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Nuclear Disposition of Alien Chromosome Introgressions into Wheat and Rye Using 3D-FISH

Authors
  • koláčková, veronika
  • perničková, kateřina
  • vrána, jan
  • duchoslav, martin
  • jenkins, glyn
  • phillips, dylan
  • turkosi, edina
  • šamajová, olga
  • sedlářová, michaela
  • šamaj, jozef
  • doležel, jaroslav
  • kopecký, david
Publication Date
Aug 25, 2019
Source
MDPI
Keywords
Language
English
License
Green
External links

Abstract

During interphase, the chromosomes of eukaryotes decondense and they occupy distinct regions of the nucleus, called chromosome domains or chromosome territories (CTs). In plants, the Rabl&rsquo / s configuration, with telomeres at one pole of nucleus and centromeres at the other, appears to be common, at least in plants with large genomes. It is unclear whether individual chromosomes of plants adopt defined, genetically determined addresses within the nucleus, as is the case in mammals. In this study, the nuclear disposition of alien rye and barley chromosomes and chromosome arm introgressions into wheat while using 3D-FISH in various somatic tissues was analyzed. All of the introgressed chromosomes showed Rabl&rsquo / s orientation, but their relative positions in the nuclei were less clear. While in most cases pairs of introgressed chromosomes occupied discrete positions, their association (proximity) along their entire lengths was rare, and partial association only marginally more frequent. This arrangement is relatively stable in various tissues and during various stages of the cell cycle. On the other hand, the length of a chromosome arm appears to play a role in its positioning in a nucleus: shorter chromosomes or chromosome arms tend to be located closer to the centre of the nucleus, while longer arms are more often positioned at the nuclear periphery.

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