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Adriana Canto-Flick, Eduardo Balam-Uc, Jericó Jabìn Bello-Bello, Carlos Lecona-Guzmán, Daniela Solís-Marroquín, Susana Avilés-Viñas, Eunice Gómez-Uc, Guadalupe López-Puc, Nancy Santana-Buzzy, and Lourdes Georgina Iglesias-Andreu

jalapeño peppers J. Food Sci. 43 1809 1811 Hunziker, A.T. 2001 The genera of Solanaceae A.R.G. Ganter Verlag K.G Konigstein, Germany 232 244 Iwai, K. Susuki, T. Fujiwaki, H. 1979

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Yiran Li, Asuka Uchida, Akiha Abe, Akihiro Yamamoto, Tomonari Hirano, and Hisato Kunitake

-RNase models have been proposed to explain the mechanism of GSI in some species belonging to Rosaceae, Solanaceae, and Plantaginaceae ( Hiratsuka et al., 2012 ; Lai et al., 2002 ; Lee et al., 1994 ; Murfett et al., 1994 ; Tao and Iezzoni, 2010 ). In these S

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Suping Zhou, Roger J. Sauvé, Zong Liu, Sasikiran Reddy, Sarabjit Bhatti, Simon D. Hucko, Yang Yong, Tara Fish, and Theodore W. Thannhauser

History, origin and early cultivation of tomato ( Solanaceae ) 1 27 Razdan, M.K. Mattoo A.K. Genetic improvement of Solanaceous crops Vol. 2 Tomato. Science Publishers Enfield, NH Perl-Treves, R. Galun, E. 1991 The tomato Cu, Zn peroxide dismutase genes

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Tong Geon Lee, Samuel F. Hutton, and Reza Shekasteband

Solanaceae Coordinated Agricultural Project [SolCAP (hereafter, tomato array)] was used as described by Sim et al. (2012) . Of the 7720 markers included in the array, 7509 of these showed clear genotype calls for the parents and F 2 selections, and these

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Judith Pozo, Miguel Urrestarazu, Isidro Morales, Jessica Sánchez, Milagrosa Santos, Fernando Dianez, and Juan E. Álvaro

used for fertigating the seedlings of five vegetable species, in three different families (Solanaceae, Cucurbitaceae, and Asteraceae) with different capacities to accumulate Si, and to investigate their vegetative growth, cuticle development, and

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Kelly J. Vining, Q Zhang, C.A. Smith, and T.M. Davis

). Library probes and PCR primers specific to the tomato Ve sequences have been used to identify homologous sequences from other solanaceous species ( Chai et al., 2003 ; Simko et al., 2004 ). Outside the Solanaceae, only a few sequences with homology to

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Lu Zhang, You-biao Hu, Hua-sen Wang, Sheng-jun Feng, and Yu-ting Zhang

function of miR156 in the regulation of tuber development in Solanaceae, such as tomato ( Eviatar-Ribak et al., 2013 ; Salinas et al., 2012 ; Zhang et al., 2011 ) and potato ( Bhogale et al., 2014 ; Eviatar-Ribak et al., 2013 ). However, whether miR156

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Qiang Xiao, XiaoHui Fan, XiaoHui Ni, LiXia Li, GuoYuan Zou, and Bing Cao

vegetable production. A correlation between an ATCIM and the pouch method was developed using a two-step process in tomato, Solanum lycopersicum L. (Solanales: Solanaceae), production in Florida ( Carson et al., 2014a ). Japanese researchers established a

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Jessica Gaus Barb, Dennis J. Werner, and Shyamalrau P. Tallury

, E.A. Baranyi, M. Ebert, I. Greilhuber, J. Ehrendorfer, F. Hunziker, A.T. 2003 Analysis of nuclear DNA content in Capsicum (Solanaceae) by flow cytometry and feulgen densitometry Ann. Bot. (Lond

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Jaime Prohens, Adrián Rodríguez-Burruezo, María Dolores Raigón, and Fernando Nuez

. 88 17 24 Daunay, M.C. Lester, R.N. 1988 The usefulness of taxonomy for Solanaceae breeders, with special reference to the genus Solanum and to Solanum melongena L. (eggplant) Capsicum Eggplant Newsl. 7 70