Abstract

We analyzed the synapsis and recombination between Z and W chromosomes in the oocytes of nine neognath species: domestic chicken Gallus gallus domesticus, grey goose Anser anser, black tern Chlidonias niger, common tern Sterna hirundo, pale martin Riparia diluta, barn swallow Hirundo rustica, European pied flycatcher Ficedula hypoleuca, great tit Parus major and white wagtail Motacilla alba using immunolocalization of SYCP3, the main protein of the lateral elements of the synaptonemal complex, and MLH1, the mismatch repair protein marking mature recombination nodules. In all species examined, homologous synapsis occurs in a short region of variable size at the ends of Z and W chromosomes, where a single recombination nodule is located. The remaining parts of the sex chromosomes undergo synaptic adjustment and synapse non-homologously. In 25% of ZW bivalents of white wagtail, synapsis and recombination also occur at the secondary pairing region, which probably resulted from autosome−sex chromosome translocation. Using FISH with a paint probe specific to the germline-restricted chromosome (GRC) of the pale martin on the oocytes of the pale martin, barn swallow and great tit, we showed that both maternally inherited songbird chromosomes (GRC and W) share common sequences.

Highlights

  • Comparative genomic analysis indicates that the avian sex chromosomes with ZW heterogamety in females evolved from a pair of autosomes

  • The analysis of the synapsis and recombination of Z and W chromosomes in nine species of neognath birds confirmed the conclusions about the meiotic behavior of the sex chromosomes in this infraclass drawn earlier [12]

  • Obligatory homologous synapsis and recombination occur in PAR located at the ends of Z and W chromosomes and restricted by one crossover

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Summary

Introduction

Comparative genomic analysis indicates that the avian sex chromosomes with ZW heterogamety in females evolved from a pair of autosomes. Avian orders differ in the degree of sex chromosome differentiation [2,3]. Ratites show low differentiation between Z and W Their sex chromosomes synapse and recombine along 80% of the W long arm (Wq) length [4,5]. Tinamiformes, another order of paleognaths, vary in the length of PAR from 65% of Wq in Rhynchotus rufescens, 25% in Eudromia elegans and Nothura maculosa, to just the very end of Wq in Crypturellus tataupa [2]. The recombination suppression in paleognaths is determined by the fixation of different inversions in Z chromosomes in ratites and both in Z and W chromosomes in Tinamiformes [3]

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