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Karyotype differentiation and male meiosis in European Pholcus

AutorInnen: 
Král J, Ávila Herrera IM, Šťáhlavský F, Sadílek D, Pavelka J, Chatzaki M, Huber BA.
Erscheinungsjahr: 
2022
Vollständiger Titel: 
Karyotype differentiation and male meiosis in European clades of the spider genus Pholcus (Araneae, Pholcidae).
ZFMK-Autorinnen / ZFMK-Autoren: 
Org. Einordnung: 
Publiziert in: 
Comparative Cytogenetics
Publikationstyp: 
Zeitschriftenaufsatz
DOI Name: 
https://doi.org/10.3897/compcytogen.v16i4.85059
Keywords: 
haplogyne, inversion, NOR, rDNA, sex chromosome, speciation, Synspermiata
Bibliographische Angaben: 
Král J, Ávila Herrera IM, Šťáhlavský F, Sadílek D, Pavelka J, Chatzaki M, Huber BA. 2022. Karyotype differentiation and male meiosis in European clades of the spider genus Pholcus (Araneae, Pholcidae). Comparative Cytogenetics 16(4): 185-209. https://doi.org/10.3897/compcytogen.v16i4.85059
Abstract: 

Haplogyne araneomorphs are a diverse spider clade. Their karyotypes are usually predominated by biarmed (i.e., metacentric and submetacentric) chromosomes and have a specific sex chromosome system, X1X2Y. These features are probably ancestral for haplogynes. Nucleolus organizer regions (NORs) spread frequently from autosomes to sex chromosomes in these spiders. This study focuses on pholcids (Pholcidae), a highly diverse haplogyne family. Despite considerable recent progress in pholcid cytogenetics, knowledge on many clades remains insufficient including the most species-rich pholcid genus, Pholcus Walckenaer, 1805. To characterize the karyotype differentiation of Pholcus in Europe, we compared karyotypes, sex chromosomes, NORs, and male meiosis of seven species [P. alticeps Spassky, 1932; P. creticus Senglet, 1971; P. dentatus Wunderlich, 1995; P. fuerteventurensis Wunderlich, 1992; P. phalangioides (Fuesslin, 1775); P. opilionoides (Schrank, 1781); P. silvai Wunderlich, 1995] representing the dominant species groups in this region. The species studied show several features ancestral for Pholcus, namely the 2n♂ = 25, the X1X2Y system, and a karyotype predominated by biarmed chromosomes. Most taxa have a large acrocentric NOR-bearing pair, which evolved from a biarmed pair by a pericentric inversion. In some lineages, the acrocentric pair reverted to biarmed. Closely related species often differ in the morphology of some chromosome pairs, probably resulting from pericentric inversions and/or translocations. Such rearrangements have been implicated in the formation of reproductive barriers. While the X1 and Y chromosomes retain their ancestral metacentric morphology, the X2 chromosome shows a derived (acrocentric or subtelocentric) morphology. Pairing of this element is usually modified during male meiosis. NOR patterns are very diverse. The ancestral karyotype of Pholcus contained five or six terminal NORs including three X chromosome-linked loci. The number of NORs has been frequently reduced during evolution. In the Macaronesian clade, there is only a single NOR-bearing pair. Sex chromosome-linked NORs are lost in Madeiran species and in P. creticus. Our study revealed two cytotypes in the synanthropic species P. phalangioides (Madeiran and Czech), which differ by their NOR pattern and chromosome morphology. In the Czech cytotype, the large acrocentric pair was transformed into a biarmed pair by pericentric inversion.