Abstract
Hybridization and Polyploidization are most common of the phenomenon observed in plants, especially in the genus Nicotiana leading to the duplication of genome. Although genomic changes associated with these events has been studied at various levels but the genome size and GC content variation is less understood because of absence of sufficient genomic data. In this study the flow cytometry technique was used to uncover the genome size and GC contents of 46 Nicotiana species and we compared the genomic changes associated with the hybridization events along evolutionary time scale. The genome size among Nicotiana species varied between 3.28 pg and 11.88 pg whereas GC contents varied between 37.22% and 51.25%. The tetraploid species in genus Nicotiana including section Polydiclae, Repandae, Nicotiana, Rustica and Sauveolentes revealed both up and downsizing in their genome sizes when compared to the sum of genomes of their ancestral species. The genome sizes of three homoploid hybrids were found near their ancestral species. Loss of large genome sequence was observed in the evolutionary more aged species (>10 Myr) as compared to the recently evolved one's (<0.2 Myr). The GC contents were found homogenous with a mean difference of 2.46% among the Nicotiana species. It is concluded that genome size change appeared in either direction whereas the GC contents were found more homogenous in genus Nicotiana.
Highlights
Polyploid and homoploid hybridization are two important evolutionary phenomena involved at species levels
Genome size changes along the evolutionary time scale in genus Nicotiana
N. tabacum, N. rustica, N. clevelandilii, N. nudicaulis reveals genome downsizing whereas N. quadrivalvis, N. repanda, N. nesophila, N. stocktoni showed genome upsizing
Summary
Polyploid and homoploid hybridization are two important evolutionary phenomena involved at species levels. These processes have regularly contributed in diversification of plant species. Evolutionary consequences associated with hybridization events have been studied at various levels such as chromosomal rearrangements, repetitive DNA sequence evolution, genome size change, and diploidization (Hegarty and Hiscock, 2008; Baack et al, 2005; Leitch et al, 2008; Renny-Byfield et al, 2011; RennyByfield et al, 2013). The genome size changes associated with hybridization and polyploidization and genomic GC contents variation has been the subject of immense interest. Numerous studies have provided novel insights into the potential basis of genome size evolution in plants (Bennett and Leitch, 2011; Veselý et al, 2012). While it has been shown that dynamics and magnitude of GC base composition is persistently lacking in plants (Tatarinova et al, 2010; Serres-Giardi et al, 2012)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
