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Mutual maintenance of di- and triploid Pelophylax esculentus hybrids in R-E systems: results fro

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Title Mutual maintenance of di- and triploid Pelophylax esculentus hybrids in R-E systems: results fro
 
Creator Dedukh, D.
Litvinchuk, S.
Rosanov, Yu.
Shabanov, D.
Krasikova, A.
 
Subject Pelophylax
Hybrid population systems,
 
Description Background: Interspecies animal hybrids can employ clonal or hemiclonal reproduction modes where one or all
parental genomes are transmitted to the progeny without recombination. Nevertheless, some interspecies
hybrids retain strong connection with the parental species needed for successful reproduction. Appearance of
polyploid hybrid animals may play an important role in the substitution of parental species and in the
speciation process.
Results: To establish the mechanisms that enable parental species, diploid and polyploid hybrids coexist we
have performed artificial crossing experiments of water frogs of Pelophylax esculentus complex. We identified
tadpole karyotypes and oocyte genome composition in all females involved in the crossings. The majority of
diploid and triploid hybrid frogs produced oocytes with 13 bivalents leading to haploid gametes with the
same genome as parental species hybrids usually coexist with. After fertilization of such gametes only diploid
animals appeared. Oocytes with 26 bivalents produced by some diploid hybrid frogs lead to diploid gametes,
which give rise to triploid hybrids after fertilization. In gonads of all diploid and triploid hybrid tadpoles we
found DAPI-positive micronuclei (nucleus-like bodies) involved in selective genome elimination. Hybrid male
and female individuals produced tadpoles with variable karyotype and ploidy even in one crossing owing to
gametes with various genome composition.
Conclusions: We propose a model of diploid and triploid hybrid frog reproduction in R-E population systems.
Triploid Pelophylax esculentus hybrids can transmit genome of parental species they coexist with by producing
haploid gametes with the same genome composition. Triploid hybrids cannot produce triploid individuals
after crossings with each other and depend on diploid hybrid females producing diploid eggs. In contrast to
other population systems, the majority of diploid and triploid hybrid females unexpectedly produced gametes
with the same genome as parental species hybrids coexist with.
 
Date 2017-12-15T09:53:38Z
2017-12-15T09:53:38Z
2017
 
Type Article
 
Identifier Dedukh D., Litvinchuk S., Rosanov Yu., Shabanov D., Krasikova A. Mutual maintenance of di- and triploid Pelophylax esculentus hybrids in R-E systems: results from artificial crossings experiments // BMC Evolutionary Biology, 2017. – 17, 220. – p. 1-15. – DOI 10.1186/s12862-017-1063-3
http://dspace.univer.kharkov.ua/handle/123456789/13560
 
Language en_US
 
Publisher BMC Evolutionary Biology