Effect of the Pairing Gene Ph1 and Premeiotic Colchicine Treatment on Intra- and Interchromosome Pairing of Isochromosomes in Common Wheat

Effect of the Pairing Gene Ph1 and Premeiotic Colchicine Treatment on Intra- and Interchromosome Pairing of Isochromosomes in Common Wheat

Juan M. Vega^a and Moshe Feldman^a
^a Department of Plant Sciences, The Weizmann Institute of Science, Rehovot 76100, Israel

Corresponding author: Moshe Feldman, Department of Plant Sciences, The Weizmann Institute of Science, Rehovot 76100, Israel., lpfeld{at}wiccmail.weizmann.ac.il (E-mail).

Communicating editor: R. S. HAWLEY

The analysis of the pattern of isochromosome pairing allowsone to distinguish factors affecting presynaptic alignment ofhomologous chromosomes from those affecting synapsis and crossing-over.Because the two homologous arms in an isochromosome are invariablyassociated by a common centromere, the suppression of pairingbetween these arms (intrachromosome pairing) would indicatethat synaptic or postsynaptic events were impaired. In contrast,the suppression of pairing between an isochromosome and itshomologous chromosome (interchromosome pairing), without affectingintrachromosome pairing, would suggest that homologous presynapticalignment was impaired. We used such an isochromosome systemto determine which of the processes associated with chromosomepairing was affected by the Ph1 gene of common wheat—themain gene that restricts pairing to homologues. Ph1 reducedthe frequency of interchromosome pairing without affecting intrachromosomepairing. In contrast, intrachromosome pairing was strongly reducedin the absence of the synaptic gene Syn-B1. Premeiotic colchicinetreatment, which drastically decreased pairing of conventionalchromosomes, reduced interchromosome but not intrachromosomepairing. The results support the hypothesis that premeioticalignment is a necessary stage for the regularity of meioticpairing and that Ph1 relaxes this alignment. We suggest thatPh1 acts on premeiotic alignment of homologues and homeologuesas a means of ensuring diploid-like meiotic behavior in polyploidwheat.

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