[1]Stone J L. Molecular mechanisms underlying the break down of gametophytic self-incompatibility[J]. Rev Biol,2002,77(1):17-32.
[2]Sophia L S,Daphne R G. The molecular biology of self-incompatibility systems in flowering plants[J]. Plant Cell,Tissue and Organ Culture,2001,67(2):93-114.
[3]Javier S,María H. Identification of self-incompatibility alleles in pear cultivars(Pyrus communis L.)[J]. Euphytica,2004,128(3):325-331.
[4]Silvia Z,Paola T,Wim B,et al. S-Allele characterization in self-incompatible pear(Pyrus communis L.)[J]. Sex Plant Repord,2002,15(3):153-158.
[5]Norioka N,Ohnishi Y,Norioka S,et al. Nucleotide sequences of cDNAs encoding S2-and S4-Rnases(D49527 and D49528 for EMBL)from Japanese pear(Pyrus pyrifolia Nakai)(PGR95-020)[J]. Plant Physiol,1995,108:1343.
[6]Ishimizu T,Shinkawa T,Sakiyama F,et al. Primary structural features of rosaceous S-RNases associated with gametophytic self-incompatibility[J]. Plant Molecular Biology,1998,37(6):931-941.
[7]Castillo C,Takasaki T,Saito T,et al. Cloning of the S8-RNase(S8-allele)of Japanese Pear(Pyrus pyrifolia Nakai)[J]. Plant Biotechnology,2002,19(1):1-6.
[8]Takasaki T,Okada K,Castillo C,et al. Sequence of the S9-RNase cDNA and PCR-RFLP system for discriminating S1- to S9-allele in Japanese pear[J]. Euphytica,2004,135(2):157-167.
[9]Hoy-Taek K,Yutaka H,Hyun-jung K,et al. The presence of a new S-RNase allele(S10)in Asian pear(Pyrus pyrifolia (Burm;Nakai))[J]. Genetic Resources and Crop Evolution,2006,53(7):1375-1383.
[10]Raspe O,Kohn J R. Population structure at the S-locus of Sorbus aucuparia L.(Rosaceae:Maloideae)[J]. Molecular Ecology,2007,16(6):1315-1325.
[11]Cornish E C,Pettitt J M,Boning I,et al. Developmentally controlled expression of a gene associated with self-incompatibility in Nicotiana alata[J]. Nature,1987,326:99-102.
[12]Sassa H,Nishio T,Kowyama Y,et al. Self-incompatibility(S)alleles of the rosaceae encode members of a distinct class of the T2/S ribonuclease superfamily[J]. Molecular & General Genetics,1996,250(5):547-557.
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