Does epigenome is influenced by allopollyploidisation during the evolution of Gossypium hirsutum

  1. Priti Prasad1,2,
  2. Samir V. Sawant2

Authors Affiliation(s)

  • 1Academy of Scientific & Innovative Research, New-Delhi, INDIA
  • 2CSIR -National Botanical Research Institute, Lucknow, INDIA

Can J Biotech, Volume 1, Special Issue, Page 185, DOI: https://doi.org/10.24870/cjb.2017-a171

Presenting author: prasad.lifehwh@gmail.com

Abstract

In ecological and evolutionary time scale, Darwinian selection acts on each nucleotide to shape the whole genome. Beside nucleotide diversity, epigenetic modifications seem to be conserved in intra and inter-species during evolution. Gossypium hirsutum (A1D1) is an allotetraploid crop plant which was evolved from morphologically different diploid ancestors by polyploidisation event expected to occur around 1 million year ago. Its progenitors are Gossypium arboreum (A) and Gossypium ramondii (D) and they are still available for study. We are keen to understand whether the epigenome structure of A- and D-subgenomes are conserved or influenced by polyploidisation? To understand the influence of polyploidisation on the epigenome, it is important to determine conserved DNA elements which are under purifying selection during evolution. We aligned whole genome sequences of Gossypium hirsutum, Gossypium arboreum, Gossypium ramondii and T. cacoa by LASTZ aligner taking T. cacoa as a reference genome. Our analysis revealed conserved DNA elements and their distribution in the A/D sub-genomes. The portion of the A/D sub-genome under purifying selection is also determined. Our future study on DNA methylome of Gossypium arboreum (A) and Gossypium ramondii (D) and AD-genome of Gossypium hirsutum and their correlation with conserved DNA elements will reveal influence of polyploidisation on epigenome.