Leishmania Genome Dynamics during Environmental Adaptation Reveal Strain-Specific Differences in Gene Copy Number Variation, Karyotype Instability, and Telomeric Amplification

Protozoan parasites of the genus Leishmania adapt to environmental change through chromosome and gene copy number variations. Only little is known about external or intrinsic factors that govern Leishmania genomic adaptation. Here, by conducting longitudinal genome analyses of 10 new Leishmania clin...

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Autores principales: Bussotti, Giovanni, Gouzelou, Evi, Côrtes Boité, Mariana, Kherachi, Ihcen, Harrat, Zoubir, Eddaikra, Naouel, Mottram, Jeremy C., Antoniou, Maria, Christodoulou, Vasiliki, Bali, Aymen, Guerfali, Fatma Z., Laouini, Dhafer, Mukhtar, Maowia, Dumetz, Franck, Dujardin, Jean-Claude, Smirlis, Despina, Lechat, Pierre, Pescher, Pascale, El Hamouchi, Adil, Lemrani, Meryem, Chicharro, Carmen, Llanes-Acevedo, Ivonne Pamela, Botana, Laura, Cruz, Israel, Moreno, Javier, Jeddi, Fakhri, Aoun, Karim, Bouratbine, Aïda, Cupolillo, Elisa, Späth, Gerald F.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6222132/
https://www.ncbi.nlm.nih.gov/pubmed/30401775
http://dx.doi.org/10.1128/mBio.01399-18
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author Bussotti, Giovanni
Gouzelou, Evi
Côrtes Boité, Mariana
Kherachi, Ihcen
Harrat, Zoubir
Eddaikra, Naouel
Mottram, Jeremy C.
Antoniou, Maria
Christodoulou, Vasiliki
Bali, Aymen
Guerfali, Fatma Z.
Laouini, Dhafer
Mukhtar, Maowia
Dumetz, Franck
Dujardin, Jean-Claude
Smirlis, Despina
Lechat, Pierre
Pescher, Pascale
El Hamouchi, Adil
Lemrani, Meryem
Chicharro, Carmen
Llanes-Acevedo, Ivonne Pamela
Botana, Laura
Cruz, Israel
Moreno, Javier
Jeddi, Fakhri
Aoun, Karim
Bouratbine, Aïda
Cupolillo, Elisa
Späth, Gerald F.
author_facet Bussotti, Giovanni
Gouzelou, Evi
Côrtes Boité, Mariana
Kherachi, Ihcen
Harrat, Zoubir
Eddaikra, Naouel
Mottram, Jeremy C.
Antoniou, Maria
Christodoulou, Vasiliki
Bali, Aymen
Guerfali, Fatma Z.
Laouini, Dhafer
Mukhtar, Maowia
Dumetz, Franck
Dujardin, Jean-Claude
Smirlis, Despina
Lechat, Pierre
Pescher, Pascale
El Hamouchi, Adil
Lemrani, Meryem
Chicharro, Carmen
Llanes-Acevedo, Ivonne Pamela
Botana, Laura
Cruz, Israel
Moreno, Javier
Jeddi, Fakhri
Aoun, Karim
Bouratbine, Aïda
Cupolillo, Elisa
Späth, Gerald F.
author_sort Bussotti, Giovanni
collection PubMed
description Protozoan parasites of the genus Leishmania adapt to environmental change through chromosome and gene copy number variations. Only little is known about external or intrinsic factors that govern Leishmania genomic adaptation. Here, by conducting longitudinal genome analyses of 10 new Leishmania clinical isolates, we uncovered important differences in gene copy number among genetically highly related strains and revealed gain and loss of gene copies as potential drivers of long-term environmental adaptation in the field. In contrast, chromosome rather than gene amplification was associated with short-term environmental adaptation to in vitro culture. Karyotypic solutions were highly reproducible but unique for a given strain, suggesting that chromosome amplification is under positive selection and dependent on species- and strain-specific intrinsic factors. We revealed a progressive increase in read depth towards the chromosome ends for various Leishmania isolates, which may represent a nonclassical mechanism of telomere maintenance that can preserve integrity of chromosome ends during selection for fast in vitro growth. Together our data draw a complex picture of Leishmania genomic adaptation in the field and in culture, which is driven by a combination of intrinsic genetic factors that generate strain-specific phenotypic variations, which are under environmental selection and allow for fitness gain.
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spelling pubmed-62221322018-11-09 Leishmania Genome Dynamics during Environmental Adaptation Reveal Strain-Specific Differences in Gene Copy Number Variation, Karyotype Instability, and Telomeric Amplification Bussotti, Giovanni Gouzelou, Evi Côrtes Boité, Mariana Kherachi, Ihcen Harrat, Zoubir Eddaikra, Naouel Mottram, Jeremy C. Antoniou, Maria Christodoulou, Vasiliki Bali, Aymen Guerfali, Fatma Z. Laouini, Dhafer Mukhtar, Maowia Dumetz, Franck Dujardin, Jean-Claude Smirlis, Despina Lechat, Pierre Pescher, Pascale El Hamouchi, Adil Lemrani, Meryem Chicharro, Carmen Llanes-Acevedo, Ivonne Pamela Botana, Laura Cruz, Israel Moreno, Javier Jeddi, Fakhri Aoun, Karim Bouratbine, Aïda Cupolillo, Elisa Späth, Gerald F. mBio Research Article Protozoan parasites of the genus Leishmania adapt to environmental change through chromosome and gene copy number variations. Only little is known about external or intrinsic factors that govern Leishmania genomic adaptation. Here, by conducting longitudinal genome analyses of 10 new Leishmania clinical isolates, we uncovered important differences in gene copy number among genetically highly related strains and revealed gain and loss of gene copies as potential drivers of long-term environmental adaptation in the field. In contrast, chromosome rather than gene amplification was associated with short-term environmental adaptation to in vitro culture. Karyotypic solutions were highly reproducible but unique for a given strain, suggesting that chromosome amplification is under positive selection and dependent on species- and strain-specific intrinsic factors. We revealed a progressive increase in read depth towards the chromosome ends for various Leishmania isolates, which may represent a nonclassical mechanism of telomere maintenance that can preserve integrity of chromosome ends during selection for fast in vitro growth. Together our data draw a complex picture of Leishmania genomic adaptation in the field and in culture, which is driven by a combination of intrinsic genetic factors that generate strain-specific phenotypic variations, which are under environmental selection and allow for fitness gain. American Society for Microbiology 2018-11-06 /pmc/articles/PMC6222132/ /pubmed/30401775 http://dx.doi.org/10.1128/mBio.01399-18 Text en Copyright © 2018 Bussotti et al. https://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Bussotti, Giovanni
Gouzelou, Evi
Côrtes Boité, Mariana
Kherachi, Ihcen
Harrat, Zoubir
Eddaikra, Naouel
Mottram, Jeremy C.
Antoniou, Maria
Christodoulou, Vasiliki
Bali, Aymen
Guerfali, Fatma Z.
Laouini, Dhafer
Mukhtar, Maowia
Dumetz, Franck
Dujardin, Jean-Claude
Smirlis, Despina
Lechat, Pierre
Pescher, Pascale
El Hamouchi, Adil
Lemrani, Meryem
Chicharro, Carmen
Llanes-Acevedo, Ivonne Pamela
Botana, Laura
Cruz, Israel
Moreno, Javier
Jeddi, Fakhri
Aoun, Karim
Bouratbine, Aïda
Cupolillo, Elisa
Späth, Gerald F.
Leishmania Genome Dynamics during Environmental Adaptation Reveal Strain-Specific Differences in Gene Copy Number Variation, Karyotype Instability, and Telomeric Amplification
title Leishmania Genome Dynamics during Environmental Adaptation Reveal Strain-Specific Differences in Gene Copy Number Variation, Karyotype Instability, and Telomeric Amplification
title_full Leishmania Genome Dynamics during Environmental Adaptation Reveal Strain-Specific Differences in Gene Copy Number Variation, Karyotype Instability, and Telomeric Amplification
title_fullStr Leishmania Genome Dynamics during Environmental Adaptation Reveal Strain-Specific Differences in Gene Copy Number Variation, Karyotype Instability, and Telomeric Amplification
title_full_unstemmed Leishmania Genome Dynamics during Environmental Adaptation Reveal Strain-Specific Differences in Gene Copy Number Variation, Karyotype Instability, and Telomeric Amplification
title_short Leishmania Genome Dynamics during Environmental Adaptation Reveal Strain-Specific Differences in Gene Copy Number Variation, Karyotype Instability, and Telomeric Amplification
title_sort leishmania genome dynamics during environmental adaptation reveal strain-specific differences in gene copy number variation, karyotype instability, and telomeric amplification
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6222132/
https://www.ncbi.nlm.nih.gov/pubmed/30401775
http://dx.doi.org/10.1128/mBio.01399-18
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