Loss of centromere function drives karyotype evolution in closely related Malassezia species

Sundar Ram Sankaranarayanan; Giuseppe Ianiri; Marco A Coelho; Md Hashim Reza; Bhagya C Thimmappa; Promit Ganguly; Rakesh Netha Vadnala; Sheng Sun; Rahul Siddharthan; Christian Tellgren-Roth; Thomas L Dawson Jnr; Joseph Heitman; Kaustuv Sanyal

doi:10.7554/eLife.53944

eLife (Jan 2020)

Loss of centromere function drives karyotype evolution in closely related Malassezia species

Sundar Ram Sankaranarayanan,
Giuseppe Ianiri,
Marco A Coelho,
Md Hashim Reza,
Bhagya C Thimmappa,
Promit Ganguly,
Rakesh Netha Vadnala,
Sheng Sun,
Rahul Siddharthan,
Christian Tellgren-Roth,
Thomas L Dawson Jnr,
Joseph Heitman,
Kaustuv Sanyal

Affiliations

Sundar Ram Sankaranarayanan: Molecular Mycology Laboratory, Molecular Biology and Genetics Unit, Jawaharlal Nehru Centre for Advanced Scientific Research, Bengaluru, India
Giuseppe Ianiri: ORCiD; Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, United States
Marco A Coelho: Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, United States
Md Hashim Reza: Molecular Mycology Laboratory, Molecular Biology and Genetics Unit, Jawaharlal Nehru Centre for Advanced Scientific Research, Bengaluru, India
Bhagya C Thimmappa: Molecular Mycology Laboratory, Molecular Biology and Genetics Unit, Jawaharlal Nehru Centre for Advanced Scientific Research, Bengaluru, India
Promit Ganguly: Molecular Mycology Laboratory, Molecular Biology and Genetics Unit, Jawaharlal Nehru Centre for Advanced Scientific Research, Bengaluru, India
Rakesh Netha Vadnala: The Institute of Mathematical Sciences/HBNI, Chennai, India
Sheng Sun: Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, United States
Rahul Siddharthan: ORCiD; The Institute of Mathematical Sciences/HBNI, Chennai, India
Christian Tellgren-Roth: National Genomics Infrastructure, Science for Life Laboratory, Department of Immunology, Genetics and Pathology, Uppsala University, Uppsala, Sweden
Thomas L Dawson Jnr: Skin Research Institute Singapore, Agency for Science, Technology and Research (A*STAR), Singapore, Singapore; Department of Drug Discovery, Medical University of South Carolina, School of Pharmacy, Charleston, United States
Joseph Heitman: Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, United States
Kaustuv Sanyal: ORCiD; Molecular Mycology Laboratory, Molecular Biology and Genetics Unit, Jawaharlal Nehru Centre for Advanced Scientific Research, Bengaluru, India

DOI: https://doi.org/10.7554/eLife.53944
Journal volume & issue: Vol. 9

Abstract

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Genomic rearrangements associated with speciation often result in variation in chromosome number among closely related species. Malassezia species show variable karyotypes ranging between six and nine chromosomes. Here, we experimentally identified all eight centromeres in M. sympodialis as 3–5-kb long kinetochore-bound regions that span an AT-rich core and are depleted of the canonical histone H3. Centromeres of similar sequence features were identified as CENP-A-rich regions in Malassezia furfur, which has seven chromosomes, and histone H3 depleted regions in Malassezia slooffiae and Malassezia globosa with nine chromosomes each. Analysis of synteny conservation across centromeres with newly generated chromosome-level genome assemblies suggests two distinct mechanisms of chromosome number reduction from an inferred nine-chromosome ancestral state: (a) chromosome breakage followed by loss of centromere DNA and (b) centromere inactivation accompanied by changes in DNA sequence following chromosome–chromosome fusion. We propose that AT-rich centromeres drive karyotype diversity in the Malassezia species complex through breakage and inactivation.

Published in eLife

ISSN: 2050-084X (Online)
Publisher: eLife Sciences Publications Ltd
Country of publisher: United Kingdom
LCC subjects: Medicine; Science: Biology (General)
Website: https://elifesciences.org

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