Genome Evolution in the Genus Sorghum (Poaceae)

doi:10.1093/aob/mci015

Annals of Botany 2005 95(1):219-227; doi:10.1093/aob/mci015

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Genome Evolution in the Genus Sorghum (Poaceae)

H. JAMES PRICE¹^,*, SALLY L. DILLON², GEORGE HODNETT¹, WILLIAM L. ROONEY¹, LARRY ROSS³ and J. SPENCER JOHNSTON³

¹ Department of Soil and Crop Sciences, Texas Agricultural Experiment Station, Texas A&M University, College Station, TX 77843-2474, USA, ² Australian Tropical Crops and Forages Collection, Queensland Department of Primary Industries, Agency for Food and Fibre Sciences, Biloela, QLD, Australia and ³ Department of Entomology, Texas Agricultural Experiment Station, Texas A&M University, College Station, TX 77843-2475, USA

^* For correspondence. E-mail hj-price{at}tamu.edu

Received: 5 November 2003 Returned for revision: 23 December 2003 Accepted: 12 February 2004

• Background and Aims The roles of variation in DNA contentin plant evolution and adaptation remain a major biologicalenigma. Chromosome number and 2C DNA content were determinedfor 21 of the 25 species of the genus Sorghum and analysed froma phylogenetic perspective.

• Methods DNA content was determined by flow cytometry.A Sorghum phylogeny was constructed based on combined nuclearITS and chloroplast ndhF DNA sequences.

• Key Results Chromosome counts (2n = 10, 20, 30, 40) were,with few exceptions, concordant with published numbers. Newchromosome numbers were obtained for S. amplum (2n = 30) andS. leiocladum (2n = 10). 2C DNA content varies 8·1-fold(1·27–10·30 pg) among the 21 Sorghum species.2C DNA content varies 3·6-fold from 1·27 pg to4·60 pg among the 2n = 10 species and 5·8-fold(1·52–8·79 pg) among the 2n = 20 species.The x = 5 genome size varies over an 8·8-fold range from0·26 pg to 2·30 pg. The mean 2C DNA content ofperennial species (6·20 pg) is significantly greaterthan the mean (2·92 pg) of the annuals. Among the 21species studied, the mean x = 5 genome size of annuals (1·15pg) and of perennials (1·29 pg) is not significantlydifferent. Statistical analysis of Australian species showed:(a) mean 2C DNA content of annual (2·89 pg) and perennial(7·73 pg) species is significantly different; (b) meanx = 5 genome size of perennials (1·66 pg) is significantlygreater than that of the annuals (1·09 pg); (c) the meanmaximum latitude at which perennial species grow (–25·4degrees) is significantly greater than the mean maximum latitude(–17·6) at which annual species grow.

• Conclusions The DNA sequence phylogeny splits Sorghuminto two lineages, one comprising the 2n = 10 species with largegenomes and their polyploid relatives, and the other with the2n = 20, 40 species with relatively small genomes. An apparentphylogenetic reduction in genome size has occurred in the 2n= 10 lineage. Genome size evolution in the genus Sorghum apparentlydid not involve a ‘one way ticket to genomic obesity’as has been proposed for the grasses.

Key words: Sorghum bicolor, wild sorghum, genome size, DNA content, chromosome numbers, systematics

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