Rapid Karyotype Evolution in Lasiopodomys Involved at Least Two Autosome – Sex Chromosome Translocations

The generic status of Lasiopodomys and its division into subgenera Lasiopodomys (L. mandarinus, L. brandtii) and Stenocranius (L. gregalis, L. raddei) are not generally accepted because of contradictions between the morphological and molecular data. To obtain cytogenetic evidence for the Lasiopodomy...

Descripción completa

Detalles Bibliográficos
Autores principales: Gladkikh, Olga L., Romanenko, Svetlana A., Lemskaya, Natalya A., Serdyukova, Natalya A., O’Brien, Patricia C. M., Kovalskaya, Julia M., Smorkatcheva, Antonina V., Golenishchev, Feodor N., Perelman, Polina L., Trifonov, Vladimir A., Ferguson-Smith, Malcolm A., Yang, Fengtang, Graphodatsky, Alexander S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5147937/
https://www.ncbi.nlm.nih.gov/pubmed/27936177
http://dx.doi.org/10.1371/journal.pone.0167653
_version_ 1782473764706975744
author Gladkikh, Olga L.
Romanenko, Svetlana A.
Lemskaya, Natalya A.
Serdyukova, Natalya A.
O’Brien, Patricia C. M.
Kovalskaya, Julia M.
Smorkatcheva, Antonina V.
Golenishchev, Feodor N.
Perelman, Polina L.
Trifonov, Vladimir A.
Ferguson-Smith, Malcolm A.
Yang, Fengtang
Graphodatsky, Alexander S.
author_facet Gladkikh, Olga L.
Romanenko, Svetlana A.
Lemskaya, Natalya A.
Serdyukova, Natalya A.
O’Brien, Patricia C. M.
Kovalskaya, Julia M.
Smorkatcheva, Antonina V.
Golenishchev, Feodor N.
Perelman, Polina L.
Trifonov, Vladimir A.
Ferguson-Smith, Malcolm A.
Yang, Fengtang
Graphodatsky, Alexander S.
author_sort Gladkikh, Olga L.
collection PubMed
description The generic status of Lasiopodomys and its division into subgenera Lasiopodomys (L. mandarinus, L. brandtii) and Stenocranius (L. gregalis, L. raddei) are not generally accepted because of contradictions between the morphological and molecular data. To obtain cytogenetic evidence for the Lasiopodomys genus and its subgenera and to test the autosome to sex chromosome translocation hypothesis of sex chromosome complex origin in L. mandarinus proposed previously, we hybridized chromosome painting probes from the field vole (Microtus agrestis, MAG) and the Arctic lemming (Dicrostonyx torquatus, DTO) onto the metaphases of a female Mandarin vole (L. mandarinus, 2n = 47) and a male Brandt's vole (L. brandtii, 2n = 34). In addition, we hybridized Arctic lemming painting probes onto chromosomes of a female narrow-headed vole (L. gregalis, 2n = 36). Cross-species painting revealed three cytogenetic signatures (MAG12/18, 17a/19, and 22/24) that could validate the genus Lasiopodomys and indicate the evolutionary affinity of L. gregalis to the genus. Moreover, all three species retained the associations MAG1bc/17b and 2/8a detected previously in karyotypes of all arvicolins studied. The associations MAG2a/8a/19b, 8b/21, 9b/23, 11/13b, 12b/18, 17a/19a, and 5 fissions of ancestral segments appear to be characteristic for the subgenus Lasiopodomys. We also validated the autosome to sex chromosome translocation hypothesis on the origin of complex sex chromosomes in L. mandarinus. Two translocations of autosomes onto the ancestral X chromosome in L. mandarinus led to a complex of neo-X(1), neo-X(2), and neo-X(3) elements. Our results demonstrate that genus Lasiopodomys represents a striking example of rapid chromosome evolution involving both autosomes and sex chromosomes. Multiple reshuffling events including Robertsonian fusions, chromosomal fissions, inversions and heterochromatin expansion have led to the formation of modern species karyotypes in a very short time, about 2.4 MY.
format Online
Article
Text
id pubmed-5147937
institution National Center for Biotechnology Information
language English
publishDate 2016
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-51479372016-12-28 Rapid Karyotype Evolution in Lasiopodomys Involved at Least Two Autosome – Sex Chromosome Translocations Gladkikh, Olga L. Romanenko, Svetlana A. Lemskaya, Natalya A. Serdyukova, Natalya A. O’Brien, Patricia C. M. Kovalskaya, Julia M. Smorkatcheva, Antonina V. Golenishchev, Feodor N. Perelman, Polina L. Trifonov, Vladimir A. Ferguson-Smith, Malcolm A. Yang, Fengtang Graphodatsky, Alexander S. PLoS One Research Article The generic status of Lasiopodomys and its division into subgenera Lasiopodomys (L. mandarinus, L. brandtii) and Stenocranius (L. gregalis, L. raddei) are not generally accepted because of contradictions between the morphological and molecular data. To obtain cytogenetic evidence for the Lasiopodomys genus and its subgenera and to test the autosome to sex chromosome translocation hypothesis of sex chromosome complex origin in L. mandarinus proposed previously, we hybridized chromosome painting probes from the field vole (Microtus agrestis, MAG) and the Arctic lemming (Dicrostonyx torquatus, DTO) onto the metaphases of a female Mandarin vole (L. mandarinus, 2n = 47) and a male Brandt's vole (L. brandtii, 2n = 34). In addition, we hybridized Arctic lemming painting probes onto chromosomes of a female narrow-headed vole (L. gregalis, 2n = 36). Cross-species painting revealed three cytogenetic signatures (MAG12/18, 17a/19, and 22/24) that could validate the genus Lasiopodomys and indicate the evolutionary affinity of L. gregalis to the genus. Moreover, all three species retained the associations MAG1bc/17b and 2/8a detected previously in karyotypes of all arvicolins studied. The associations MAG2a/8a/19b, 8b/21, 9b/23, 11/13b, 12b/18, 17a/19a, and 5 fissions of ancestral segments appear to be characteristic for the subgenus Lasiopodomys. We also validated the autosome to sex chromosome translocation hypothesis on the origin of complex sex chromosomes in L. mandarinus. Two translocations of autosomes onto the ancestral X chromosome in L. mandarinus led to a complex of neo-X(1), neo-X(2), and neo-X(3) elements. Our results demonstrate that genus Lasiopodomys represents a striking example of rapid chromosome evolution involving both autosomes and sex chromosomes. Multiple reshuffling events including Robertsonian fusions, chromosomal fissions, inversions and heterochromatin expansion have led to the formation of modern species karyotypes in a very short time, about 2.4 MY. Public Library of Science 2016-12-09 /pmc/articles/PMC5147937/ /pubmed/27936177 http://dx.doi.org/10.1371/journal.pone.0167653 Text en © 2016 Gladkikh et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Gladkikh, Olga L.
Romanenko, Svetlana A.
Lemskaya, Natalya A.
Serdyukova, Natalya A.
O’Brien, Patricia C. M.
Kovalskaya, Julia M.
Smorkatcheva, Antonina V.
Golenishchev, Feodor N.
Perelman, Polina L.
Trifonov, Vladimir A.
Ferguson-Smith, Malcolm A.
Yang, Fengtang
Graphodatsky, Alexander S.
Rapid Karyotype Evolution in Lasiopodomys Involved at Least Two Autosome – Sex Chromosome Translocations
title Rapid Karyotype Evolution in Lasiopodomys Involved at Least Two Autosome – Sex Chromosome Translocations
title_full Rapid Karyotype Evolution in Lasiopodomys Involved at Least Two Autosome – Sex Chromosome Translocations
title_fullStr Rapid Karyotype Evolution in Lasiopodomys Involved at Least Two Autosome – Sex Chromosome Translocations
title_full_unstemmed Rapid Karyotype Evolution in Lasiopodomys Involved at Least Two Autosome – Sex Chromosome Translocations
title_short Rapid Karyotype Evolution in Lasiopodomys Involved at Least Two Autosome – Sex Chromosome Translocations
title_sort rapid karyotype evolution in lasiopodomys involved at least two autosome – sex chromosome translocations
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5147937/
https://www.ncbi.nlm.nih.gov/pubmed/27936177
http://dx.doi.org/10.1371/journal.pone.0167653
work_keys_str_mv AT gladkikholgal rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT romanenkosvetlanaa rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT lemskayanatalyaa rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT serdyukovanatalyaa rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT obrienpatriciacm rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT kovalskayajuliam rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT smorkatchevaantoninav rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT golenishchevfeodorn rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT perelmanpolinal rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT trifonovvladimira rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT fergusonsmithmalcolma rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT yangfengtang rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations
AT graphodatskyalexanders rapidkaryotypeevolutioninlasiopodomysinvolvedatleasttwoautosomesexchromosometranslocations

Ejemplares similares