Characterization of fusarium wilt-resistant and fusarium wilt-susceptible somaclones of banana cultivar rastali (Musa AAB) by random amplified polymorphic DNA and retrotransposon markers

Asif MJ, Mak C, and Othman RY (2001) Characterization of indigenousMusa species based on flow cytometric analysis of ploidy and nuclear DNA content. Caryologia 54: 161–8.

Asif MJ, Mak C, and Othman RY (2004) Study of resistance ofMusa acuminata toFusarium oxysporum using RAPD markers. Biol Plant 48: 93–9.

Boyko E, Kalendar R, Korzun V, Korol A, Schulman AH, and Gill BS (2002) A high-density cytogenetic map of theAegilops tauschii genome incorporating retrotransposons and defense related genes: insights into cereal chromosome structure and function. Plant Mol Biol 48: 767–90.

Courtial B, Feuerbach F, Eberhard S, Rohmer L, Chiapello H, Camilleri C, and Lucas H (2001) Tnt1 transposition events are induced by in vitro transformation ofArabidopsis thaliana, and transposed copies integrate into genes, Mol Genet Genomics 265: 32–42.

Damasco OP, Graham GC, Henry RJ, Adkins SW, Smith MK, and Godwin ID (1996) Random amplified polymorphic DNA (RAPD) detection of dwarf off-types in micropropagated Cavendish (Musa sp. AAA) bananas. Plant Cell Rep 16: 118–23.

Hirochika H, Sugimoto K, Otsuki Y, Tsugawa H, and Kanda M (1996) Retrotrasposons of rice involved in mutations induced by tissue culture. Proc Natl Acad Sci USA 93: 7783–8.

Ho HY (1999) The development of Pisang Mutiara—aFusarium wilt-tolerantRastali. In: Wahab Z (ed), Proc First National Banana Seminar, Awana-Genting, Pahang, Malaysia, pp 144–7.

Hwang SC and Ko WH (2004) Cavendish banana cultivars resistant toFusarium wilt acquired through somaclonal variation in Taiwan, Plant Dis 88: 580–8.

Kalendar R, Grob T, Regina M, Suoniemi A, and Schulman AH (1999) IRAP and REMAP: two new retrotransposon-based DNA fingerprinting techniques. Theor Appl Genet 98: 704–11.

Kalendar R, Tanskanen J, Immonen S, Nevo E, and Schulman AH (2000) Genome evolution of wild barley (Hordeum spontaneum) by BARE-1 retrotransposon dynamics in response to sharp microclimatic divergence. Proc Natl Acad Sci USA 97: 6603–7.

Larkin PJ and Scowcroft WR (1981) Somaclonal variation—a new source of variability from cell cultures for plant improvement. Theor Appl Genet 60: 197–214.

Maria DCV and Garcia ED (2000) Analysis of aMusa spp. somaclonal variant resistant to yellow Sigatoka. Plant Mol Biol Rep 18: 23–31.

Rahman MH and Rajora OP (2001) Microsatellite DNA somclonal variation in micropropagated trembling aspen (Populus tremuloides), Plant Cell Rep 20: 531–6.

Rani V, Parida A, and Raina SN (1995) Random amplified polymorphic DNA (RAPD) markers for genetic analysis in micropropagated plants ofPopulus deltoides Marsh. Plant Cell Rep 14: 459–62.

Rival A, Bertrand L, Beule T, Combes MC, Trouslot P, and Lashermes P (1998) Suitability of RAPD analysis for the detection of somaclonal variation in oil palm. Plant Breed 117: 73–6.

Teo CH, Tan SH, Othman YR, and Schwarzacher T (2001) The cloning of Ty1-copia-like retrotransposons from 10 varieties of banana (Musa sp.) J Biochem Mol Biol Biophys 6: 193–201.

Teo CH, Tan SH, Ho CL, Faridah QZ, Othman YR, Heslop-Harrison JS, Kalendar R, and Schulman AH (2005) Genome constitution and classification using retrotransposon-based markers in the orphan crop banana. J Plant Biol 48: 96–105.

Weising K, Nybom H, Wolff K, and Meyer W (1995) DNA Fingerprinting in Plants and Fungi, CRC Press, Boca Raton, Florida.

Welsh J and McClelland M (1990) Fingerprinting genomes using PCR with arbitrary primers. Nucleic Acids Res 18: 7213–8.

Wessler SR (1996) Plant retrotransposons: turned on by stress. Curr Biol 6: 959–61.

Williams JGK, Kubelik AR, Livak KJ, Rafalski JA, and Tingey SV (1990) DNA polymorphisms amplified by arbitrary primers are useful as genetic markers. Nucleic Acids Res 18: 6531–5.