Abstract
The vole Alexandromysevoronensis (Kovalskaya et Sokolov, 1980) with its two chromosomal races, “Evoron” (2n = 38–41, NF = 54–59) and “Argi” (2n = 34, 36, 37, NF = 51–56) is the endemic vole found in the Russian Far East. For the “Argi” chromosomal race, individuals from two isolated populations in mountain regions were investigated here for the first time using GTG-, GTC-, NOR methods. In the area under study, 8 new karyotype variants have been registered. The karyotype with 2n = 34 has a rare tandem fusion of three autosomes: two biarmed (Mev6 and Mev7) and one acrocentric (Mev14) to form a large biarmed chromosome (Mev6/7/14), all of which reveal a heterozygous state.For A.evoronensis, the variation in the number of chromosomes exceeded the known estimate of 2n = 34, 36 and amounted to 2n = 34, 36, 38–41. The combination of all the variations of chromosomes for the species made it possible to describe 20 variants of the A.evoronensis karyotype, with 11 chromosomes being involved in multiple structural rearrangements. In the “Evoron” chromosomal race 4 chromosomes (Mev1, Mev4, Mev17, and Mev18) and in the “Argi” chromosomal race 9 chromosomes (Mev6, Mev7, Mev14, Mev13, Mev11, Mev15, Mev17, Mev18, and Mev19) were observed. Tandem and Robertsonian rearrangements (Mev17/18 and Mev17.18) were revealed in both chromosomal races “Evoron” and “Argi”.
Highlights
With evolutionary processes underway, structural chromosomal rearrangements could be of great importance (White 1973; King 1993; Ferguson-Smith and Trifonov 2007; Bakloushinskaya 2016; Dobigny et al 2017)
The variation in the number of chromosomes (2n = 38, 40–44) among the chromosomal races of M. (Terricola) thomasi can probably be attributed to the Robertsonian translocations and tandem fusions (Rovatsos et al 2011, 2017)
For two species of the related genus Alexandromys Ognev, 1914, inhabiting northeastern Asia – Alexandromys maximowiczii (Schrank, 1859) and A. evoronensis (Kovalskaya et Sokolov, 1980) a polymorphism has emerged due to structural rearrangements of chromosomes, including Robertsonian translocations and tandem fusions (Meyer et al 1996; Kartavtseva et al 2008, 2021)
Summary
Structural chromosomal rearrangements (fusion) could be of great importance (White 1973; King 1993; Ferguson-Smith and Trifonov 2007; Bakloushinskaya 2016; Dobigny et al 2017). Some species of the genus Microtus have karyotypic polymorphism with structural rearrangements (Zagorodnyuk 1990). (Terricola) thomasi can probably be attributed to the Robertsonian translocations and tandem fusions (Rovatsos et al 2011, 2017). For two species of the related genus Alexandromys Ognev, 1914, inhabiting northeastern Asia – Alexandromys maximowiczii (Schrank, 1859) and A. evoronensis (Kovalskaya et Sokolov, 1980) a polymorphism has emerged due to structural rearrangements of chromosomes, including Robertsonian translocations and tandem fusions (Meyer et al 1996; Kartavtseva et al 2008, 2021). A. evoronensis has two chromosomal races in isolated populations in the mountainous regions of the Russian Far East (Kartavtseva et al 2018)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
