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- Domestication to Crop Improvement: Genetic Resources for Sorghum and Saccharum (Andropogoneae)

Abu Assar AH, Uptmoor R, Abdelmula AA, Salih M, Ordon F, Friedt W. Genetic variation in sorghum germplasm from Sudan, ICRISAT, and USA assessed by simple sequence repeats (SSRs). Crop Science (2005) 45:1636–1644.

Ahmadian A, Gharizadeh B, Gustafsson AC, Sterky F, Nyrén P, Uhlén M, et al. Single-nucleotide polymorphism analysis by pyrosequencing. Analytical Biochemistry (2000) 280:103–110.

Aitken K, Jackson P, Piperidis G, McIntyre L. QTL identified for yield components in a cross between a sugarcane (Saccharum spp.) cultivar Q165A and a S. officinarum clone IJ76-514. Fischer T, Turner N, Angus J, McIntyre L, Robertson M, Borrell A, et al, eds. (2004) Proceedings for the 4th International Crop Science Congress, 26 September to 1 October 2004: Brisbane, Australia. New directions for a diverse planet.

Aitken KS, Jackson PA, McIntyre CL. A combination of AFLP and SSR markers provides extensive map coverage and identification of homo(eo)logous linkage groups in a sugarcane cultivar. Theoretical and Applied Genetics (2005) 110:789–801.

Alderborn A, Kristofferson A, Hammerling U. Determination of single-nucleotide polymorphisms by real-time pyrophosphate DNA sequencing. Genome Research (2000) 10:1249–1258.

Al-Janbi SM, Honeycutt RJ, Peterson C, Sobral BWS. Phylogenetics analysis of organellar DNA sequences in the Andropogoneae. Saccharum. Theoretical and Applied Genetics (1997) 88:933–944.

Bapat DR, Mote UN. Sources of shootfly resistance in. Sorghum. Journal of the Maharashtra Agricultural University (1982) 7:238–240.

Benmoussa M, Suhendra B, Aboubacar A, Hamaker BR. Distinctive sorghum starch granule morphologies appear to improve raw starch digestibility. Starch – Starke (2006) 58:92–99.

Bhattramakki D, Rafalski A. Discovery and application of single nucleotide polymorphism markers in plants. In: Plant genotyping: the DNA fingerprinting of plants—Henry RJ, ed. (2001) Wallingford: CAB International. 179–191.

Bonierbale MW, Plaisted RL, Tanksely SD. RFLP maps based on common set of clones reveal modes of chromosomal evolution in potato and tomato. Genetics (1988) 120:1095–1103.

Borrell AK, Douglas ACL. Maintaining green leaf area in grain sorghum increased nitrogen uptake under post-anthesis drought. International Sorghum and Millets Newsletter (1997) 38:89–91.

Borrell AK, Bidinger FR, Sunitha K. Stay-green associated with yield in recombinant inbred sorghum lines varying in rate of leaf senescence. International Sorghum and Millets Newsletter (1999) 40:31–33.

Borrell AK, Hammer GL, Douglas ACL. Does maintaining green leaf area in sorghum improve yield under drought? I. Leaf growth and senescence. Crop Science (2000) 40:1026–1037.

Bowers JE, Abbey C, Anderson S, Chang C, Draye X, Hoppe AH, et al. A high density genetic recombination map of sequence-tagged sites for Sorghum, as a framework for comparative structural and evolutionary genomics of tropical grasses. Genetics (2003) 165:367–386.

Bradbury LMT, Fitzgerald TL, Henry RJ, Jin QS, Waters DLE. The gene for fragrance in rice. Plant Biotechnology Journal (2005) 3:363–370.

Brown SM, Hopkins MS, Mitchell SE, Senior ML, Wang TY, Duncan RR, et al. Multiple methods for the identification of polymorphic simple sequence repeats (SSRs) in sorghum [Sorghum bicolor (L.) Moench]. Theoretical and Applied Genetics (1996) 93:190–198.

Bull TA, Glasziou KT. The evolutionary significance of sugar accumulation in. Saccharum. Australian Journal of Biological Science (1963) 16:737–742.

Buzacott JH. Cane varieties and breeding. In: Manual of cane growing.—Kim NJ, Mungomery RW, Hughes CG, eds. (1965) Sydney: Angus and Robertson. 220–253.

Cai Q, Aitken K, Deng HH, Chen XW, Fu C, Jackson PA, et al. Verification of the introgression of Erianthus arundinaceus germplasm into sugarcane using molecular markers. Plant Breeding (2005) 124:322–328.

Caldwell DG, McCallum N, Shaw P, Muehlbauer GJ, Marshall DF, Waugh R. A structured mutant population for forward and reverse genetics in barley (Hordeum vulgare L.). The Plant Journal (2004) 4:143–150.

Carson DL, Botha FC. Preliminary analysis of expressed sequence tags for sugarcane. Crop Science (2000) 40:1769–1779.

Casu RE, Dimmock CM, Chapman SC, Grof CPL, McIntyre CL, Bonnett GD, et al. Identification of differentially expressed transcripts from maturing stem of sugarcane by in silico analysis of stem expressed sequence tags and gene expression profiling. Plant Molecular Biology (2004) 54:503–517.

Chen X, Cho YG, McCouch SR. Sequence divergence of rice microsatellites in Oryza and other plant species. Molecular Genetics and Genomics (2002) 268:331–343.

Clayton WD, Renvoize SA. Genera Graminum grasses of the world. In: Kew Bulletin Addition Series (1986) XIII. London: Royal Botanic Gardens, Kew. 338–345.

Comai L, Henikoff S. TILLING: practical single-nucleotide mutation discovery. The Plant Journal (2006) 45:684–694.

Comai L, Young K, Till BJ, Reynolds SH, Greene EA, Codomo CA, et al. Efficient discovery of DNA polymorphisms in natural populations by EcoTILLING. The Plant Journal (2004) 37:778–786.

Cordeiro GM, Taylor GO, Henry RJ. Characterisation of microsatellite markers from sugarcane (Saccharum sp.), a highly polyploid species. Plant Science (2000) 155:161–168.

Cordeiro GM, Pan YB, Henry RJ. Sugarcane microsatellites for the assessment of genetic diversity in sugarcane germplasm. Plant Science (2003) 165:181–189.

Cordeiro GM, Eliott F, McIntyre CL, Casu RE, Henry RJ. Characterisation of single nucleotide polymorphisms in sugarcane ESTs. Theoretical and Applied Genetics (2006) 113, a. 331–343.

Cordeiro G, Eliott F, Henry R. An Optimised Ecotilling protocol for polyploids or pooled samples using a capillary electrophoresis system. Analytical Biochemistry (2006) 355, b. 145–147.

Cross M, Lee SL, Henry RJ. A novel detection strategy for scanning multiple mutations using CEL I (2007) 1. Paper presented at the Plant and Animal Genomes Conference XV, Mutation Screening Workshop, 13–17. San Diego, USA. 2007.

Daniels J, Roach BT. Taxonomy and evolution in sugarcane. In: Sugarcane improvement through breeding—Heinz DJ, ed. (1987) Amsterdam: Elsevier Press. 7–84.

Davies H, Dicks E, Stephens P, Cox C, Teague J, Greenman C, et al. High throughput DNA sequence variant detection by conformation sensitive capillary electrophoresis and automated peak comparison. Genomics (2006) 87:427–432.

Delseny M, Salses J, Cooke R, Sallaud C, Regad F, Lagoda P, et al. Rice genomics: present and future. Plant Physiology and Biochemistry (2001) 39:323–334.

Deu M, Rattunde F, Chantereau J. A global view of genetic diversity in cultivated sorghums using a core collection. Genome (2006) 49:168–180.

D'Hont A. A molecular approach to unravelling the genetics of sugarcane, a complex polyploid of the Andropogoneae tribe. Genome (1994) 37:222–230.

D'Hont A, Glaszmann JC. Sugarcane genome analysis with molecular markers: a first decade of research. Hogarth DM, ed. (2001) Proceedings of the International Society of Sugarcane Technologists XXVI Congress. Brisbane: The Australian Society of Sugar Cane Technologists. 556–559.

D'Hont A, Layssac M. Analysis of cultivars genome structure by molecular cytogenetics and the study of introgression mechanisms. France: Centre de coopération internationale en recherche agronomique pour le développement, Annual Crops Department (CIRAD-CA). (1998) 9–10.

Dillon SL, Lawrence PK, Henry RJ. The new use of Sorghum bicolor derived SSR markers to evaluate genetic diversity in seventeen Australian Sorghum species. Plant Genetic Resources (2005) 3:19–28.

Dillon SL, Lawrence PK, Henry RJ, Price HJ. Sorghum resolved as a distinct genus based on combined ITS1, ndhF and Adh1 analyses. Plant Systematics and Evolution (2007) (in press).

Doggett H. Sorghum (1970) London, New York: Longman; published by Wiley.

Doggett H. Sorghum (1988) 2nd edn. London, New York: Longman; published by Wiley.

Duodo K, Taylor J, Belton P, Hamaker B. Factors affecting sorghum protein digestibility. Journal of Cereal Science (2003) 38:117–131.

Edme SJ, Miller JD, Glaz B, Tai PY-P, Comstock JC. Genetic contribution to yield in the Florida sugarcane industry accross 33 years. Crop Science (2005) 45:92–97.

Ellis RH, Qi A, Craufurd PQ, Summerfield RJ, Roberts EH. Effects of photoperiod, temperature and asynchrony between thermoperiod and photoperiod on development to panicle initiation in. Sorghum. Annals of Botany. (1997) 79:169–178.

Fannon J, Gray J, Gunawan N, Huber K, BeMiller J. The channels of starch granules. Food Science and Biotechnology (2003) 12:700–704.

Fannon J, Gray J, Gunawan N, Huber K, BeMiller J. Heterogeneity of starch granules and the effect of granule channelization on starch modification. Cellulose (2004) 11:247–254.

Feltus FA, Hart GE, Schertz KF, Casa AM, Kresovich S, Abraham S, et al. Alignment of genetic maps and QTLs between inter- and intra-specific sorghum populations. Theoretical and Applied Genetics (2006) 112:1295–1305.

Franzmann BA, Hardy AT. Testing the host status of Australian indigenous sorghums for the sorghum midge. Foale MA, Henzell RG, Kneip JF, eds. (1996) Proceedings of the Third Australian Sorghum Conference: Tamworth, NSW, Australia. 365–367.

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

González-Martínez SC, Robledo-Arnuncio JJ, Collada C, Díaz A, Williams CG, Alía R, et al. Cross-amplification and sequence variation of microsatellite loci in Eurasian hard pines. Theoretical and Applied Genetics (2004) 109:103–111.

Grivet L, D'Hont A, Roques D, Feldmann P, Lanaud C, Glaszmann J-C. RFLP mapping in a highly polyploid and aneuploid interspecific hybrid. Genetics (1996) 142:987–1000.

Grivet L, Glaszmann JC, Arruda P. Sequence polymorphism from EST data in sugarcane: a fine analysis of 6-phosphogluconate dehydrogenase genes. Genetics and Molecular Biology (2001) 24:161–167.

Grivet L, Glaszmann JC, Vincentz M, da Silva F, Arruda P. ESTs as a source for sequence polymorphism discovery in sugarcane: example of the Adh genes. Theoretical and Applied Genetics (2003) 106:190–197.

Gut IG. Automation in genotyping of single nucleotide polymorphisms. Human Mutation (2001) 17:475–492.

Harlan JR, de Wet JMJ. Toward a rational classification of cultivated sorghums. Crop Science (1971) 12:172–176.

Harlan JR, de Wet JMJ. A simplified classification of cultivated plants. Taxon (1972) 20:509–517.

van Harten AM. Mutation breeding theory and applications (1998) Cambridge: Cambridge University Press.

Henikoff S, Comai L. Single-nucleotide mutations for plant functional genomics. Annual Review of Plant Biology (2003) 54:375–401.

Henikoff S, Till BJ, Comai L. TILLING: traditional mutagenesis meets functional genomics. Plant Physiology (2004) 135:630–636.

Hernández P, Dorado G, Laurie DA, Martin A, Snape JW. Microsatellites and RFLP probes from maize are efficient sources of molecular markers for the biomass energy crop. Miscanthus. Theoretical and Applied Genetics (2001) 102:616–622.

Hoarau JY, Offmann B, D'Hont A, Risterucci AM, Roques D, Glaszmann JC, et al. Genetic dissection of a modern sugarcane cultivar (Saccharum spp.). I. Genome mapping with AFLP markers. Theoretical and Applied Genetics (2001) 103:84–97.

Hoarau JY, Grivet L, Offmann B, Raboin LM, Diorflar JP, Payet J, et al. Genetic dissection of a modern sugarcane cultivar (Saccharum spp.). II. Detection of QTLs for yield components. Theoretical and Applied Genetics (2002) 105:1027–1037.

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

House LR. A guide to sorghum breeding. (1985) 2nd edn. Patancheru, India: International Crops Research Institute for the Semi-Arid tropics. 206.

House LR, Osmanzai M, Gomez MI, Monyo ES, Gupta SC. Agronomic principles. In: Sorghum and millets, chemistry and technology—Dendy DAV, ed. (1995) St Paul, MN: American Association of Cereal Chemists. 27–67.

Jordan DR, Tao YZ, Godwin ID, Henzell RG, Cooper M, McIntyre CL. Loss of genetic diversity associated with selection for resistance to sorghum midge in Australian sorghum. Euphytica (1998) 102:1–7.

Kamala V, Singh SD, Bramel PJ, Rao DM. Sources of resistance to downy mildew in wild and weedy sorghums. Crop Science (2002) 42:1357–1360.

Kan CCPF, Doherty EAS, Barron AE. DNA sequencing and genotyping in miniaturized electrophoresis systems. Electrophoresis (2004) 25:3564–3588.

Karunakar RI, Narayana YD, Pande S, Mughogho LK, Singh SD. Evaluation of wild and weedy sorghums for downy mildew resistance. International Sorghum and Millets Newsletter (1994) 35:104–106.

Kayode APP, Linnemann AR, Nout MJR, Hounhouigan JD, Stomph TJ, Smulders MJM. Diversity and food quality properties of farmers' varieties of sorghum from Benin. Journal of the Science of Food and Agriculture (2006) 86:1032–1039.

Komolong B, Chakraborty S, Ryley M, Yates D. Identity and genetic diversity of the sorghum ergot pathogen in Australia. Australian Journal of Agricultural Research (2002) 53:621–628.

Kong L, Dong J, Hart GE. Characteristics, linkage-map positions, and allelic differentiation of Sorghum bicolor (L.) Moench DNA simple-sequence repeats (SSRs). Theoretical and Applied Genetics (2000) 101:438–448.

Kresovich S, Barbazuk B, Bedell JA, Borrell A, Buell CR, Burke J, et al. Toward sequencing the sorghum genome. A US National Science Foundation-sponsored Workshop Report. Plant Physiology (2005) 138:1898–1902.

Kuhlman LC, Burson BL, Klein PE, Stelly DM, Rooney WL. Interspecific sorghum breeding using S. macrospermum. (2006) 11. Proceedings of the ASA-CSSA-SSA 2006 International Meetings: Indianapolis. 12–16. 2006.

Laurie D, Bennett MD. Genetic variation in Sorghum for the inhibition of maize pollen tube growth. Annals of Botany (1989) 64:675–681.

Lazarides M, Hacker JB, Andrew MH. Taxonomy, cytology and ecology of indigenous Australian sorghums (Sorghum Moench: Andropogoneae: Poaceae). Australian Systematic Botany (1991) 4:591–635.

Lebot V. Biomolecular evidence for plant domestication in Sahul. Genetic Resources and Crop Evolution (1999) 46:619–628.

Lindeboom N, Chang PR, Tyler RT. Analytical, biochemical and physicochemical aspects of starch granule size, with emphasis on small granule starches: a review. Starch – Starke (2004) 56:89–99.

McCallum CM, Comai L, Greene EA, Henikoff S. Targeting induced local lesions in genomes (TILLING) for plant functional genomics. Plant Physiology (2000) 123:439–442.

McIntosh SR, Watson L, Bundock PC, Crawford AC, White J, Cordeiro GM, et al. SAGE of the most abundant transcripts in the developing wheat Caryopsis. Plant Biotechnology Journal (2007) 5:69–83.

McIntyre CL, Casu RE, Drenth J, Knight D, Whan VA, Croft BJ, et al. Resistance gene analogues in sugarcane and sorghum and their association with quantitative trait loci for rust resistance. Genome (2005) 48:391–400.

McIntyre CL, Jackson M, Cordeiro G, Amouyal O, Eliott F, Henry RJ, et al. The identification and characterisation of alleles of sucrose phosphate synthase gene family III in sugarcane. Molecular Breeding (2006) 18:39–50.

Ma HM, Schulze S, Lee S, Yang M, Mirkov E, Irvine J, et al. An EST survey of the sugarcane transcriptome. Theoretical and Applied Genetics (2004) 108:851–863.

Mariotti JA. Selection for sugar cane yield and quality components in subtropical climates. Sugar Cane International. (2002) 3/4. 22–26.

Miller FR. The breeding of sorghum. Texas Agricultural Experiment Station (1980) 1451:128–136.

Miller FR. Genetic and environmental response characteristics of sorghum. (1982) Sorghum in the Eighties, Proceedings of International Symposium on Sorghum, : 2–7 November 1981. Patancheru, India. ICRISAT. 393–402.

Ming R, Liu SC, Lin YR, da Silva J, Wilson W, Braga D, et al. Detailed alignment of Saccharum and Sorghum chromosomes: comparative organization of closely related diploid and polyploid genomes. Genetics (1998) 150:1663–1682.

Ming R, Liu S-C, Moore PH, Irvine JE, Paterson AH. QTL analysis in a complex autopolyploid: genetic control of sugar content in sugarcane. Genome Research (2001) 11:2075–2084

Ming R, Del Monte TA, Hernandez E, Moore PH, Irvine JE, Paterson AH. Comparative analysis of QTLs affecting plant height and flowering among closely-related diploid and polyploid genomes. Genome (2002) 45:794–803.

Mullet JE, Klein RR, Klein PE. Sorghum bicolor — an important species for comparative grass genomics and a source of beneficial genes for agriculture. Current Opinion in Plant Biology (2002) 5:118–121.

Nurmi J, Kiviniemi M, Kujanpaa M, Sjoroos M, Ilonen J, Lovgren T. High-throughput genetic analysis using time-resolved fluorometry and closed-tube detection. Analytical Biochemistry (2001) 299:211–217.

Pan Y-B, Cordeiro GM, Richard EP, Henry RJ. Molecular genotyping of sugarcane clones with microsatellite DNA markers. Maydica (2003) 48, a. 319–329.

Pan Y-B, Miller JD, Schnell RJ, Richard J, RP, Wei Q. Application of microsatellite and RAPD fingerprints in the Florida sugarcane variety program. Sugar Cane International (2003) 2003, b. 19–28.

Pan YB, Burner DM, Wei Q, Cordeiro GM, Legendre BL, Henry RJ. New Saccharum hybrids in S. spontaneum cytoplasm developed through a combination of conventional and molecular breeding approaches. Plant Genetic Resources (2004) 2:131–139.

Paterson AH, Bowers JE, Chapman BA. Ancient polyploidization predating divergence of the cereals, and its consequences for comparative genomics. Proceedings of the National Academy of Sciences of the USA (2004) 101:9903–9908.

Peakall R, Gilmore S, Keys W, Morgante M, Rafalski A. Cross-species amplification of soybean (Glycine max) simple sequence repeats (SSRs) within the genus and other legume genera: implications for the transferability of SSRs in plants. Molecular Biology and Evolution (1998) 15:1275–1287.

Piperidis G, Taylor GO, Smith GR. A microsatellite marker database for fingerprinting sugarcane clones. (2001) XXIV Proceedings of the International Society of Sugar Cane Technologists. Mackay: Australian Society of Sugar Cane Technologists. 632–633.

Price HJ, Dillon SL, Hadnett G, Rooney WL, Ross L, Johnston JS. Genome evolution in the genus Sorghum (Poaceae). Annals of Botany (2005) 95, a. 219–227.

Price HJ, Hodnett GL, Burson BL, Dillon SL, Rooney WL. A Sorghum bicolor x S. macrospermum hybrid recovered by embryo rescue and culture. Australian Journal of Botany (2005) 53, b. 579–582.

Price HJ, Hodnett GL, Burson BL, Dillon SL, Stelly DM, Rooney WL. Genome dependent interspecific hybridisation of Sorghum bicolor (Poaceae). Crop Science (2006) 46:2617–2622.

Quint M, Mihaljevic R, Dussle CM, Xu ML, Melchinger AE, Lubberstedt T. Development of RGA-CAPS markers and genetic mapping of candidate genes for sugarcane mosaic virus resistance in maize. Theoretical and Applied Genetics (2002) 105:355–363.

Rai KN, Murty DS, Andrews DJ, Bramel-Cox PJ. Genetic enhancement of pearl millet and sorghum for the semi-arid tropics of Asia and Africa. Genome (1999) 42:617–628.

Rafalski A. Applications of single nucleotide polymorphisms in crop genetics. Current Opinion in Plant Biology (2002) 5:94–100.

Ramsay L, Macaulay M, degli Ivanissevich S, MacLean K, Cardle L, Fuller J, et al. A simple sequence repeat-based linkage map of barley. Genetics (2000) 156:1997–2005.

Rao NPG, Rana BS. Selection in temperate and tropical crosses of sorghum. (1982) 11. Sorghum in the Eighties, Proceedings of International Symposium on Sorghum, 2–7: Patancheru, India. ICRISAT. 403–420. 1981.

Reddy BBS, Ramesh S, Reddy PS. Sorghum genetic resources, cytogenetics and improvement. In: Cereals—Singh RJ, Jauhar PP, eds. (2006) Vol. 2. Boca Raton, FL: CRC Taylor and Francis. 309–363. Genetic resources, chromosome engineering, and crop improvement.

Roach BT. Origin and improvement of the genetic base of sugarcane. Proceedings of the Australian Society of Sugar Cane Technology, 34–47 (1989).

Rooney WL, Smith CW. Techniques for developing new cultivars. Smith CW, Frederiksen RA, eds. (2000) New York, NY: John Wiley & Sons. 329–347. Sorghum, origin, history, technology and production.

Rosenow DT, Clark LE. Drought and lodging resistance for a quality sorghum crop. (1995) Proceedings of the Fiftieth Annual Corn and Sorghum Industry Research Conference, 6–7 December: Chicago, IL. 82–97.

Rosenow DT, Dahlberg JA. Collection, conversion and utilisation of sorghum. Smith CW, Frederiksen RA, eds. (2000) New York, NY: John Wiley, Sons. 309–328. Sorghum, origin, history, technology and production.

Ross P, Hall L, Smirnow I, Haff L. High level multiplex genotyping by MALDI-TOF mass spectrometry. Nature Biotechnology (1998) 16:1347–1351.

Rossi M, Araujo PG, Paulet F, Garsmeur O, Dias VM, Chen H, et al. Genomic distribution and characterization of EST-derived resistance gene analogs (RGAs) in sugarcane. Molecular Genetics and Genomics (2003) 269:406–419.

Scott LJ, Shepherd M, Henry RJ. Characterization of highly conserved microsatellite loci in Araucaria cunninghamii and related species. Plant Systematics and Evolution (2003) 236:115–123.

Serna-Saldivar S, Rooney L. Structure and chemistry of sorghum and millets. Dendy DAV, ed. (1995) St Paul, MN: American Association of Cereal Chemists. 69–124. Sorghum and millets, chemistry and technology.

Shapter FM, Lee LS, Henry R. Endosperm and starch granule morphology in wild cereal relatives. Plant Genetic Resources (2007) (in press).

Sharma HC. Host-plant resistance to insects in sorghum and its role in integrated pest management. Crop Protection (1993) 12:11–34.

Sharma HC, Franzmann BA. Host-plant preference and oviposition responses of the sorghum midge, Stenodiplosis sorghicola (Coquillett) (Dipt. Cecidomyiidae) towards wild relatives of sorghum. Journal of Applied Entomology (2001) 125:109–114.

Sills G, Bridges W, Al-Janabi S, Sobral BWS. Genetic analysis of agronomic traits in a cross between sugarcane (Saccharum officinarum L.) and its presumed progenitor (S. robustum Brandes, Jesw. Ex. Grassl). Molecular Breeding (1995) 1:355–363.

Slade AJ, Fuerstenberg SI, Loeffler D, Steine MN, Facciotti D. A reverse genetic, non-transgenic approach to wheat crop improvement by TILLING. Nature Biotechnology (2005) 23:75–81.

Smith CW, Frederiksen RA. Sorghum: origin, history, technology, and production. (2000) New York, NY: John Wiley and Sons. 824.

Spangler RE. Taxonomy of Sarga, Sorghumand Vacoparis (Poaceae: Andropogoneae). In: Australian Systematic Botany (2003) 16:279–299.

Sreenivasan TV, Ahloowalia BS, Heinz DJ. Cytogenetics. Heinz DJ, ed. (1987) Amsterdam: Elsevier. 211–253. Sugarcane improvement through breeding.

Storm N, Darnhofer-Patel B, van den Boom D, Rodi CP. MALDI-TOF mass spectrometry-based SNP genotyping. Methods in Molecular Biology (2003) 212:241–262.

Sudupak MA. Inter- and intra-species inter simple sequence repeat (ISSR) variations in the genus. Cicer. Euphytica (2004) 135:229–238.

Szantai E, Ronai Z, Szilagyi A, Sasvari-Szekely M, Guttman A. Haplotyping by capillary electrophoresis. Journal of Chromatography (2005) 1079:41–49.

Tang T, Huang JZ, Zhong Y, Shi SH. High-throughput S-SAP by fluorescent multiplex PCR and capillary electrophoresis in plants. Journal of Biotechnology (2004) 114:59–68.

Tao YZ, Hardy A, Drenth J, Henzell RG, Franzmann BA, Jordan DR, et al. Identifications of two different mechanisms for sorghum midge resistance through QTL mapping. Theoretical and Applied Genetics (2003) 107:116–122.

Taramino G, Tarchini R, Ferrario S, Lee M, Pé ME. Characterisation and mapping of simple sequence repeats (SSRs) in. Sorghum bicolor. Theoretical and Applied Genetics (1997) 95:66–72.

Templeton AR, Sing CF, Kessling A, Humphries S. A cladistic analysis of phenotype associations with haplotypes inferred from restriction endonuclease mapping. II. The analysis of natural populations. Genetics (1988) 120:1145–1154.

Tesso T, Ejeta G, Chandrashekar A, Huang CP, Tandjung A, Lewamy M, et al. A novel modified endosperm texture in a mutant high-protein digestibility/high-lysine grain sorghum (Sorghum bicolor (L.) Moench). Cereal Chemistry (2006) 83:194–201.

Tew TL, White WH, Grisham MP, Dufrene EO Jr, Garrison DD, Veremis JC, et al. Registration of ‘HoCP 13 96–540’ Sugarcane. Crop Science (2003) 45:785–786.

Till BJ, Reynolds SH, Greene EA, Codomo CA, Enns LC, Johnson JE, et al. Large-scale discovery of induced point mutations with high-throughput TILLING. Genome Research (2003) 13:524–530.

Till BJ, Reynolds SH, Weil C, Springer N, Burtner C, Young K, et al. Discovery of induced point mutations in maize genes by TILLING. BMC Plant Biology (2004) 4:12.

Tishkoff SA, Goldman A, Calafell F, Speed WC, Deinard AS, Bonne-Tamir B, et al. A global haplotype analysis of the mytonic dystrophy locus: implications for the evolution of modern humans and for the origin of myotonic dystrophy mutations. American Journal of Human Genetics (1998) 62:1389–1402.

USDA ARS. National Genetic Resources Program. In: Germplasm Resources Information Network (GRIN) (2007) Beltsville, MD: National Germplasm Resources Laboratory. URL. [Online Database] (17 May 2007).

Vettore AL, da Silva FR, Kemper EL, Arruda P. The libraries that made SUCEST. Genetic Molecular Biology (2001) 24:1–7.

Vouk K, Gazvoda B, Komel R. Fluorescent multiplex PCR and capillary electrophoresis for analyisis of PKD1 and PKD2 associated microsatellite markers. BioTechniques (2000) 29:1187–1190.

Waters DLE, Henry RJ, Reinke RF, Fitzgerald MA. Gelatinisation temperature of rice explained by polymorphisms in starch synthase. Plant Biotechnology Journal (2005) 4:115–122.

Wright S. Evolution in Mendelian populations. Genetics (1931) 16:97.

Wu JL, Wu CJ, Lei CL, Baraoidan M, Bordeos A, Madamba MRS, et al. Sorghum diversity evaluated by simple sequence repeat (SSR) markers and phenotypic performance. Plant Production Science (2004) 7:301–308.

Wu JL, Wu CJ, Lei CL, Baraoidan M, Bordeos A, Madamba MRS, et al. Chemical- and irradiation-induced mutants of indica rice IR64 for forward and reverse genetics. Plant Molecular Biology (2005) 59:85–97.

Wu K, Burnquist W, Sorrels M, Tew TL, Moore P, Tanksley S. The detection and estimation of linkage in polyploids using single-dose restriction fragments. Theoretical and Applied Genetics (1992) 83:294–300.

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