[1]Budak H, Shearman R C, Gaussoin R E, Dweikat I. 2004a.Application of sequence-related amplifiedpolymorphism markers for characterization of turfgrassspecies. HortScience, 39, 955-958[2]Budak H, Shearman R C, Parmaksiz I, Dweikat I. 2004b.Comparative analysis of seeded and vegetative biotypebuffalograsses based on phylogenetic relationshipusing ISSRs, SSRs, RAPDs, and SRAPs. Theoreticaland Applied Genetics, 109, 280-288[3]Budak H, Shearman R C, Parmaksiz I, Gaussion R E, RiordanT P, Dweikat I. 2004c. Molecular characterization ofbuffalograss germplasm using sequence-relatedamplified polymorphism markers. Theoretical andApplied Genetics, 108, 328-334[4]Darvari A, Soller M. 1994. Selective DNA pooling fordetermination of linkage between a molcular marker anda quantitative trait locus. Genetics, 138, 1365-1373[5]Dhir S K, Oglesby J, Bhagsari A S. 1998. Plant regenerationvia embryogenesis and transient gene expression insweetpotato protoplasts. Plant Cell Report, 17, 665-669[6]Ferriol M, Pico B, de Cordova P F, Nunez F. 2004. Moleculardiversity of a germplasm collection of squash(Cucurbita moschata) determined by SRAP and AFLPmarkers. Crop Science, 44, 653-664[7]Ferriol M, Pico B, Nuez F. 2003. Genetic diversity of agermplasm collection of Cucurbita pepo using SRAPand AFLP markers. Theoretical and Applied Genetics,107, 271-282[8]Jiang L, Yuan L, Zha X D, Wu F, Ma D F, Xie Y P, Li X Y,Wang Y. 2007. A RAPD marker linked to the resistanceDitylenchus destructor in sweetpotato. MolecularPlant Breeding, 5, 655-660[9]Jie Q, Jiang W, Li H, Zhai H, Ma D F, Xie Y P, Liu Q C.2008a. Inheritance analysis and SCAR marker of thegene for stem nematode resistance in sweetpotato,Ipomoea batatas (L.) Lam. Molecular Plant Breeding,6, 523-526[10]Jie Q, Li H, Zhai H, Wang Y P, Li Q, Ma D F, Xie Y P, Liu QC. 2008b. Development of AFLP markers linked to stemnematode resistance gene in sweetpotato (Ipomoeabatatas). Journal of Agricultural Biotechnology, 16,837-841[11]Jones A. 1965. Cytological observation and fertilitymeasurements of sweetpotato. Proceedings of theAmerican Society for Horticultural Science, 86, 527-537[12]Li A X, Wang Q M, Hou F Y, Zhang H Y, Zhang L M. 2008.Two SRAP markers linked to sweetpotato stemnematode resistance gene in sweetpotato. MolecularPlant Breeding, 6, 1204-1208[13]Li G, Quiros C F. 2001. Sequence-related amplifiedpolymorphism (SRAP), a new marker system based ona simple PCR reaction: its application to mapping andgene tagging in Brassica. Theoretical and Applied Genetics, 103, 455-461[14]Li G, Gao M, Yang B, Quiros C F. 2003. Gene for genealignment between the Brassica and Arabidopsisgenomes by direct transcriptome mapping. Theoreticaland Applied Genetics, 107, 168-180[15]Lin Z, He D, Zhang X, Nie Y, Guo X, Feng C, Stewart J M D.2005. Linkage map construction and mapping QTL forcotton fibre quality using SRAP, SSR and RAPD. PlantBreeding, 124, 180-187[16]Lin Z X, Zhang X L, Nie Y C. 2004. Evaluation of applicationof a new molecular marker SRAP on analysis of F2segregation population and genetic diversity in cotton.Acta Genetica Sinica, 31, 622-626 (in Chinese)[17]Lu S Y, Liu Q C, Li W J. 1998. Sweetpotato Breeding. ChinaAgriculture Press, Beijing. (in Chinese)Ma D F, Li H M, Xie Y P, Li X Y, Zhu C W, Jiang X M. 1997.Breeding of stem-nematode resistant varieties insweetpotato. Crops, 2, 15-16[18]Magoon M L, Krishnar R, Bai K V. 1970. Ctytologicevidence on the origin of sweetpotato. Theoretical andApplied Genetics, 40, 360-366[19]Michelmore R W, Paran I, Kesseli R V. 1991. Identificationof markers linked to disease resistance genes by bulkedsegregent analysis: a rapid method to detect markers inspecific genomic regions using segregating population.Proceedings of the American Society for HorticulturalScience, 88, 9828-9832[20]Riaz A, Li G, Quresh Z, Swati M S, Quiros C F. 2001. Geneticdiversity of oilseed Brassica napus inbred lines basedon sequence-related amplified polymorphism and itsrelation to hybrid performance. Plant Breeding, 120,411-415[21]Saghai-Maroof M A, Soliman K M, Jorgensen R A, AllardR W. 1984. Ribosomal DNA spacer-lengthpolymorphisms in barly: Mendelian inheritance,chromosomal location, and population dynamics.Proceedings of the National Academy of Sciences ofthe United States of America, 81, 8014-8018[22]Ukoskit K, Thompson P G, Watson C E, Watson Jr C E.1997. Identifying a randomly amplified polymorphicDNA (RAPD) markers linked to a gene for root knotnematode resistance in sweetpotato. Journal ofAmerican Society for Horticultural Science, 122, 818-821[23]Vos P, Hogers R, Bleeker M, Lee van de T, Horns M, FrijtersA, Pot J, Peleman J, Kuiper M, Zabeau M. 1995. AFLP:a new technique for DNA fingerprinting. Nucleic AcidsResearch, 23, 4407-4414[24]Xie Y Z, Yin Q H, Dai Q W, Qiu R L. 2004. Inheritance andbreeding for resistance to sweetpotato nematodes.Journal of Plant Genetic Resources, 5, 393-396[25]Zang N, Zhai H, Gao S, Chen W, He S Z, Liu Q C. 2009.Efficient production of transgenic plants using the bargene for herbicide resistance in sweetpotato. ScientiaHorticulturae, 122, 649-653 (in Chinese)[26]Zhou Z, Wang X, Ma D F, Li H M, Xie Y P, Li X Y. 2005.Identification of RAPD markers linked to stem-nematoderesistant gene in sweetpotato. Journal of AgriculturalBiothecnology, 13, 549-552. (in Chinese) |