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Australian Journal of Botany Australian Journal of Botany Society
Southern hemisphere botanical ecosystems
RESEARCH ARTICLE

A Sorghum bicolor × S. macrospermum hybrid recovered by embryo rescue and culture

H. James Price A D , George L. Hodnett A , Byron L. Burson B , Sally L. Dillon C and William L. Rooney A
+ Author Affiliations
- Author Affiliations

A Department of Soil & Crop Sciences, Texas A&M University, College Station, TX 77843-2474, USA.

B USDA-ARS, Crop Germplasm Research Unit, 430 Heep Center, Texas A&M Univ., College Station, TX 77843-2474, USA.

C Australian Tropical Crops and Forages Collection, Queensland Department of Primary Industries and Fisheries, Biloela, Qld 4715, Australia.

D Corresponding author. Email: hj-price@tamu.edu

Australian Journal of Botany 53(6) 579-582 https://doi.org/10.1071/BT04213
Submitted: 8 December 2004  Accepted: 26 May 2005   Published: 30 September 2005

Abstract

Although exotic germplasm is extensively used in sorghum improvement programs, Sorghum species classified in sections other than Eu-sorghum have not been utilised as germplasm because of strong reproductive barriers involving pollen–pistil incompatibilities. S. macrospermum is of particular interest to sorghum breeders because of its close phylogenetic relationship and cytogenetic similarities to S. bicolor and its resistance to important sorghum pests and pathogens, such as sorghum midge and sorghum downy mildew. A vegetatively vigorous interspecific hybrid was obtained from a cross between a cytoplasmic male-sterile S. bicolor plant and S. macrospermum by using embryo rescue and in vitro culture techniques. The hybrid was morphologically intermediate to S. bicolor and S. macrospermum in leaf width, leaf pubescence, plant height, inflorescence morphology, chromosome number and nuclear DNA content. It was male-sterile like its ATx623 parent. The hybrid produced no offspring when used as the female parent in a backcross with S. bicolor. This is the first confirmed hybrid between S. bicolor and S. macrospermum, and to our knowledge, it is the first reported hybrid between S. bicolor and any Sorghum species outside the Eu-sorghum section.


Acknowledgments

This research was supported by the USDA–CSREES Competitive Grant 2004-35300-14686, the Sorghum Germplasm Committee, and the Texas Agricultural Experiment Station.


References


Bennett MD, Leitch IJ, Price HJ, Johnston JS (2003) Comparisons with Chaenorhabditis (∼100 Mb) and drosophila (∼175 Mb) using flow cytometry show genome size in arabidopsis to be ∼157 Mb and thus ∼25% larger than the Arabidopsis Genome Initiative estimate of ∼125 Mb. Annals of Botany 91, 547–557.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

de Wet JMJ (1978) Systematics and evolution of Sorghum sect. Sorghum (Gramineae). American Journal of Botany 65, 477–484. open url image1

Dillon SL, Lawrence PK, Henry RJ, Ross L, Price HJ, Johnston JS (2004) Sorghum laxiflorum and S. macrospermum, the Australian native species most closely related to the cultivated S. bicolor based on ITS1 and ndhF sequence analysis of 25 Sorghum species. Plant Systematics and Evolution 249, 233–246.
Crossref | GoogleScholarGoogle Scholar | open url image1

Doggett, H (1988). ‘.’ 2nd edn. (John Wiley & Sons: New York)

Duncan, RR , Bramel-Cox, PJ ,  and  Miller, FR (1991). Contributions of sorghum germplasm to hybrid development in the USA. In ‘Use of plant introduction in cultivar development, part I’. Special. Publication 117. pp. 69–102. (Crop Science Society of America: Madison, WI)

Garber ED (1950) Cytotaxonomic studies in the genus Sorghum. University of California Publications in Botany 23, 283–361. open url image1

Hacker JB, Lazarides M, Andrew MH (1992) Australian native sorghums—A potential breeding resource for the improvement of grain sorghum. In ‘Proceedings of the 2nd Australian sorghum conference’. (Ed.  MA Foale , RG Henzell , PN Vance ) pp. 333–337. (Occasional Publication 68. Australian Institute of Agricultural Science: Melbourne)


Hodnett GL, Burson BL, Rooney WL, Dillon SL, Price HJ (2005) Pollen–pistil interactions result in reproductive isolation between Sorghum bicolor and divergent Sorghum species. Crop Science 45, 1403–1409. open url image1

Jalani BS, Moss JP (1980) The site of action of the crossability genes (Kr1, Kr2) between Triticum and Secale. I. Pollen germination, pollen tube growth, and the number of pollen tubes. Euphytica 29, 571–579.
Crossref | GoogleScholarGoogle Scholar | open url image1

Jewell, DC ,  and  Islam-Faridi, MN (1994). A technique for somatic chromosome preparation and C-banding of maize. In ‘The maize handbook’. pp. 484–493. (Springer-Verlag: New York)

Kamala VS, Singh D, Bramel PJ, Rao DM (2002) Sources of resistance to downy mildew in wild and weedy species. Crop Science 42, 1357–1360. open url image1

Lange W, Wojciechowska B (1976) The crossing of common wheat (Triticum aestivum L.) with cultivated rye (Secale cereale L.). I. Crossability, pollen grain germination and pollen tube growth. Euphytica 25, 609–620.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lazarides MJ, Hacker B, Andrew MH (1991) Taxonomy, cytology and ecology of indigenous Australian sorghums (Sorghum Moench: Andropogoneae: Poaceae). Australian Systematic Botany 4, 591–635.
Crossref | GoogleScholarGoogle Scholar | open url image1

Murashige T, Skoog F (1962) A revised method for rapid growth and bioassay with tobacco tissue cultures. Physiologia Plantarum 15, 473–497. open url image1

Price HJ, Dillon SL, Hodnett G, Rooney WL, Ross L, Johnston JS (2005) Genome evolution in the genus Sorghum (Poaceae). Annals of Botany 95, 219–227.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Riley R, Chapman V (1967) The inheritance in wheat of crossability with rye. Genetical Research 9, 259–267. open url image1

Rosenow, DT ,  and  Dahlberg, JA (2000). Collection, conversion, and utilization of sorghum. In ‘Sorghum: origin, history, technology, and production’. pp. 309–328. (John Wiley & Sons: New York)

Sharma HC, Franzmann BA (2001) Host–plant preference and oviposition responses of the sorghum midge, Stenodiplosis sorghicola (Coquilllett) (Dipt., Cecidomyiidae) towards wild relatives of sorghum. Journal of Applied Entomology 125, 109–114.
Crossref | GoogleScholarGoogle Scholar | open url image1

Sitch LA, Snape JW (1986) The influences of the Hordeum bulbosum and wheat genotype on haploid production in wheat (Triticum aestivum). Zeitschtift fuer Pflanzenzuechtung 96, 304–319. open url image1

Snape JW, Chapman V, Moss J, Blanchard CE, Miller TE (1979) The crossabilities of wheat varieties with Hordeum bulbosum. Heredity 42, 291–298. open url image1

Sun Y, Suksayretrup K, Kirkham MB, Liang GH (1991) Pollen tube growth in reciprocal interspecific pollinations of Sorghum bicolor and S. versicolor. Plant Breeding 107, 197–202. open url image1

Wu T (1990) Sorghum macrospermum and its relationship to the cultivated species S. bicolor. Cytologia 55, 141–151. open url image1