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2012
F. Zhang, Ge, Y. Y., Wang, W. Y., Shen, X. L., and Yu, X. Y., Assessing genetic divergence in interspecific hybrids of Aechmea gomosepala and A. recurvata var. recurvata using inflorescence characteristics and sequence-related amplified polymorphism markers, vol. 11, pp. 4169-4178, 2012.
Abdel-Mawgood AL, Ahmed MMM and Ali BA (2006). Applification of molecular markers for hybrids maize (Zea mays L.) identification. J. Food Agric. Environ. 4: 176-178.   Barfuss MH, Samuel R, Till W and Stuessy TF (2005). Phylogenetic relationships in subfamily Tillandsioideae (Bromeliaceae) based on DNA sequence data from seven plastid regions. Am. J. Bot. 92: 337-351. http://dx.doi.org/10.3732/ajb.92.2.337 PMid:21652410   Bharathi LK, Vinod, Das AB, Ghosh N, et al. (2011). Cytomorphological and molecular characterization of interspecific F1 hybrid of Momordica dioica Roxb. x Momordica subangulata subsp. Renigera (G. Don) de Wilde. Afr. J. Agric. Res. 6: 2982-2990.   Bianco CL, Farnández JA, Migliaro D, Crinò P, et al. (2011). Identification of F1 hybrids of artichoke by ISSR markers and morphological analysis. Mol. Breed. 27: 157-170. http://dx.doi.org/10.1007/s11032-010-9418-0   Boisselier-Dubayle MC, Leblois R, Samadi S, Lambourdiere J, et al. (2010). Genetic structure of the xerophilous bromeliad Pitcairnia geyskesii on inselbergs in French Guiana - a test of the forest refuge hypothesis. Ecography 33: 175-184. http://dx.doi.org/10.1111/j.1600-0587.2009.05446.x   Dabkevičiene G, Paplauskienė V and Pašakinskienė I (2008). Assessment of the agronomic utility of interspecific hybrids Trifolim Pratense L. x T. diffusum Ehrh. and confirmation of their hybridity with ISSR markers. J. Food Agric. Environ. 6: 187-190.   Dhillon RS, Hooda MS, Jattan M, Chawla V, et al. (2009). Development and molecular characterization of interspecific hybrids of Jatropha curcas x J. integerrima. Indian J. Biotechnol. 8: 384-390.   Divakaran M, Babu KN, Ravindran PN and Peter KV (2006). Interspecific hybridization in vanilla and molecular characterization of hybrids and selfed progenies using RAPD and AFLP markers. Sci. Hortic. 108: 414-422. http://dx.doi.org/10.1016/j.scienta.2006.02.018   Fu J, Peng ZJ, Cai XD and Guo WW (2011). Regeneration and molecular characterization of interspecific somatic hybrids between Satsuma mandarin and two seedy sweet oranges for scion improvement. Plant Breed. 130: 287-290. http://dx.doi.org/10.1111/j.1439-0523.2010.01773.x   Han XY, Wang LS, Shu QY, Liu ZA, et al. (2008). Molecular characterization of tree peony germplasm using sequence-related amplified polymorphism markers. Biochem. Genet. 46: 162-179. http://dx.doi.org/10.1007/s10528-007-9140-8 PMid:18224436   Hao Q, Liu ZA, Shu QY, Zhang R, et al. (2008). Studies on Paeonia cultivars and hybrids identification based on SRAP analysis. Hereditas 145: 38-47. http://dx.doi.org/10.1111/j.0018-0661.2008.2013.x PMid:18439232   Hauser LA and Crovello TJ (1982). Numerical analysis of generic relationships in the Thelypodieae (Brossicaceae). Syst. Bot. 7: 249-268. http://dx.doi.org/10.2307/2418387   Izquierdo LY and Pinero D (2000). High genetic diversity in the only known population of Aechmea tuitensis (Bromeliaceae). Aust. J. Bot. 48: 645-650. http://dx.doi.org/10.1071/BT99043   Li G and Quiros CF (2001). Sequence-related amplified polymorphism (SRAP), a new marker system based on a simple PCR reaction: its application to mapping and gene tagging in Brassica. Theor. Appl. Genet. 103: 455-461. http://dx.doi.org/10.1007/s001220100570   Li G, Gao M, Yang B and Quiros CF (2003). Gene for gene alignment between the Brassica and Arabidopsis genomes by direct transcriptome mapping. Theor. Appl. Genet. 107: 168-180. PMid:12835942   Liu K and Muse SV (2005). PowerMarker: an integrated analysis environment for genetic marker analysis. Bioinformatics 21: 2128-2129. http://dx.doi.org/10.1093/bioinformatics/bti282 PMid:15705655   Liu L, Liu G and Gong Y (2007). Evaluation of genetic purity of F1 hybrid seeds in cabbage with RAPD, ISSR, SRAP, and SSR markers. Hortscience 42: 724-727.   Mishra MK, Suresh N, Bhat AM, Suryaprakash N, et al. (2011). Genetic molecular analysis of Coffea arabica (Rubiaceae) hybrids using SRAP markers. Rev. Biol. Trop. 59: 607-617. PMid:21717853   Murray MG and Thompson WF (1980). Rapid isolation of high molecular weight plant DNA. Nucleic Acids Res. 8: 4321-4325. http://dx.doi.org/10.1093/nar/8.19.4321 PMid:7433111 PMCid:324241   Oliveira RP, Aguilar-Vildoso CI and Machado MA (2003). Genetic divergence among hybrids of "Cravo" mandarin with "Pêra" sweet orange. Sci. Agric. 60: 115-118. http://dx.doi.org/10.1590/S0103-90162003000100017   Palma-Silva C, Lexer C, Paggi GM, Barbara T, et al. (2009). Range-wide patterns of nuclear and chloroplast DNA diversity in Vriesea gigantea (Bromeliaceae), a neotropical forest species. Heredity 103: 503-512. http://dx.doi.org/10.1038/hdy.2009.116 PMid:19738634   Prevost A and Wilkinson MJ (1999). A new system of comparing PCR primers applied to ISSR fingerprinting of potato cultivars. Theor. Appl. Genet. 98: 107-112. http://dx.doi.org/10.1007/s001220051046   Rohlf FJ (2005). NTSYSpc Numerical Taxonomy and Multivariate Analysis System. Version 2.2. Exeter Software, New York. PMid:16270455   Saxena RK, Sexena K and Varshney RK (2010). Application of SSR markers for molecular characterization of hybrid parents and purity assessment of ICPH 2438 hybrid of pigeonpea [Cajanus cajan (L.) Millspaugh]. Mol. Breed. 26: 371-380. http://dx.doi.org/10.1007/s11032-010-9459-4   Smith JF, Burke CC and Wagner WL (1996). Interspecific hybridization in natural populations of Cyrtandra (Gesneriaceae) on the Hawaiian Islands: evidences from RAPD markers. Plant Syst. Evol. 200: 61-77. http://dx.doi.org/10.1007/BF00984748   Sousa GM, Wanderley MGL and Alves M (2008). Inflorescence architecture in Brazilian species of Aechmea subgenus Chevaliera (Bromeliaceae - Bromelioideae). Bot. J. Linn. Soc. 158: 584-592. http://dx.doi.org/10.1111/j.1095-8339.2008.00914.x   Tantasawat P, Trongchuen J, Prajongjai T, Jenweerawat S, et al. (2011). SSR analysis of soybean (Glycine max (L.) Merr.) genetic relationship and variety identification in Thailand. Aust. J. Crop Sci. 5: 283-290.   Vervaeke I, Wouters J, Stichelbout L, Londers E, et al. (2003). Inheritance of spineless leaves in Aechmea (Bromeliaceae). Euphytica 134: 47-49. http://dx.doi.org/10.1023/A:1026170602524   Yeh F (2000). Popgene 1.32. Available at [http://www.ualberta.ca/~fyeh]. Accessed January 20, 2012.   Zhang F, Chen S, Chen F, Fang W, et al. (2011). SRAP-based mapping and QTL detection for inflorescence-related traits in chrysanthemum (Dendranthema morifolium). Mol. Breed. 27: 11-23. http://dx.doi.org/10.1007/s11032-010-9409-1
M. L. Yu, Wang, W. Y., Ma, R. J., Shen, Z. J., and Fang, J. G., An improved strategy based on RAPD markers efficiently identified 95 peach cultivars, vol. 11. pp. 1158-1168, 2012.
Archak S, Gaikwad AB, Gautam D, Rao EVVB, et al. (2003). DNA fingerprinting of Indian cashew (Anacardium occidentale L.) varieties using RAPD and ISSR techniques. Euphytica 130: 397-404. http://dx.doi.org/10.1023/A:1023074617348 Baird WV, Ballard RE, Rajapkse S and Abbott AG (1996). Progress in Prunus mapping and application of molecular markers to germplasm improvement. Hortic. Sci. 31: 1099-1106. Baysal O, Siragusa M, Gumrukcu E, Zengin S, et al. (2010). Molecular characterization of Fusarium oxysporum f. melongenae by ISSR and RAPD markers on eggplant. Biochem. Genet. 48: 524-537. http://dx.doi.org/10.1007/s10528-010-9336-1 PMid:20390339 Belaj A, Satovic Z, Ismaili H, Panajoti D, et al. (2003). RAPD genetic diversity of Albanian olive germplasm and its relationships with other Mediterranean countries. Euphytic 130: 387-395. http://dx.doi.org/10.1023/A:1023042014081 Benjak A, Ercisli S, Vokurka A, Maletic E, et al. (2005). Genetic relationships amonggrapevine cultivars native to Croatia, Greece and Turkey. Vitis 44: 73-77. Bhau BS, Medhi K, Das Ambrish P, Saikia SP, et al. (2009). Analysis of genetic diversity of Persea bombycina "Som" using RAPD-based molecular markers. Biochem. Genet. 47: 486-497. http://dx.doi.org/10.1007/s10528-009-9242-6 PMid:19424786 Boronnikova SV, Kokaeva ZG, Gostimsky SA, Dribnokhodova OP, et al. (2007). Analysis of DNA polymorphism in a relict Uralian species, large-flowered foxglove (Digitalis grandiflora Mill.), using RAPD and ISSR markers. Russ. J. Genet. 43: 530-535. http://dx.doi.org/10.1134/S1022795407050080 Bousquet J, Simon L and Lalonde M (1990). DNA amplification from vegetative and sexual tissues of tree using polymerase chain reaction. Can. J. For. Res. 20: 254-257. http://dx.doi.org/10.1139/x90-037 Bunyard EA (1938). The history and cultivation of the peach and nectarine. J. Royal Hort. Sci. 63: 114-121. Byrne DH (1990). Isozyme variability in four diploid stone fruits compared with other woody perennial plants. J. Hered. 81: 68-71. Cheng ZP and Huang HW (2009). SSR fingerprinting Chinese peach cultivars and landraces (Prunus persica) and analysis of their genetic relationships. Sci. Hortic. 120: 188-193. http://dx.doi.org/10.1016/j.scienta.2008.10.008 Chiu T, Pang J, Chen M and Tsen H (2010). Improvement of strain discrimination by combination of RAPD with PFGE for the analysis of the swine isolates of Salmonella enterica serovar Choleraesuis. World J. Microbiol. Biotechnol. 27: 465-469. http://dx.doi.org/10.1007/s11274-010-0467-7 D'Onofrio C, Lorenzis G, de Giordani T, Natali L, et al. (2009). Retrotransposon-based molecular markers in grapevine species and cultivars identification and phylogenetic analysis. Acta Hortic. 827: 45-52. Demirsoy L, Demir T, Demirsoy H, Kacar YA, et al. (2008). Identification of some sweet cherry cultivars grown in Amasya by RAPD markers. Acta Hortic. 795: 147-152. Ding XD, Lu LX, Chen XJ and Guan X (2000). Identifying litchi cultivars and evaluating their genetic relationships by RAPD markers. J. Trop. Subtrop. Bot. 8: 49-54. Elidemir AY and Uzun I (2009). Assessment of genetic diversity of some important grape cultivars, rootstocks, and wild grapes in Turkey using RAPD markers. Acta Hortic. 827: 275-278. Lee GP, Lee CH and Kim CS (2004). Molecular markers derived from RAPD, SCAR, and the conserved 18S rDNA sequences for classification and identification in Pyrus pyrifolia and P. communis. Theor. Appl. Genet. 108: 1487- 1491. http://dx.doi.org/10.1007/s00122-003-1582-8 PMid:14749847 Mariniello L, Sommella MG, Sorrentino A, Forlani M, et al. (2002). Identification of Prunus armeniaca cultivars by RAPD and SCAR markers. Biotechnol. Lett. 24: 749-755. http://dx.doi.org/10.1023/A:1015516712754 Melgarejo P, Martcnez JJ, Hernández Fca, Martínez R, et al. (2009). Cultivar identification using 18S-28S rDNA intergenic spacer-RFLP in pomegranate (Punica granatum L.). Sci. Hortic. 120: 500-503. http://dx.doi.org/10.1016/j.scienta.2008.12.013 Murray MG and Thompson WF (1980). Rapid isolation of high molecular weight plant DNA. Nucleic Acids Res. 8: 4321- 4325. http://dx.doi.org/10.1093/nar/8.19.4321 PMid:7433111 PMCid:324241 Papp N, Szilvassy B, Abranko L, Szabo T, et al. (2010). Main quality attributes and antioxidants in Hungarian sour cherries: identification of genotypes with enhanced functional properties. Int. J. Food Sci. Technol. 45: 395-402. http://dx.doi.org/10.1111/j.1365-2621.2009.02168.x Sadder MT and Ateyyeh AF (2006). Molecular assessment of polymorphism among local Jordanian genotypes the common fig (Ficus carica L.). Sci. Hortic. 107: 347-351. http://dx.doi.org/10.1016/j.scienta.2005.11.006 Saker MM, Adawy SS, Mohamed AA and El-Itriby HA (2006). Monitoring of cultivar identity in tissue culture-derived date palms using RAPD and AFLP analysis. Biol. Plantarum 50: 198-204. http://dx.doi.org/10.1007/s10535-006-0007-3 Silvestrini M, Maluf MP, Silvarolla MB, Guerreiro-Filho O, et al. (2008). Genetic diversity of a Coffea germplasm collection assessed by RAPD markers. Genet. Res. Crop Evol. 55: 901-910. http://dx.doi.org/10.1007/s10722-007-9295-5 Stark-Urnau M (2002a). Use of RAPD-markers in Malus x domestica (apple) and Pyrus communis (pear) for cultivar identification - Part I: Malus x domestica (apple). RAPD-Marker bei Malus x domestica (Apfel) und Pyrus communis (Birne) als Mittel zur Sortenidentifizierung - Teil I: Malus x domestica (Apfel). Erwerbsobstbau 44: 139-144. Stark-Urnau M (2002b). Use of RAPD-Markers in Malus x domestica (apple) and Pyrus communis (pear) for cultivar identification - Part II: Pyrus communis (Birne). RAPD-Marker bei Malus x domestica (Apfel) und Pyrus communis (Birne) als Mittel zur Sortenidentifizierung - Teil II: Pyrus communis (Birne). Erwerbsobstbau 44: 167-171. Sun P, Li W, Jiang HY and Yao JC (2005). Analysis of genetic relationship among cutlivars of Prunus persica using RAPD markers. J. Gansu Agric. Univ. 40: 586-590. Vijayan K (2004). Genetic relationships of Japanese and Indian mulberry (Morus spp.) genotypes revealed by DNA fingerprinting. Plant Systemat. Evol. 243: 221-232. http://dx.doi.org/10.1007/s00606-003-0078-y Williams JG, Kubelik AR, Livak KJ, Rafalski JA, et al. (1990). DNA polymorphisms amplified by arbitrary primers are useful as genetic markers. Nucleic Acids Res. 18: 6531-6535. http://dx.doi.org/10.1093/nar/18.22.6531 PMid:1979162 PMCid:332606 Yamamoto T, Yamaguchi M and Hayashi T (2005). An intergrated genetic linkage map of peach by SSR, STS, AFLP and RAPD. J. Jpn. Soc. Hortic. Sci. 74: 204-213. http://dx.doi.org/10.2503/jjshs.74.204 Yang XG, Zhang KC, Qin L and Wang YX (2001). RAPD analysis of germplasm resources on peach. J. Fruit Sci. 18: 276-279. Yang YJ, Zhang KC and Lin K (2002). Studies on RAPD polymorphisms and genetic relationship of Prunus persica plants. J. Henan Agric. Univ. 36: 187-189. Yonemoto Y, Chowdhury AK, Kato H and Macha MM (2006). Cultivars identification and their genetic relationships in Dimocarpus longan subspecies based on RAPD markers. Sci. Hortic. 109: 147-152. http://dx.doi.org/10.1016/j.scienta.2006.04.003 Yuan Z, Luo LS, Xiao DX and Zhang DB (2002). A study on the genetic relationship of peach species using RAPD markers. Acta Agric. Univ. Jiangxiensis 24: 172-175. Zong CW, Gao HN, Zhao CR, Wang C, et al. (2005). Studies on analysis of peach cultivars based on RAPD markers. J. Nanjing Agric. Univ. 28: 35-39.