Genome Size Dynamics and Evolution in Monocots

Leitch, Ilia J.; Beaulieu, Jeremy M.; Chase, Mark W.; Leitch, Andrew R.; Fay, Michael F.

doi:10.1155/2010/862516

Cited by 74 publications

(73 citation statements)

References 140 publications

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“…Further Knight et al [9] proposed the large genome constraint hypothesis (LGCH) that suggests that species with large genomes are less likely to generate progenitor species. The LGCH is in agreement with the general observation that most angiosperm species have small genomes, with a mode, median, and mean genome size (1C) of just 0.6, 2.6, and 6.2 pg, respectively [10]. The LGCH echoes point of view that larger genomes are maladaptive, as they may constrain growth [11], and evolved in populations with smaller effective population size and hence low efficacy of natural selection [6].…”

Section: Introductionsupporting

confidence: 87%

Does Large Genome Size Limit Speciation in Endemic Island Floras?

Kapralov

Filatov

2011

Journal of Botany

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Genome sizes in plants vary by several orders of magnitude, and this diversity may have evolutionary consequences. Large genomes contain mainly noncoding DNA that may impose high energy and metabolic costs for their bearers. Here we test the large genome constraint hypothesis, which assumes that plant lineages with large genomes are diversifying more slowly Knight et al. (2005), using endemic floras of the oceanic archipelagos of the Canaries, Hawaii, and Marquesas Islands. In line with this hypothesis, the number of endemic species per genus is negatively correlated with genus-average genome size for island radiations on Hawaiian and Marquesas archipelagos. However, we do not find this correlation on the Canaries, which are close to the continent and therefore have higher immigration rate and lower endemism compared to Hawaii. Further work on a larger number of floras is required to test the generality of the large genome constraint hypothesis.

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Section: Introductionsupporting

confidence: 87%

Does Large Genome Size Limit Speciation in Endemic Island Floras?

Kapralov

Filatov

2011

Journal of Botany

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“…The 2C-values of R. montanum and P. ignea are lower to the range reported for Amaryllidaceae which vary from 28 to ca. 164.3 pg (Leitch et al , 2010. A similar situation was observed comparing both species with the diploid taxa of Hippeastrum (range from 26.9 to 31.4 pg) (Naranjo & Poggio 1988).…”

supporting

confidence: 76%

“…Angiosperms are the most intensively studied major group of organisms with published C-values varying about 2000-fold for a number over 4,400 studied species (Leitch et al 2010). However, C-values for South American plants are scarce, which has been a preoccupation for researchers interested in study trends on genome size evolution of global floras .…”

mentioning

confidence: 99%

Nuclear DNA content in Chilean species of Phycella and Rhodolirium (Amaryllidaceae)

2012

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“…This finding allows us to argue that genome size variation and ploidy level influence UVC-induced damage accumulation and account for the observed differences between dicots and monocots and within monocots themselves. As previously reported, these host genome characters are involved in promoting genetic differentiation between monocots and dicots (Leitch et al, 2010) and can stand as an indicator of sensitivity to UVC radiation as previously reported (Heddle and Athanasiou, 1975). The current experimental platform, however, does not allow us to make definite conclusions about this hypothesis.…”

Section: Discussionmentioning

confidence: 63%

A comparative analysis of membrane intactness and genome integrity in pea,barley, and wheat in response to UVC irradiation

Georgieva¹,

Nikolova²,

Bonchev³

et al. 2015

Turk J Bot

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The maintenance of plant genome integrity plays a critical function in the processes of DNA replication, transcription, and repair. Short-wave UV radiation (UVC) is among the most harmful agents known to affect genome stability and to induce DNA damage, including double-strand breaks (DSBs). Most previous studies in plants addressed the effects of UVC radiation at the physiological level; however, little research effort has been put into genome sensitivity across different plant species. Here, we made use of the trypan blue exclusion test and neutral comet assay to assess nuclear membrane and genome integrity in response to UVC radiation in monocot and dicot plants. We found that UVC radiation substantially affects nuclear membranes and the level of DSBs in a dose-responsive manner. Furthermore, differential sensitivity across plant species was observed, with monocot plants being less vulnerable to DSBs. This allows us to speculate that plant species with larger genomes may better tolerate UVC radiation.

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Genome Size Dynamics and Evolution in Monocots

Cited by 74 publications

References 140 publications

Does Large Genome Size Limit Speciation in Endemic Island Floras?

Does Large Genome Size Limit Speciation in Endemic Island Floras?

Nuclear DNA content in Chilean species of Phycella and Rhodolirium (Amaryllidaceae)

A comparative analysis of membrane intactness and genome integrity in pea,barley, and wheat in response to UVC irradiation

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