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  • Al-Hammadi, A.S., Sreelakshmi, Y., Negi, S., Siddiqi, I. and Sharma, R. (2003) The polycotyledon mutant of tomato shows enhanced polar auxin transport. Plant Physiol. 133, 113125.
  • Barkawi, L.S., Tam, Y.Y., Tillman, J.A., Pederson, B., Calio, J., Al-Amier, H., Emerick, M., Normanly, J. and Cohen, J.D. (2008) A high-throughput method for the quantitative analysis of indole-3-acetic acid and other auxins from plant tissue. Anal. Biochem. 372, 177188.
  • Barry, C.S. and Giovannoni, J.J. (2006) Ripening in the tomato Green-ripe mutant is inhibited by ectopic expression of a protein that disrupts ethylene signaling. Proc. Natl Acad. Sci. USA, 103, 79237928.
  • Barry, C.S. and Giovannoni, J.J. (2007) Ethylene and fruit ripening. J. Plant Growth Regul. 26, 143159.
  • Barry, C.S., Fox, E.A., Yen, H., Lee, S., Ying, T., Grierson, D. and Giovannoni, J.J. (2001) Analysis of the ethylene response in the epinastic mutant of tomato. Plant Physiol. 127, 5866.
  • Boerjan, W., Cervera, M.-T., Delarue, M., Beeckman, T., Dewitte, W., Bellini, C., Caboche, M., Van Onckelen, H., Van Montagu, M. and Inze, D. (1995) Superroot, a recessive mutation in Arabidopsis, confers auxin overproduction. Plant Cell, 7, 14051419.
  • Casimiro, I., Marchant, A., Bhalerao, R.P. et al. (2001) Auxin transport promotes Arabidopsis lateral root initiation. Plant Cell, 13, 843852.
  • Ciardi, J.A., Tieman, D.M., Jones, J.B. and Klee, H.J. (2001) Reduced expression of the tomato ethylene receptor gene LeETR4 enhances the hypersensitive response to Xanthomonas campestris pv. vesicatoria. Mol. Plant Microbe Interact. 14, 487495.
  • Clark, D.G., Gubrium, E.K., Barrett, J.E., Nell, T.A. and Klee, H.J. (1999) Root formation in ethylene-insensitive plants. Plant Physiol. 121, 5360.
  • Coleman, W., Huxter, T., Reid, D. and Thrope, T. (1980) Ethylene as an endogenous inhibitor of root regeneration in tomato leaf disc cultures in vitro. Physiol. Plant. 48, 519525.
  • De Klerk, G.-J., Van Der Krieken, W. and De Jong, J. (1999) The formation of adventitious roots: new concepts, new possibilities. In Vitro Cell. Dev. Biol. Plants, 35, 189199.
  • Fujino, D.W., Burger, D.W., Yang, S.F. and Bradford, K.J. (1988) Characterization of an ethylene overproducing mutant of tomato (Lycopersicon esculentum Mill. Cultivar VFN8). Plant Physiol. 88, 774779.
  • Geneve, R. and Heuser, C. (1983) The relationship between ethephon and auxin on adventitious root intiation in cuttings of Vigna radiata (L.) R. Wilcz. J. Am. Soc. Hortic. Sci. 108, 330333.
  • Grichko, V. and Glick, B. (2001) Ethylene and flooding stress in plants. Plant Physiol. Biochem. 39, 19.
  • Guzman, P. and Ecker, J.R. (1990) Exploiting the triple response of Arabidopsis to identify ethylene-related mutants. Plant Cell, 2, 513523.
  • Hitchcock, A. and Zimmerman, P. (1940) Effects obtained with mixtures of root-inducing and other substances. Contrib. Boyce Thompson Inst. 11, 155159.
  • Hua, J., Sakai, H., Nourizadeh, S., Chen, Q.G., Bleecker, A.B., Ecker, J.R. and Meyerowitz, E.M. (1998) EIN4 and ERS2 are members of the putative ethylene receptor gene family in Arabidopsis. Plant Cell, 10, 13211332.
  • Huang, Y., Li, H., Hutchison, C.E., Laskey, J. and Kieber, J.J. (2003) Biochemical and functional analysis of CTR1, a protein kinase that negatively regulates ethylene signaling in Arabidopsis. Plant J. 33, 221233.
  • Ito, Y., Kitagawa, M., Ihashi, N., Yabe, K., Kimbara, J., Yasuda, J., Ito, H., Inakuma, T., Hiroi, S. and Kasumi, T. (2008) DNA-binding specificity, transcriptional activation potential, and the rin mutation effect for the tomato fruit-ripening regulator RIN. Plant J. 55, 212223.
  • Ivanchenko, M.G., Coffeen, W.C., Lomax, T.L. and Dubrovsky, J.G. (2006) Mutations in the Diageotropica (dgt) gene uncouple patterned cell division during lateral root initiation from proliferative cell division in the pericycle. Plant J. 46, 436447.
  • Ivanchenko, M.G., Muday, G.K. and Dubrovsky, J.G. (2008) Ethylene-auxin interactions regulate lateral root initiation and emergence in Arabidopsis thaliana. Plant J. 55, 335347.
  • Kendrick, M.D. and Chang, C. (2008) Ethylene signaling: new levels of complexity and regulation. Curr. Opin. Plant Biol. 11, 479485.
  • Kieber, J.J., Rothenberg, M., Roman, G., Feldmann, K.A. and Ecker, J.R. (1993) CTR1, a negative regulator of the ethylene response pathway in Arabidopsis, encodes a member of the Raf family of protein kinases. Cell, 72, 427441.
  • Kim, H.J., Lynch, J.P. and Brown, K.M. (2008) Ethylene insensitivity impedes a subset of responses to phosphorus deficiency in tomato and petunia. Plant Cell Environ. 31, 17441755.
  • Klee, H.J. (2004) Ethylene signal transduction. Moving beyond Arabidopsis. Plant Physiol. 135, 660667.
  • Lanahan, M.B., Yen, H.C., Giovannoni, J.J. and Klee, H.J. (1994) The never ripe mutation blocks ethylene perception in tomato. Plant Cell, 6, 521530.
  • Lashbrook, C.C., Tieman, D.M. and Klee, H.J. (1998) Differential regulation of the tomato ETR gene family throughout plant development. Plant J. 15, 243252.
  • Laskowski, M., Grieneisen, V.A., Hofhuis, H., Hove, C.A., Hogeweg, P., Maree, A.F. and Scheres, B. (2008) Root system architecture from coupling cell shape to auxin transport. PLoS Biol. 6, e307.
  • Lewis, D.R. and Muday, G.K. (2009) Measurement of auxin transport in Arabidopsis thaliana. Nat. Protoc. 4, 437451.
  • Li, S.W., Xue, L.G., Xu, S.J., Feng, H.Y. and An, L.Z. (2009) Mediators, genes and signaling in adventitious rooting. Bot. Rev. 75, 230247.
  • Lincoln, J.E. and Fischer, R.L. (1988) Regulation of gene expression by ethylene in wild-type and rin Tomato (Lycopersicon esculentum) fruit. Plant Physiol. 88, 370374.
  • Ludwig-Muller, J., Vertocnik, A. and Town, C.D. (2005) Analysis of indole-3-butyric acid-induced adventitious root formation on Arabidopsis stem segments. J. Exp. Bot. 56, 20952105.
  • Macgregor, D.R., Deak, K.I., Ingram, P.A. and Malamy, J.E. (2008) Root system architecture in Arabidopsis grown in culture is regulated by sucrose uptake in the aerial tissues. Plant Cell, 20, 26432660.
  • Malamy, J. (2009) Lateral root formation. In Root Development (Beeckman, T., ed.), Vol. 37, pp. 83126. Oxford, UK: Blackwell Publishing Limited.
  • Malamy, J. and Benfey, P. (1997) Organization and cell differentiation in lateral roots of Arabidopsis thaliana. Development, 124, 3344.
  • Malamy, J.E. and Ryan, K.S. (2001) Environmental regulation of lateral root initiation in Arabidopsis. Plant Physiol. 127, 899909.
  • Morgan, P. and Gausman, H. (1966) Effects of ethylene on auxin transport. Plant Physiol. 41, 4552.
  • Muday, G.K. and Haworth, P. (1994) Tomato root growth, gravitropism, and lateral development: correlation with auxin transport. Plant Physiol. Biochem. 32, 193203.
  • Muday, G.K., Lomax, T.L. and Rayle, D.L. (1995) Characterization of the growth and auxin physiology of roots of the tomato mutant, diageotropica. Planta, 195, 548553.
  • Murashige, T. and Skoog, F. (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol. Plant. 15, 473479.
  • Negi, S., Ivanchenko, M.G. and Muday, G.K. (2008) Ethylene regulates lateral root formation and auxin transport in Arabidopsis thaliana. Plant J. 55, 175187.
  • Phatak, S., Jaworski, C. and Liptay, A. (1981) Flowering and adventitious root growth of tomato cultivars as influenced by ethephon. HortScience, 16, 181182.
  • Prayitno, J., Rolfe, B.G. and Mathesius, U. (2006) The Ethylene-insensitive sickle mutant of Medicago truncatula shows altered auxin transport regulation during nodulation. Plant Physiol. 142, 168180.
  • Reed, R.C., Brady, S.R. and Muday, G.K. (1998) Inhibition of auxin movement from the shoot into the root inhibits lateral root development in arabidopsis. Plant Physiol. 118, 13691378.
  • Resnick, J.S., Wen, C.K., Shockey, J.A. and Chang, C. (2006) REVERSION-TO-ETHYLENE SENSITIVITY1, a conserved gene that regulates ethylene receptor function in Arabidopsis. Proc. Natl Acad. Sci. USA, 103, 79177922.
  • Robbins, J., Kays, S. and Dirr, M. (1983) Enhanced rooting of wounded mung bean cuttings by wounding and ethephon. J. Am. Soc. Hortic. Sci. 108, 325329.
  • Roy, B., Basu, R. and Bose, T. (1972) Interaction of auxins with growth-retarding, -inhibiting and ethylene-producing chemicals in rooting of cuttings. Plant Cell Physiol. 13, 11231127.
  • Ruzicka, K., Ljung, K., Vanneste, S., Podhorska, R., Beeckman, T., Friml, J. and Benkova, E. (2007) Ethylene regulates root growth through effects on auxin biosynthesis and transport-dependent auxin distribution. Plant Cell, 19, 21972212.
  • Sakai, H., Hua, J., Chen, Q.G., Chang, C., Medrano, L.J., Bleecker, A.B. and Meyerowitz, E.M. (1998) ETR2 is an ETR1-like gene involved in ethylene signaling in Arabidopsis. Proc. Natl Acad. Sci. USA, 95, 58125817.
  • Sitbon, F., Hennion, S., Sundberg, B., Little, C.H.A., Olsson, O. and Sandberg, G. (1992) Transgenic tobacco plants coexpressing the Agrobacterium tumefaciens iaaM and iaaH genes display altered growth and indoleacetic acid metabolism. Plant Physiol. 99, 10621069.
  • Sorin, C., Bussell, J.D., Camus, I. et al. (2005) Auxin and light control of adventitious rooting in Arabidopsis require ARGONAUTE1. Plant Cell, 17, 13431359.
  • Sorin, C., Negroni, L., Balliau, T., Corti, H., Jacquemot, M.P., Davanture, M., Sandberg, G., Zivy, M. and Bellini, C. (2006) Proteomic analysis of different mutant genotypes of Arabidopsis led to the identification of 11 proteins correlating with adventitious root development. Plant Physiol. 140, 349364.
  • Stasinopoulos, T.C. and Hangarter, R.P. (1989) Preventing photochemistry in culture media by long-pass light filters alters growth of cultured tissues. Plant Physiol. 93, 13651369.
  • Stepanova, A.N., Yun, J., Likhacheva, A.V. and Alonso, J.M. (2007) Multilevel interactions between ethylene and auxin in Arabidopsis roots. Plant Cell, 19, 21692185.
  • Suttle, J.C. (1988) Effect of ethylene treatment on polar IAA transport, net IAA uptake and specific binding of N-1-naphthylphthalamic acid in tissues and microsomes isolated from etiolated pea epicotyls. Plant Physiol. 88, 795799.
  • Swarup, R., Perry, P., Hagenbeek, D., Van Der Straeten, D., Beemster, G.T., Sandberg, G., Bhalerao, R., Ljung, K. and Bennett, M.J. (2007) Ethylene upregulates auxin biosynthesis in Arabidopsis seedlings to enhance inhibition of root cell elongation. Plant Cell, 19, 21862196.
  • Tieman, D.M. and Klee, H.J. (1999) Differential expression of two novel members of the tomato ethylene-receptor family. Plant Physiol. 120, 165172.
  • Torrey, J.G. (1976) Root hormones and plant growth. Annu. Rev. Plant Physiol. 27, 435459.
  • Tyburski, J. and Tretyn, A. (2004) The role of light and polar auxin transport in root regenration from hypocotyls of tomato seedling cuttings. Plant Growth Regul. 42, 3948.
  • Visser, E., Cohen, J.D., Barendse, G., Blom, C. and Voesenek, L. (1996) An ethylene-mediated increase in sensitivity to Auxin induces adventitious root formation in flooded Rumex palustris Sm. Plant Physiol. 112, 16871692.
  • Vrebalov, J., Ruezinsky, D., Padmanabhan, V., White, R., Medrano, D., Drake, R., Schuch, W. and Giovannoni, J. (2002) A MADS-box gene necessary for fruit ripening at the tomato ripening-inhibitor (Rin) locus. Science, 296, 343346.
  • Wilkinson, J.Q., Lanahan, M.B., Yen, H.C., Giovannoni, J.J. and Klee, H.J. (1995) An ethylene-inducible component of signal transduction encoded by Never-ripe. Science, 270, 18071809.
  • Yen, H.C., Lee, S., Tanksley, S.D., Lanahan, M.B., Klee, H.J. and Giovannoni, J.J. (1995) The tomato Never-ripe locus regulates ethylene-inducible gene expression and is linked to a homolog of the Arabidopsis ETR1 gene. Plant Physiol. 107, 13431353.
  • Yokotani, N., Tamura, S., Nakano, R., Inaba, A., McGlasson, W.B. and Kubo, Y. (2004) Comparison of ethylene- and wound-induced responses in fruit of wild-type, rin and nor tomatoes. Postharvest Biol. Technol. 32, 247252.