Full Length Research Paper
References
|
Abu Assar A, Uptmoor R, Abdelmula A, Salih M, Ordon F, Friedt W (2005). Genetic variation in sorghum germplasm from Sudan, ICRISAT, and USA assessed by simple sequence repeats (SSRs). Crop Science 45:1636-1644. |
|
|
Aguirre C, Alvarado R, Hinrichsen P (2005). Identificatión de cultivares y lineas de mejoramiento de arroz de Chile mediante amplificatión de fragmentos polimórficos (AFLP). Agricultura Técnica 65:356-369. |
|
|
Anderson JA, Churchell GA, Autrique JE, Tanksley SD, Sorrells ME (1993). Optimizing parental selection for genetic linkage map. Genome 36:181-186. |
|
|
Becerra V, Paredes M, Gutiérrez E, Rojo C (2015). Genetic diversity, identification, and certification of Chilean rice varieties using molecular markers. Chilean Journal of Agricultural Research 73(3):267-274. |
|
|
Borba TCO, Brondani RPV, Rangel PHN, Brondani C (2009). Microsatellite marker-mediated analysis of the EMBRAPA rice core collection genetic diversity. Genetica 137(3):293-304. |
|
|
Cavalli-Sforza LL, Edwards AW (1967). Phylogenetic analysis: Models and estimation procedures. American Journal of Human Genetics 19:233-257. |
|
|
Cho YG, Ishii T, Temnykh S, Chen X, Lipovich L, McCouch SR, Park WD, Ayers N, Cartinhour S (2000). Diversity of microsatellites derived from genomic libraries and genbank sequences in rice (Oryza sativa L.). Theoretical and Applied Genetics 100(5):713-722. |
|
|
Dean RE, Dahlberg JA, Hopkins MS, Mitchell CV, Kresovich S (1999). Genetic redundancy and diversity among orange accessions in the US national sorghum collection as assessed with castiglisimplen sequence repeat (SSR) markers. Crop Science 39:1215-1221. |
|
|
Ghneim HT, Duque DP, Almeida IP, Nú-ez GT, Pieters AJ, Martinez CP, Tohme JM (2008). Assessment of genetic diversity in Venezuelan rice cultivars using simple sequence repeats markers. Electronic Journal of Biotechnology 11(5):0717-3458. |
|
|
Hakim O (1963). Economical Appraisal of Bahr El-Ghazal Rice Project. A Report. Department of Agriculture, Agriculture and Economic Division, Khartoum - Sudan. |
|
|
Hartl LD, Clark AG (1997). Principles of Population Genetics. 3rd edition, Snauer Associates, Inc. Publishers, Sunderland, pp 1-682. |
|
|
Hashimoto Z, Mori N, Kawamura M, Ishii T, Yoshida S, Ikegami M, Takumi S, Nakamura C (2004). Genetic diversity and phylogeny of Japanese sake-brewing rice as revealed by AFLP and nuclear and chloroplast SSR markers. Theoretical and Applied Genetics 109:1586-1596. |
|
|
Hoque A, Begum SN, Hassan L (2014). Genetic diversity assessment of rice (Oryza sativa L.) germplasm using SSR markers. Research in Agriculture Livestock and Fisheries 1(1):37-46. |
|
|
Hossain MM, Islam MM, Hossain H, Ali MS, Teixeira da Silva JA, Komamine A, Prodhan SH (2012). Genetic diversity analysis of aromatic landraces of rice (Oryza sativa L.) by microsatellite markers. Genes, Genomes and Genomics 6(SI1):42-47. |
|
|
Hossain MZ, Rasul MG, Ali MS, Iftekharuddaula KM, Mian MAK (2007). Molecular characterization and genetic diversity in fine grain and aromatic landraces of rice using microsatellite markers. Bangladesh Journal of Genetics and Plant Breeding 20(2):1-10. |
|
|
Jackson MT, Juggan R (1993). Sharing the diversity of rice to feed the world. Diversity 9:22-25. |
|
|
Jeung JU, Hwang HG, Moon HP, Jena KK (2005). Fingerprinting temperate japonica and tropical indica rice genotypes by comparative analysis of DNA markers. Euphytica 146:239-251. |
|
|
Khush GS, Virk PS (2005). IR Varieties and Their Impact. International Rice Research Institute, Los Ba-os (Philippines). |
|
|
Liu K, Muse SV (2005). PowerMarker: an integrated analysis environment for genetic marker analysis. Bioinformatics Applications Note 21(9):2128-2129. |
|
|
Ma H, Yin Y, Guo ZF, Cheng LJ, Zhang L, Zhong M, Shao GJ (2011). Establishment of DNA fingerprinting of Liaojing series of japonica rice. Middle-East Journal of Scientific Research 8(2):384-392. |
|
|
Mac DM (1992). Response of rice yield to different water management practices at two phases of growth. M.Sc. Thesis, Faculty of Agriculture, University of Khartoum, Sudan. |
|
|
Melchinger AE, Messmer M, Lee M, Woodman WL, Lamkey RR (1991). Diversity and relationships among US maize inbreds revealed restriction fragment length polymorphism. Crop Science 31:669-678. |
|
|
Nei M (1987). Molecular Evolutionary Genetics. Columbia University Press, New York. |
|
|
Onaga G, Egdane J, Edema R, Ismail AM (2013). Morphological and genetic diversity analysis of rice accessions (Oryza sativa L.) differing in Iron toxicity tolerance. Journal of Crop Science and Biotechnology 16(1):85-95. |
|
|
Prabakaran A, Paramasivam K, Rajesh T, Rajarajan D (2010). Molecular characterization of rice landraces using SSR markers. Electronic Journal of Plant Breeding 1(4):512-516. |
|
|
Rabbani MA, Pervaiz ZH, Masood MS (2008). Genetic diversity analysis of traditional and improved cultivars of Pakistani rice (Oryza sativa L.) using RAPD markers. Electronic Journal of Biotechnology 11(3):1-10. |
|
|
Sajib AM, Hossain MdM, Mosnaz ATMJ, Hossain H, Islam MdM, Ali MdS, Prodhan SH (2012). SSR marker-based molecular characterization and genetic diversity analysis of aromatic landraces of rice (Oryza sativa L.). Journal of Biological Science and Biotechnology 1(2):107-116. |
|
|
Simioniuc D, Uptmoor R, Friedt W, Ordon F (2002). Genetic diversity and relationships among pea cultivars (Pisum sativum L.) revealed by RAPDs and AFLPs. Plant Breeding 121:429-435. |
|
|
Song MT, Lee JH, Cho YS, Jeon YH, Lee SB, Ku JH, Choi SH, Hwang HG (2002). Narrow genetic background of Korean rice germplasm as revealed by DNA fingerprinting with SSR markers and their pedigree information. Korean Journal of Genetics 24:397-403. |
|
|
Thomson MJ, Septiningsih EM, Suwardjo F, Santoso TJ, Silitonga TS, McCouch SR (2007). Genetic diversity analysis of traditional and improved Indonesian rice (Oryza sativa L.) germplasm using microsatellite markers. Theoretical and Applied Genetics 114:559-568. |
|
|
Thomson MJ, Edwards JD, Septiningsih EM, Harrington SE, McCouch SR (2006). Substitution mapping of dth1.1, a flowering-time quantitative trait locus (QTL) associated with transgressive variation in rice, reveals multiple Sub-QTL. Genetic Society of America. Genetics 172:2501-2514. |
|
|
Upadhyay P, Singh VK, Neeraja CN (2011). Identification of genotype specific alleles and molecular diversity assessment of popular rice (Oryza sativa L.) varieties of India. International Journal of Plant Breeding and Genetics 5(2):130-140. |
|
|
Wong SC, Yiu PH, Bong STW, Lee HH, Neoh PNP, Rajan A (2009). Analysis of Sarawak Barrio rice diversity using microsatellite markers. American Journal of Agricultural and Biological Sciences 4(4):298-304. |
|
|
Xu YB, Beachell H, McCouch SR (2004). A marker-based approach to broadening the genetic base of rice in the USA. Crop Science 44(6):1947-1959. |
|
|
Yu SB, Xu WJ, Vijayakumar CHM, Ali J, Fu BY, Xu JL, Virmani SS (2003). Molecular diversity and multilocus organization of the parental lines used in the International Rice Molecular Breeding Program. Theoretical and Applied Genetics 108(1):131-140. |
|
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0
