References
- Ben Chaim, A., Paran, I., Grube, R., Jahn, M., van Wijk, R., Peleman, J. 2001. QTL mapping of fruit-related traits in pepper (Capsicum annuum). Theor. Appl. Genet.102: 1016-1028.
- Ben Chaim, A., Borovsky, E., Rao, G. U., Tanyolac, B., Paran, I. 2003a. fs3.1: a major fruit shape QTL conserved in Capsicum.Genome46: 1-9.
- Ben Chaim, A., Borovsky, E., De Jong, W., Paran, I. 2003b. Linkage of the A locus for the presence of anthocyanin and fs10.1, a major fruit-shape QTL in pepper. Theor. Appl. Genet.106: 889-894.
- Bernacchi, D., Beck-Bunn, T., Eshed, Y., Lopez, J., Petiard, V., Uhlig, J., Zamir, D., Tanksley, S.D. 1988. Advanced backcross QTL analysis in tomato. I. Identification of QTLs for traits of agronomic importance from Lycopersicon hirsutum.Theor. Appl. Genet.97: 381-397.
- Doganlar, S., Frary, A., Daunay, M.C., Lester, R.N., Tanksley, S.D. 2002a. Conservation of gene function in the Solanaceae as revealed by comparative mapping of domestication traits in eggplant. Genetics161: 1713-1726.
- Doganlar, S., Frary, A., Daunay, M.C., Lester, R.N., Tanksley, S.D. 2002b. A comparative genetic linkage map of eggplant (Solanum melongena) and its implications for genome evolution in the Solanaceae. Genetics161: 1697-1711.
- Eshed, Y., Zamir, D. 1995. An introgression line population of Lycopersicon pennellii in the cultivated tomato enables the identification and fine mapping of yield-associated QTL. Genetics141: 1147-1162.
- Eshed, Y., Zamir, D. 1996. Less than additive epistatic interactions of quantitative trait loci in tomato. Genetics143: 1807-1817.
- Frary, A., Nesbitt, T.C., Frary, A., Grandillo, S., van der Knapp, E., Cong, B., Liu, J., Meller, J., Elber, R., Alpert, K.B., Tanksley, S.D. 2000. fw2.2: A quantitative trait locus key to the evolution of tomato fruit size. Science289: 85-88.
- Frary, A., Fulton, T.M., Zamir, D., Tanksley, S.D. 2004. Advanced backcross QTL analysis of a Lycopersicon esculentum x L. pennellii cross and identification of possible orthologs in the Solanaceae. Theor. Appl. Genet.108: 485-496.
- Fulton, T.M., Beck-Bunn, T., Emmatty, D., Eshed, Y., Lopez, J., Petiard, V., Uhlig, J., Zamir, D., Tanksley, S.D. 1997. QTL analysis of an advanced backcross of Lycopersicon peruvianum to the cultivated tomato and comparisons with QTLs found in other wild species. Theor. Appl. Genet.95: 881-894.
- Fulton, T.M., Grandillo, S., Beck-Bunn, T., Fridman, E., Frampton, A., Lopez, J., Petiard, V., Uhlig, J., Zamir, D., Tanksley, S.D. 2000. Advanced backcross QTL analysis of a Lycopersicon esculentum x Lycopersicon parviflorum cross. Theor. Appl. Genet.100: 1025-1042.
- Giovannoni, J.J. 2004. Genetic regulation of fruit development and ripening. Plant Cell16: S170-S180.
- Grandillo, S., Ku, H.M., Tanksley, S.D. 1999. Identifying the loci responsible for natural variation in fruit size and shape in tomato. Theor. Appl. Genet.99: 978-987.
- Ku, H.M., Doganlar, S., Chen, K.Y., Tanksley, S.D. 1999. The genetic basis of pear-shaped tomato fruit. Theor. Appl. Genet.99: 844-850.
- Lippman, Z., Tanksley, S.D. 2001. Dissecting the genetic pathway to extreme fruit size in tomato using a cross between the small-fruited wild species Lycopersicon pimpinelli-folium and L. esculentum, var. Giant Heirloom. Genetics158: 413-422.
- Liu, J., Van Eck, J., Cong, B., Tanksley, S.D. 2002. A new class of regulatory genes underlying the cause of pear-shaped tomato fruit. Proc. Natl. Acad. Sci. USA 99: 13302-13306.
- Livingstone, K.D., Lackney, V.K., Blauth, J., Wijk, V.R., Jahn, M.K. 1999. Genome mapping in Capsicum and the evolution of genome structure in the Solanaceae. Genetics152: 1183-1202.
- Monforte, A., Tanksley, S.D. 2000. Development of a set of near isogenic and backcross recombinant inbred lines containing most of the Lycopersicon hirsutum genome in a L. esculentum genetic background: a tool for gene mapping and gene discovery. Genome43: 803-813.
- Monforte, A., Friedman, E., Zamir, D., Tanksley, S.D. 2001. Comparison of a set of alleleic QTL-NILs for chromosome 4 of tomato: deductions about natural variation and implications for germplasm collection. Theor. Appl. Genet.102: 572-590.
- Rao, G.U., Ben Chaim, A., Borovsky, E., Paran, I. 2003. Mapping of yield related QTLs in pepper in an inter-specific cross of Capsicum annuum and C. frutescens.Theor. Appl. Genet.106: 1457-1466.
- SAS Institute. 2000. JMP Users Guide: version 4.0, SAS Institute, Cary, NC.
- Tanksley, S.D. 2004. The genetic, developmental, and molecular bases of fruit size and shape variation in tomato. Plant Cell16: S181-S189.
- Tanksley, S.D., Grandillo, S., Fulton, T.M., Zamir, D., Eshed, Y., Petiard, V., Lopez, J., Beck-Bunn, T. 1996. Advanced backcross QTL analysis in a cross between an elite processing line of tomato and its wild relative L. pimpinellifolium.Theor. Appl. Genet.92: 213-224.
- Van der Knaap, E., Tanksley, S.D. 2001. Identification and characterization of a novel locus controlling early fruit development in tomato. Theor. Appl. Genet.103: 353-358.
- Van der Knaap, E., Lippman, Z.B., Tanksley, S.D. 2002. Extremely elongated tomato fruit controlled by four quantitative trait loci with epistatic interactions. Theor. Appl. Genet.104: 241-247.
- Van der Knaap, E., Tanksley, S.D. 2003. The making of a bell-shaped tomato fruit: identification of loci controlling fruit morphology in Yellow Stuffer tomato. Theor. Appl. Genet.107: 139-147.
- Zygier, S., Ben Chaim, A., Efrati, A., Kaluzky, G., Borovsky, Y., Paran, I. 2005. QTL mapping of fruit size and shape in chromosomes 2 and 4 in pepper and a comparison of the pepper QTL map with that of tomato. Theor. Appl. Genet.111: 437-445.