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Cristian Silvestri, Gianmarco Sabbatini, Federico Marangelli, Eddo Rugini, and Valerio Cristofori

on human health, performance, and disease J. Agr. Food Chem. 56 3 627 629 Sze, S.C.W. Song, J.X. Wong, R.N.S. Feng, Y.B. Ng, T.B. Tong, Y. Zhang, K.Y.B. 2008 Application of SCAR (sequence characterized amplified region) analysis to authenticate

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Ariadna Monroy-Barbosa and Paul W. Bosland

.J. Mazourek, M. Brigs, M.O. Chlanda, T.S. Kim, K.-T. Falise, M. Kang, B.-C. Jahn, M.M. 2005 Development of sequence characterized amplified region (SCAR) primers for the detection of Phyto.5.2 , a

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Matthew D. Robbins, Mohammed A.T. Masud, Dilip R. Panthee, Randolph G. Gardner, David M. Francis, and Mikel R. Stevens

polymorphism as a 150-bp fragment in NC946 (T) and a 160-bp fragment in NC592 (P). To indirectly select for Sw-5 , the sequenced characterized amplified region (SCAR) marker SCAR421 was used ( Anfoka et al., 2006 ; Folkertsma et al., 1999 ; Stevens et al

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Yusuke Ii, Yuichi Uno, Michio Kanechi, and Noboru Inagaki

); randomly amplified polymorphic DNA (RAPD) markers ( Gebler et al., 2007 ); RAPD and sequence-characterized amplified region (SCAR) markers ( Jiang and Sink, 1997 ); and amplified fragment length polymorphism, SCAR markers, or both ( Jamsari et al., 2004

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Cláudia S. da Costa Ribeiro and Paul W. Bosland

resistance Annales de l’Amélioration des Plantes 26 35 50 Quirin, E.A. Ogundiwin, E.A. Prince, J.P. Mazourek, M. Briggs, M.O. Chlanda, T.S. Kim, K.T. Falise, M. Kang, B.C. Jahn, M.M. 2005 Development of sequence characterized amplified region (SCAR) primers

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Jareerat Chunthawodtiporn, Theresa Hill, Kevin Stoffel, and Allen Van Deynze

, B.C. Jahn, M.M. 2005 Development of sequence characterized amplified region (SCAR) primers for the detection of Phyto. 5.2, a major QTL for resistance to Phytophthora capsici Leon. in pepper Theor. Appl. Genet. 110 4 1143 1148 R Development Core

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Aliya Momotaz, Jay W. Scott, and David J. Schuster

cleaved amplified polymorphic markers (CAPs), sequence characterized amplified region (SCAR) markers, conserved orthologous sequence (COS), conserved orthologous sequence II (COSII) that were designed from public sequences available at Sol Genomics Network

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Bingqiang Wei, Lanlan Wang, Paul W. Bosland, Gaoyuan Zhang, and Ru Zhang

mitochondrial genes. Two candidate genes for S are the mitochondrial loci, orf456 and atp6-2 , identified and studied by Kim et al. (2007) and Kim and Kim (2006) . Furthermore, two CMS-specific sequence-characterized amplified region (SCAR) markers, the

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R.L. Rusholme Pilcher, J-M. Celton, S.E. Gardiner, and D.S. Tustin

). Table 1. Sequenced characterized amplified region markers designed from random amplified polymorphic DNA and expressed sequence tag markers closely linked to the dwarfing locus in ‘M.9’ apple rootstock. Linkage analysis and genetic

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Yuan Yu, Chunxian Chen, Ming Huang, Qibin Yu, Dongliang Du, Matthew R. Mattia, and Frederick G. Gmitter Jr.

hybridization with a lime, lemon, or citron ( Federici et al., 1998 ). Nicolosi et al. (2000) clustered ‘Bergamot’ within the citron group using RAPD, sequence-characterized amplified region, and cpDNA markers, and this observation was supported by a later