The Ph1 locus from wheat controls meiotic chromosome pairing in autotetraploid rye (Secale cereale L.)
Lukaszewski, A.J., Kopecký, D.
CYTOGENETIC AND GENOME RESEARCH 129: 117-123, 2010
Keywords: Diploid-like pairing, Introgression, Meiosis, Ph1 locus, Rye, Wheat
Abstract: The Ph1 locus on chromosome 5B enforces strictly bivalent pairing in polyploid wheat, but the exact mechanism of its action remains unknown. Pairing restriction involves not only wheat homoeologues and all alien introgressions but also differentiated homologues. In this study we show that chromosome 5B with its Ph1 locus also controls chromosome pairing in autotetraploid rye by apparently restricting chiasma formation between dissimilar homologues. Unlike in wheat, the effect appears to be dosage-dependent, which may be a reflection of an interaction between Ph1 and the rye chromosome pairing control system. With 2 doses of Ph1 present, chiasmate pairing was severely restricted resulting in a significantly higher number of univalents and bivalents per cell than in the controls. The restrictions imposed by Ph1 virtually eliminated MI pairing of chromosome arms polymorphic for their C-band patterns and did not appear to affect arms with similar patterns. If the polymorphism for C-bands is taken as a measure of the overall chromosome similarity/divergence, such differences were recognized and acted upon by the Ph1 locus. The fact that Ph1 operates in rye in the same fashion as in polyploid wheats suggests that it controls some basic mechanism of chromosome recognition.
DOI:
Fulltext: contact IEB authors
IEB authors: David Kopecky
CYTOGENETIC AND GENOME RESEARCH 129: 117-123, 2010
Keywords: Diploid-like pairing, Introgression, Meiosis, Ph1 locus, Rye, Wheat
Abstract: The Ph1 locus on chromosome 5B enforces strictly bivalent pairing in polyploid wheat, but the exact mechanism of its action remains unknown. Pairing restriction involves not only wheat homoeologues and all alien introgressions but also differentiated homologues. In this study we show that chromosome 5B with its Ph1 locus also controls chromosome pairing in autotetraploid rye by apparently restricting chiasma formation between dissimilar homologues. Unlike in wheat, the effect appears to be dosage-dependent, which may be a reflection of an interaction between Ph1 and the rye chromosome pairing control system. With 2 doses of Ph1 present, chiasmate pairing was severely restricted resulting in a significantly higher number of univalents and bivalents per cell than in the controls. The restrictions imposed by Ph1 virtually eliminated MI pairing of chromosome arms polymorphic for their C-band patterns and did not appear to affect arms with similar patterns. If the polymorphism for C-bands is taken as a measure of the overall chromosome similarity/divergence, such differences were recognized and acted upon by the Ph1 locus. The fact that Ph1 operates in rye in the same fashion as in polyploid wheats suggests that it controls some basic mechanism of chromosome recognition.
DOI:
Fulltext: contact IEB authors
IEB authors: David Kopecky