syntentic blocks.

Published
2005

46. Functional genomics of the stable fly,Stomoxys calcitrans, reveals mechanisms underlying reproduction, host interactions, and novel targets for pest control

Author

Olafson, Pia U., primary, Aksoy, Serap, additional, Attardo, Geoffrey M., additional, Buckmeier, Greta, additional, Chen, Xiaoting, additional, Coates, Craig J., additional, Davis, Megan, additional, Dykema, Justin, additional, Emrich, Scott J., additional, Friedrich, Markus, additional, Holmes, Christopher J., additional, Ioannidis, Panagiotis, additional, Jansen, Evan N., additional, Jennings, Emily C., additional, Lawson, Daniel, additional, Martinson, Ellen O., additional, Maslen, Gareth L., additional, Meisel, Richard P., additional, Murphy, Terence D., additional, Nayduch, Dana, additional, Nelson, David R., additional, Oyen, Kennan J., additional, Raszick, Tyler J., additional, Ribeiro, José M. C., additional, Robertson, Hugh M., additional, Rosendale, Andrew J., additional, Sackton, Timothy B., additional, Swiger, Sonja L., additional, Sze, Sing-Hoi, additional, Tarone, Aaron M., additional, Taylor, David B., additional, Warren, Wesley C., additional, Waterhouse, Robert M., additional, Weirauch, Matthew T., additional, Werren, John H., additional, Wilson, Richard K., additional, Zdobnov, Evgeny M., additional, and Benoit, Joshua B., additional

Published
2019
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47. The Glossina Genome Cluster: Comparative Genomic Analysis of the Vectors of African Trypanosomes

Author

Attardo, Geoffrey Michael, primary, Abd-Alla, Adly M.M., additional, Acosta-Serrano, Alvaro, additional, Allen, James E, additional, Bateta, Rosemary, additional, Benoit, Joshua, additional, Bourtzis, Kostas, additional, Caers, Jelle, additional, Caljon, Guy, additional, Christensen, Mikkel B., additional, Farrow, David W., additional, Friedrich, Markus, additional, Hua-Van, Aurélie, additional, Jennings, Emily C., additional, Larkin, Denis M, additional, Lawson, Daniel, additional, Lehane, Michael J., additional, Lenis, Vasileios P., additional, Lowy-Gallego, Ernesto, additional, Macharia, Rosaline W., additional, Malacrida, Anna R., additional, Marco, Heather G., additional, Masiga, Daniel, additional, Maslen, Gareth L., additional, Matetovici, Irina, additional, Meisel, Richard P., additional, Meki, Irene, additional, Michalkova, Veronika, additional, Miller, Wolfgang J., additional, Minx, Patrick, additional, Mireji, Paul O., additional, Ometto, Lino, additional, Parker, Andrew G., additional, Rio, Rita, additional, Rose, Clair, additional, Rosendale, Andrew J., additional, Rota Stabelli, Omar, additional, Savini, Grazia, additional, Schoofs, Liliane, additional, Scolari, Francesca, additional, Swain, Martin T., additional, Takáč, Peter, additional, Tomlinson, Chad, additional, Tsiamis, George, additional, Van Den Abbeele, Jan, additional, Vigneron, Aurélien, additional, Wang, Jingwen, additional, Warren, Wesley C., additional, Waterhouse, Robert M., additional, Weirauch, Matthew T., additional, Weiss, Brian L., additional, Wilson, Richard K., additional, Zhao, Xin, additional, and Aksoy, Serap, additional

Published
2019
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49. Population Genomics Reveals Incipient Speciation, Introgression, and Adaptation in the African Mona Monkey (Cercopithecus mona).

Author

Ayoola, Adeola Oluwakemi, Zhang, Bao-Lin, Meisel, Richard P, Nneji, Lotanna M, Shao, Yong, Morenikeji, Olanrewaju B, Adeola, Adeniyi C, Ng'ang'a, Said I, Ogunjemite, Babafemi G, Okeyoyin, Agboola O, Roos, Christian, and Wu, Dong-Dong

Subjects
CERCOPITHECUS, GENOMES, INTROGRESSION (Genetics), IMMUNODEFICIENCY, TROPICAL forests
Abstract

Guenons (tribe Cercopithecini) are the most widely distributed nonhuman primate in the tropical forest belt of Africa and show considerable phenotypic, taxonomic, and ecological diversity. However, genomic information for most species within this group is still lacking. Here, we present a high-quality de novo genome (total 2.90 Gb, contig N50 equal to 22.7 Mb) of the mona monkey (Cercopithecus mona), together with genome resequencing data of 13 individuals sampled across Nigeria. Our results showed differentiation between populations from East and West of the Niger River ∼84 ka and potential ancient introgression in the East population from other mona group species. The PTPRK , FRAS1 , BNC2 , and EDN3 genes related to pigmentation displayed signals of introgression in the East population. Genomic scans suggest that immunity genes such as AKT3 and IL13 (possibly involved in simian immunodeficiency virus defense), and G6PD , a gene involved in malaria resistance, are under positive natural selection. Our study gives insights into differentiation, natural selection, and introgression in guenons. [ABSTRACT FROM AUTHOR]

Published
2021
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50. Gene-Level, but Not Chromosome-Wide, Divergence between a Very Young House Fly Proto-Y Chromosome and Its Homologous Proto-X Chromosome.

Author

Son, Jae Hak and Meisel, Richard P

Subjects
HOMOLOGOUS chromosomes, DIPTERA, SEX chromosomes, GENE expression, GENETICS of spermatogenesis
Abstract

X and Y chromosomes are usually derived from a pair of homologous autosomes, which then diverge from each other over time. Although Y-specific features have been characterized in sex chromosomes of various ages, the earliest stages of Y chromosome evolution remain elusive. In particular, we do not know whether early stages of Y chromosome evolution consist of changes to individual genes or happen via chromosome-scale divergence from the X. To address this question, we quantified divergence between young proto-X and proto-Y chromosomes in the house fly, Musca domestica. We compared proto-sex chromosome sequence and gene expression between genotypic (XY) and sex-reversed (XX) males. We find evidence for sequence divergence between genes on the proto-X and proto-Y, including five genes with mitochondrial functions. There is also an excess of genes with divergent expression between the proto-X and proto-Y, but the number of genes is small. This suggests that individual proto-Y genes, but not the entire proto-Y chromosome, have diverged from the proto-X. We identified one gene, encoding an axonemal dynein assembly factor (which functions in sperm motility), that has higher expression in XY males than XX males because of a disproportionate contribution of the proto-Y allele to gene expression. The upregulation of the proto-Y allele may be favored in males because of this gene's function in spermatogenesis. The evolutionary divergence between proto-X and proto-Y copies of this gene, as well as the mitochondrial genes, is consistent with selection in males affecting the evolution of individual genes during early Y chromosome evolution. [ABSTRACT FROM AUTHOR]

Published
2021
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