Standard

Molecular cytogenetic analysis reveals the existence of two independent neo-XY sex chromosome systems in Anatolian Pamphagidae grasshoppers. / Jetybayev, Ilyas Yerkinovich; Bugrov, Alexander Gennadievich; Ünal, Mustafa et al.

In: BMC Evolutionary Biology, Vol. 17, No. Suppl 1, 20, 07.02.2017, p. 1-12.

Research output: Contribution to journalArticlepeer-review

Harvard

Jetybayev, IY, Bugrov, AG, Ünal, M, Buleu, OG & Rubtsov, NB 2017, 'Molecular cytogenetic analysis reveals the existence of two independent neo-XY sex chromosome systems in Anatolian Pamphagidae grasshoppers', BMC Evolutionary Biology, vol. 17, no. Suppl 1, 20, pp. 1-12. https://doi.org/10.1186/s12862-016-0868-9

APA

Jetybayev, I. Y., Bugrov, A. G., Ünal, M., Buleu, O. G., & Rubtsov, N. B. (2017). Molecular cytogenetic analysis reveals the existence of two independent neo-XY sex chromosome systems in Anatolian Pamphagidae grasshoppers. BMC Evolutionary Biology, 17(Suppl 1), 1-12. [20]. https://doi.org/10.1186/s12862-016-0868-9

Vancouver

Jetybayev IY, Bugrov AG, Ünal M, Buleu OG, Rubtsov NB. Molecular cytogenetic analysis reveals the existence of two independent neo-XY sex chromosome systems in Anatolian Pamphagidae grasshoppers. BMC Evolutionary Biology. 2017 Feb 7;17(Suppl 1):1-12. 20. doi: 10.1186/s12862-016-0868-9

Author

Jetybayev, Ilyas Yerkinovich ; Bugrov, Alexander Gennadievich ; Ünal, Mustafa et al. / Molecular cytogenetic analysis reveals the existence of two independent neo-XY sex chromosome systems in Anatolian Pamphagidae grasshoppers. In: BMC Evolutionary Biology. 2017 ; Vol. 17, No. Suppl 1. pp. 1-12.

BibTeX

@article{2ba3088691ec493f9bea389a2af48da9,
title = "Molecular cytogenetic analysis reveals the existence of two independent neo-XY sex chromosome systems in Anatolian Pamphagidae grasshoppers",
abstract = "Background: Neo-XY sex chromosome determination is a rare event in short horned grasshoppers, but it appears with unusual frequency in the Pamphagidae family. The neo-Y chromosomes found in several species appear to have undergone heterochromatinization and degradation, but this subject needs to be analyzed in other Pamphagidae species. We perform here karyotyping and molecular cytogenetic analyses in 12 Pamphagidae species from the center of biodiversity of this group in the previously-unstudied Anatolian plateau. Results: The basal karyotype for the Pamphagidae family, consisting of 18 acrocentric autosomes and an acrocentric X chromosome (2n♂ = 19, X0; 2n♀ = 20, XX), was found only in G. adaliae. The karyotype of all other studied species consisted of 16 acrocentric autosomes and a neo-XY sex chromosome system (2n♂♀ = 18, neo-XX♀/neo-XY♂). Two different types of neo-Y chromosomes were found. One of them was typical for three species of the Glyphotmethis genus, and showed a neo-Y chromosome being similar in size to the XR arm of the neo-X, with the addition of two small subproximal interstitial C-blocks. The second type of the neo-Y chromosome was smaller and more heterochromatinized than the XR arm, and was typical for all Nocarodeini species studied. The chromosome distribution of C-positive regions and clusters of ribosomal DNA (rDNA) and telomeric repeats yielded additional information on evolution of these neo-XY systems. Conclusion: Most Pamphagidae species in the Anatolian region were found to have neo-XY sex chromosome systems, belonging to two different evolutionary lineages, marked by independent X-autosome fusion events occurred within the Trinchinae and Pamphaginae subfamilies. The high density of species carrying neo-XY systems in the Anatolian region, and the different evolutionary stage for the two lineages found, one being older than the other, indicates that this region has a long history of neo-XY sex chromosome formation.",
keywords = "FISH, Karyotype, Neo-sex chromosome evolution, Pamphagidae grasshoppers, rDNA, Telomeric repeats, The neo-X, The neo-Y, DNA, Ribosomal, Grasshoppers/genetics, Male, Telomere, Biological Evolution, Animals, Sex Determination Processes, Y Chromosome, Chromosomes, Insect, X Chromosome, Female, ACRIDOIDEA, DNA-SEQUENCES, ORTHOPTERA, HETEROCHROMATIN VARIATION, NUCLEOLUS ORGANIZING REGIONS, HISTONE GENE, C-BANDING PATTERNS, ACRIDID GRASSHOPPERS, EVOLUTION, INTERSTITIAL TELOMERIC SEQUENCES",
author = "Jetybayev, {Ilyas Yerkinovich} and Bugrov, {Alexander Gennadievich} and Mustafa {\"U}nal and Buleu, {Olesya Georgievna} and Rubtsov, {Nikolay Borisovich}",
year = "2017",
month = feb,
day = "7",
doi = "10.1186/s12862-016-0868-9",
language = "English",
volume = "17",
pages = "1--12",
journal = "BMC Evolutionary Biology",
issn = "1471-2148",
publisher = "BioMed Central Ltd.",
number = "Suppl 1",

}

RIS

TY - JOUR

T1 - Molecular cytogenetic analysis reveals the existence of two independent neo-XY sex chromosome systems in Anatolian Pamphagidae grasshoppers

AU - Jetybayev, Ilyas Yerkinovich

AU - Bugrov, Alexander Gennadievich

AU - Ünal, Mustafa

AU - Buleu, Olesya Georgievna

AU - Rubtsov, Nikolay Borisovich

PY - 2017/2/7

Y1 - 2017/2/7

N2 - Background: Neo-XY sex chromosome determination is a rare event in short horned grasshoppers, but it appears with unusual frequency in the Pamphagidae family. The neo-Y chromosomes found in several species appear to have undergone heterochromatinization and degradation, but this subject needs to be analyzed in other Pamphagidae species. We perform here karyotyping and molecular cytogenetic analyses in 12 Pamphagidae species from the center of biodiversity of this group in the previously-unstudied Anatolian plateau. Results: The basal karyotype for the Pamphagidae family, consisting of 18 acrocentric autosomes and an acrocentric X chromosome (2n♂ = 19, X0; 2n♀ = 20, XX), was found only in G. adaliae. The karyotype of all other studied species consisted of 16 acrocentric autosomes and a neo-XY sex chromosome system (2n♂♀ = 18, neo-XX♀/neo-XY♂). Two different types of neo-Y chromosomes were found. One of them was typical for three species of the Glyphotmethis genus, and showed a neo-Y chromosome being similar in size to the XR arm of the neo-X, with the addition of two small subproximal interstitial C-blocks. The second type of the neo-Y chromosome was smaller and more heterochromatinized than the XR arm, and was typical for all Nocarodeini species studied. The chromosome distribution of C-positive regions and clusters of ribosomal DNA (rDNA) and telomeric repeats yielded additional information on evolution of these neo-XY systems. Conclusion: Most Pamphagidae species in the Anatolian region were found to have neo-XY sex chromosome systems, belonging to two different evolutionary lineages, marked by independent X-autosome fusion events occurred within the Trinchinae and Pamphaginae subfamilies. The high density of species carrying neo-XY systems in the Anatolian region, and the different evolutionary stage for the two lineages found, one being older than the other, indicates that this region has a long history of neo-XY sex chromosome formation.

AB - Background: Neo-XY sex chromosome determination is a rare event in short horned grasshoppers, but it appears with unusual frequency in the Pamphagidae family. The neo-Y chromosomes found in several species appear to have undergone heterochromatinization and degradation, but this subject needs to be analyzed in other Pamphagidae species. We perform here karyotyping and molecular cytogenetic analyses in 12 Pamphagidae species from the center of biodiversity of this group in the previously-unstudied Anatolian plateau. Results: The basal karyotype for the Pamphagidae family, consisting of 18 acrocentric autosomes and an acrocentric X chromosome (2n♂ = 19, X0; 2n♀ = 20, XX), was found only in G. adaliae. The karyotype of all other studied species consisted of 16 acrocentric autosomes and a neo-XY sex chromosome system (2n♂♀ = 18, neo-XX♀/neo-XY♂). Two different types of neo-Y chromosomes were found. One of them was typical for three species of the Glyphotmethis genus, and showed a neo-Y chromosome being similar in size to the XR arm of the neo-X, with the addition of two small subproximal interstitial C-blocks. The second type of the neo-Y chromosome was smaller and more heterochromatinized than the XR arm, and was typical for all Nocarodeini species studied. The chromosome distribution of C-positive regions and clusters of ribosomal DNA (rDNA) and telomeric repeats yielded additional information on evolution of these neo-XY systems. Conclusion: Most Pamphagidae species in the Anatolian region were found to have neo-XY sex chromosome systems, belonging to two different evolutionary lineages, marked by independent X-autosome fusion events occurred within the Trinchinae and Pamphaginae subfamilies. The high density of species carrying neo-XY systems in the Anatolian region, and the different evolutionary stage for the two lineages found, one being older than the other, indicates that this region has a long history of neo-XY sex chromosome formation.

KW - FISH

KW - Karyotype

KW - Neo-sex chromosome evolution

KW - Pamphagidae grasshoppers

KW - rDNA

KW - Telomeric repeats

KW - The neo-X

KW - The neo-Y

KW - DNA, Ribosomal

KW - Grasshoppers/genetics

KW - Male

KW - Telomere

KW - Biological Evolution

KW - Animals

KW - Sex Determination Processes

KW - Y Chromosome

KW - Chromosomes, Insect

KW - X Chromosome

KW - Female

KW - ACRIDOIDEA

KW - DNA-SEQUENCES

KW - ORTHOPTERA

KW - HETEROCHROMATIN VARIATION

KW - NUCLEOLUS ORGANIZING REGIONS

KW - HISTONE GENE

KW - C-BANDING PATTERNS

KW - ACRIDID GRASSHOPPERS

KW - EVOLUTION

KW - INTERSTITIAL TELOMERIC SEQUENCES

UR - http://www.scopus.com/inward/record.url?scp=85011673178&partnerID=8YFLogxK

U2 - 10.1186/s12862-016-0868-9

DO - 10.1186/s12862-016-0868-9

M3 - Article

C2 - 28251879

AN - SCOPUS:85011673178

VL - 17

SP - 1

EP - 12

JO - BMC Evolutionary Biology

JF - BMC Evolutionary Biology

SN - 1471-2148

IS - Suppl 1

M1 - 20

ER -

ID: 10312046