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  • Aharoni A, Dixit S, Jetter R, Thoenes E, Van Arkel G, Pereira A. 2004. The SHINE clade of AP2 domain transcription factors activates wax biosynthesis, alters cuticle properties, and confers drought tolerance when overexpressed in Arabidopsis. Plant Cell 16: 24632480.
  • Ainsworth EA, Rogers A. 2007. The response of photosynthesis and stomatal conductance to rising [CO2]: mechanisms and environmental interactions. Plant, Cell & Environment 30: 258270.
  • Aloni R, Langhans M, Aloni E, Dreieicher E, Ullrich CI. 2005. Root-synthesized cytokinin in Arabidopsis is distributed in the shoot by the transpiration stream. Journal of Experimental Botany 56: 15351544.
  • Alvarez-Buylla ER, Liljegren SJ, Pelaz S, Gold SE, Burgeff C, Ditta GS, Vergara-Silva F, Yanofsky MF. 2000. MADS-box gene evolution beyond flowers: expression in pollen, endosperm, guard cells, roots and trichomes. Plant Journal 24: 457466.
  • Asai T, Tena G, Plotnikova J, Willmann MR, Chiu WL, Gomez-Gomez L, Boller T, Ausubel FM, Sheen J. 2002. MAP kinase signalling cascade in Arabidopsis innate immunity. Nature 415: 977983.
  • Berger D, Altmann T. 2000. A subtilisin-like serine protease involved in the regulation of stomatal density and distribution in Arabidopsis thaliana. Genes & Development 14: 11191131.
  • Berger F, Linstead P, Dolan L, Haseloff J. 1998. Stomata patterning on the hypocotyl of Arabidopsis thaliana is controlled by genes involved in the control of root epidermis patterning. Developmental Biology 194: 226234.
  • Bergmann DC, Lukowitz W, Somerville CR. 2004. Stomatal development and pattern controlled by a MAPKK kinase. Science 304: 14941497.
  • Bergmann DC, Sack FD. 2007. Stomatal development. Annual Review of Plant Biology 58: 163181.
  • Betts RA, Boucher O, Collins M, Cox PM, Falloon PD, Gedney N, Hemming DL, Huntingford C, Jones CD, Sexton DMH et al . 2007. Projected increase in continental runoff due to plant responses to increasing carbon dioxide. Nature 448: 10371041.
  • Boetsch J, Chin J, Croxdale J. 1995. Arrest of stomatal initials in Tradescantia is linked to the proximity of neighboring stomata and results in the arrested initials acquiring properties of epidermal cells. Developmental Biology 168: 2838.
  • Boetsch J, Chin J, Ling M, Croxdale J. 1996. Elevated carbon dioxide affects the patterning of subsidiary cells in Tradescantia stomatal complexes. Journal of Expermiental Botany 47: 925931.
  • Boudolf V, Barroco R, Engler Jde A, Verkest A, Beeckman T, Naudts M, Inze D, De Veylder L. 2004a. B1-type cyclin-dependent kinases are essential for the formation of stomatal complexes in Arabidopsis thaliana. Plant Cell 16: 945955.
  • Boudolf V, Vlieghe K, Beemster GT, Magyar Z, Torres Acosta JA, Maes S, Van Der Schueren E, Inze D, De Veylder L. 2004b. The plant-specific cyclin-dependent kinase CDKB1;1 and transcription factor E2Fa DPa control the balance of mitotically dividing and endoreduplicating cells in Arabidopsis. Plant Cell 16: 26832692.
  • Bradford KJ, Yang SF. 1980. Xylem transport of 1-aminocyclopropane-1-carboxylic acid, an ethylene precursor, in waterlogged tomato plants. Plant Physiology 65: 322326.
  • Brown RC, Lemmon BE. 1985. Development of stomata in Selaginella: division polarity and plastid movements. American Journal of Botany 72: 19141925.
  • Bunce JA. 2006. How do leaf hydraulics limit stomatal conductance at high water vapour pressure deficits? Plant, Cell & Environment 29: 16441650.
  • Carabelli M, Possenti M, Sessa G, Ciolfi A, Sassi M, Morelli G, Ruberti I. 2007. Canopy shade causes a rapid and transient arrest in leaf development through auxin-induced cytokinin oxidase activity. Genes & Development 21: 18631868.
  • Caro E, Castellano MM, Gutierrez C. 2007. A chromatin link that couples cell division to root epidermis patterning in Arabidopsis. Nature 447: 213217.
  • Case AL, Curtis PS, Snow AA. 1998. Heritable variation in stomatal responses to elevated CO2 in wild radish, Raphanus raphanistrum (Brassicaceae). American Journal of Botany 85: 253258.
  • Castellano Mdel M, Boniotti MB, Caro E, Schnittger A, Gutierrez C. 2004. DNA replication licensing affects cell proliferation or endoreplication in a cell type-specific manner. Plant Cell 16: 23802393.
  • Chaerle L, Saibo N, Van Der Straeten D. 2005. Tuning the pores: towards engineering plants for improved water use efficiency. Trends in Biotechnology 23: 308315.
  • Charlton W. 1990. Differentiation in leaf epidermis of Chlorophytum comosum Baker. Annals of Botany 66: 567578.
  • Chen M, Chory J, Fankhauser C. 2004. Light signal transduction in higher plants. Annual Review of Genetics 38: 87117.
  • Chen X, Goodwin SM, Boroff VL, Liu X, Jenks MA. 2003. Cloning and characterization of the WAX2 gene of Arabidopsis involved in cuticle membrane and wax production. Plant Cell 15: 11701185.
  • Clifford SC, Black CR, Roberts JA, Stronach IM, Singleton-Jones PR, Mohamed AD, Azam-Ali SN. 1995. Effect of elevated atmospheric CO2 and drought on stomatal frequency in groundnut (Arachis hypogaea (L.)). Journal of Experimental Botany 288: 847852.
  • Cominelli E, Galbiati M, Vavasseur A, Conti L, Sala T, Vuylsteke M, Leonhardt N, Dellaporta SL, Tonelli C. 2005. A guard-cell-specific MYB transcription factor regulates stomatal movements and plant drought tolerance. Current Biology 15: 11961200.
  • Corbesier L, Vincent C, Jang S, Fornara F, Fan Q, Searle I, Giakountis A, Farrona S, Gissot L, Turnbull C et al . 2007. FT protein movement contributes to long-distance signaling in floral induction of Arabidopsis. Science 316: 10301033.
  • Costa S, Shaw P. 2006. Chromatin organization and cell fate switch respond to positional information in Arabidopsis. Nature 439: 493496.
  • Coupe SA, Palmer BG, Lake JA, Overy SA, Oxborough K, Woodward FI, Gray JE, Quick WP. 2006. Systemic signalling of environmental cues in Arabidopsis leaves. Journal of Experimental Botany 57: 329341.
  • Croxdale J. 1998. Stomatal patterning in monocotyledons: Tradescantia as a model system. Journal of Experimental Botany 49: 279292.
  • Croxdale JL. 2000. Stomatal patterning in angiosperms. American Journal of Botany 87: 10691080.
  • Desvoyes B, Ramirez-Parra E, Xie Q, Chua NH, Gutierrez C. 2006. Cell type-specific role of the retinoblastoma/E2F pathway during Arabidopsis leaf development. Plant Physiology 140: 6780.
  • Dewitte W, Riou-Khamlichi C, Scofield S, Healy JM, Jacqmard A, Kilby NJ, Murray JA. 2003. Altered cell cycle distribution, hyperplasia, and inhibited differentiation in Arabidopsis caused by the D-type cyclin CYCD3. Plant Cell 15: 7992.
  • Driscoll SP, Prins A, Olmos E, Kunert KJ, Foyer CH. 2006. Specification of adaxial and abaxial stomata, epidermal structure and photosynthesis to CO2 enrichment in maize leaves. Journal of Experimental Botany 57: 381390.
  • Ferris R, Long L, Bunn SM, Robinson KM, Bradshaw HD, Rae AM, Taylor G. 2002. Leaf stomatal and epidermal cell development: identification of putative quantitative trait loci in relation to elevated carbon dioxide concentration in poplar. Tree Physiology 22: 633640.
  • Franklin KA, Larner VS, Whitelam GC. 2005. The signal transducing photoreceptors of plants. International Journal of Developmental Biology 49: 653664.
  • Geisler M, Nadeau J, Sack FD. 2000. Oriented asymmetric divisions that generate the stomatal spacing pattern in Arabidopsis are disrupted by the too many mouths mutation. Plant Cell 12: 20752086.
  • Geisler M, Yang M, Sack FD. 1998. Divergent regulation of stomatal initiation and patterning in organ and suborgan regions of the Arabidopsis mutants too many mouths and four lips. Planta 205: 522530.
  • Gray JE, Holroyd GH, Van Der Lee FM, Bahrami AR, Sijmons PC, Woodward FI, Schuch W, Hetherington AM. 2000. The HIC signalling pathway links CO2 perception to stomatal development. Nature 408: 713716.
  • Von Groll U, Berger D, Altmann T. 2002. The subtilisin-like serine protease SDD1 mediates cell-to-cell signaling during Arabidopsis stomatal development. Plant Cell 14: 15271539.
  • Guimil S, Dunand C. 2006. Patterning of Arabidopsis epidermal cells: epigenetic factors regulate the complex epidermal cell fate pathway. Trends in Plant Science 11: 601609.
  • Hara K, Kajita R, Torii KU, Bergmann DC, Kakimoto T. 2007. The secretory peptide gene EPF1 enforces the stomatal one-cell-spacing rule. Genes & Development 21: 17201725.
  • Hashimoto M, Negi J, Young J, Israelsson M, Schroeder JI, Iba K. 2006. Arabidopsis HT1 kinase controls stomatal movements in response to CO2. Nature Cell Biology 8: 391397.
  • Hetherington AM. 2001. Guard cell signalling. Cell 107: 711714.
  • Hetherington AM, Woodward FI. 2003. The role of stomata in sensing and driving environmental change. Nature 424: 901908.
  • Israelsson M, Siegel RS, Young J, Hashimoto M, Iba K, Schroeder JI. 2006. Guard cell ABA and CO2 signaling network updates and Ca2+ sensor priming hypothesis. Current Opinions in Plant Biology 9: 654663.
  • Jeong S, Trotochaud AE, Clark SE. 1999. The Arabidopsis CLAVATA2 gene encodes a receptor-like protein required for the stability of the CLAVATA1 receptor-like kinase. Plant Cell 11: 19251934.
  • Jia W, Davies WJ. 2007. Modification of leaf apoplastic pH in relation to stomatal sensitivity to root-sourced abscisic acid signals. Plant Physiology 143: 6877.
  • Johnson KL, Ingram GC. 2005. Sending the right signals: regulating receptor kinase activity. Current Opinions in Plant Biology 8: 648656.
  • Karabourniotis G, Tzobanoglou D, Nikolopoulos D, Liakopoulos G. 2001. Epicuticular phenolics over guard cells: exploitation for in situ stomatal counting by fluorescence microscopy and combined image analysis. Annals of Botany 87: 631639.
  • Karlova R, Boeren S, Russinova E, Aker J, Vervoort J, De Vries S. 2006. The Arabidopsis SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE1 protein complex includes BRASSINOSTEROID-INSENSITIVE1. Plant Cell 18: 626638.
  • Kazama H, Dan H, Imaseki H, Wasteneys GO. 2004. Transient exposure to ethylene stimulates cell division and alters the fate and polarity of hypocotyl epidermal cells. Plant Physiology 134: 16141623.
  • Kessler S, Seiki S, Sinha N. 2002. Xcl1 causes delayed oblique periclinal cell divisions in developing maize leaves, leading to cellular differentiation by lineage instead of position. Development 129: 18591869.
  • Kieber JJ, Rothenberg M, Roman G, Feldmann K, Ecker JR. 1993. CTR1, a negative regulator of the ethylene response pathway in Arabidopsis, encodes a member of Raf family of protein kinases. Cell 72: 427441.
  • Kinoshita T, Doi M, Suetsugu N, Kagawa T, Wada M, Shimazaki K. 2001. Phot1 and phot2 mediate blue light regulation of stomatal opening. Nature 414: 656660.
  • Kono A, Umeda-Hara C, Adachi S, Nagata N, Konomi M, Nakagawa T, Uchimiya H, Umedab M. 2007. The Arabidopsis D-type cyclin CYCD4 controls cell division in the stomatal lineage of the hypocotyl epidermis. Plant Cell 19: 12651277.
  • Kovtun Y, Chiu WL, Tena G, Sheen J. 2000. Functional analysis of oxidative stress-activated mitogen-activated protein kinase cascade in plants. Proceedings of the National Academy of Science, USA 97: 29402945.
  • Kutter C, Schob H, Stadler M, Meins F Jr, Si-Ammour A. 2007. MicroRNA-mediated regulation of stomatal development in Arabidopsis. Plant Cell 19: 24172429.
  • Lai LB, Nadeau JA, Lucas J, Lee EK, Nakagawa T, Zhao L, Geisler M, Sack FD. 2005. The Arabidopsis R2R3 MYB proteins FOUR LIPS and MYB88 restrict divisions late in the stomatal cell lineage. Plant Cell 17: 27542767.
  • Lake JA, Quick WP, Beerling DJ, Woodward FI. 2001. Plant development. Signals from mature to new leaves. Nature 411: 154.
  • Lake JA, Woodward FI, Quick WP. 2002. Long-distance CO2 signalling in plants. Journal of Experimental Botany 53: 183193.
  • Larkin JC, Marks MD, Nadeau J, Sack F. 1997. Epidermal cell fate and patterning in leaves. Plant Cell 9: 11091120.
  • Larkin JC, Young N, Prigge M, Marks MD. 1996. The control of trichome spacing and number in Arabidopsis. Development 122: 9971005.
  • Lawson T, Craigon J, Black CR, Colls JJ, Landon G, Weyers JD. 2002. Impact of elevated CO2 and O3 on gas exchange parameters and epidermal characteristics in potato (Solanum tuberosum L.). Journal of Experimental Botany 53: 737746.
  • Li L-C, Kang D-M, Chen Z-l, Qu L-J. 2007. Hormonal regulation of leaf morphogenesis in Arabidopsis. Journal of Integrative Plant Biology 49: 7580.
  • Long SP, Ainsworth EA, Rogers A, Ort DR. 2004. Rising atmospheric carbon dioxide: plants FACE the future. Annual Review of Plant Biology 55: 591628.
  • Lough TJ, Lucas WJ. 2006. Integrative plant biology: role of phloem long-distance macromolecular trafficking. Annual Review of Plant Biology 57: 203232.
  • Lucas JR, Nadeau JA, Sack FD. 2006. Microtubule arrays and Arabidopsis stomatal development. Journal of Experimental Botany 57: 7179.
  • Lukowitz W, Roeder A, Parmenter D, Somerville C. 2004. A MAPKK kinase gene regulates extra-embryonic cell fate in Arabidopsis. Cell 116: 109119.
  • MacAlister CA, Ohashi-Ito K, Bergmann DC. 2007. Transcription factor control of asymmetric cell divisions that establish the stomatal lineage. Nature 445: 537540.
  • Martin C, Glover BJ. 2007. Functional aspects of cell patterning in aerial epidermis. Current Opinion in Plant Biology 10: 7082.
  • Masle J, Gilmore SR, Farquhar GD. 2005. The ERECTA gene regulates plant transpiration efficiency in Arabidopsis. Nature 436: 866870.
  • Mishra NS, Tuteja R, Tuteja N. 2006. Signaling through MAP kinase networks in plants. Arch Biochem Biophys 452: 5568.
  • Miyazawa S-I, Livingstone NJ, Turpin DH. 2006. Stomatal development in new leaves is related to the stomatal conductance of mature leaves in poplar (Populus trichocarpa × P. deltoides) Journal of Experimental Botany 57: 373380.
  • Montoya T, Nomura T, Farrar K, Kaneta T, Yokota T, Bishop GJ. 2002. Cloning the tomato curl3 gene highlights the putative dual role of the leucine-rich repeat receptor kinase tBRI1/SR160 in plant steroid hormone and peptide hormone signaling. Plant Cell 14: 31633176.
  • Nadeau JA, Sack FD. 2002. Control of stomatal distribution on the Arabidopsis leaf surface. Science 296: 16971700.
  • Ohashi-Ito K, Bergmann DC. 2006. Arabidopsis FAMA controls the final proliferation/differentiation switch during stomatal development. Plant Cell 18: 24932505.
  • Oka-Kira E, Kawaguchi M. 2006. Long-distance signaling to control root nodule number. Current Opinion in Plant Biology 9: 496502.
  • Ongaro V, Leyser O. 2007. Hormonal control of shoot branching. Journal of Experimental Botany. doi:10.1093/jxb/erm134..
  • Pillitteri LJ, Bemis SM, Shpak ED, Torii KU. 2007a. Haploinsufficiency after successive loss of signaling reveals a role for ERECTA-family genes in Arabidopsis ovule development. Development 134: 30993109.
  • Pillitteri LJ, Sloan DB, Bogenschutz NL, Torii KU. 2007b. Termination of asymmetric cell division and differentiation of stomata. Nature 445: 501505.
  • Del Pozo JC, Diaz-Trivino S, Cisneros N, Gutierrez C. 2006. The balance between cell division and endoreplication depends on E2FC-DPB, transcription factors regulated by the ubiquitin-SCFSKP2A pathway in Arabidopsis. Plant Cell 18: 22242235.
  • Quarrie SA, Jones HG. 1977. Effects of abscisic acid and water stress on development and morphology of wheat. Journal of Experimental Botany 28: 192203.
  • Rae AM, Ferris R, Tallis MJ, Taylor G. 2006. Elucidating genomic regions determining enhanced leaf growth and delayed senescence in elevated CO2. Plant, Cell & Environment 29: 17301741.
  • Rienties IM, Vink J, Borst JW, Russinova E, De Vries SC 2005. The Arabidopsis SERK1 protein interacts with the AAAATPase AtCDC48, the 14-3-3 protein GF14lambda and the PP2C phosphatase KAPP. Planta 221: 394405.
  • Riou-Khamlichi C, Menges M, Healy JM, Murray JA. 2000. Sugar control of the plant cell cycle: differential regulation of Arabidopsis D-type cyclin gene expression. Molecular and Cellular Biology 20: 45134521.
  • Roelfsema MR, Hedrich R. 2005. In the light of stomatal opening: new insights into ‘the Watergate’. New Phytologist 167: 665691.
  • Rolland F, Baena-Gonzalez E, Sheen J. 2006. Sugar sensing and signaling in plants: conserved and novel mechanisms. Annual Review of Plant Biology 57: 675709.
  • Ryan CA, Pearce G. 2003. Systemins: a functionally defined family of peptide signals that regulate defensive genes in Solanaceae species. Proceedings of the National Acadademy of Sciences, USA 100 (Suppl. 2): 1457714580.
  • Sachs T. 1978. The development of the spacing pattern in the leaf differentiation in the epidermis of monocotyledons. In: SubtelnyS, SussexIM, eds. The clonal basis of development. New York, NY, USA: Academic Press, 161183.
  • Saibo NJ, Vriezen WH, Beemster GT, Van Der Straeten D. 2003. Growth and stomata development of Arabidopsis hypocotyls are controlled by gibberellins and modulated by ethylene and auxins. Plant Journal 33: 9891000.
  • Salisbury EJ. 1927. On the causes and ecological significance of stomatal frequency, with special reference to the woodland flora. Philosophical Transactions of the Royal Society of London, Series B 216: 165.
  • Schaller A. 2004. A cut above the rest: the regulatory function of plant proteases. Planta 220: 183197.
  • Schilmiller AL, Howe GA. 2005. Systemic signaling in the wound response. Current Opinion in Plant Biology 8: 369377.
  • Schlüter U, Muschak M, Berger D, Altmann T. 2003. Photosynthetic performance of an Arabidopsis mutant with elevated stomatal density (sdd1-1) under different light regimes. Journal of Experimental Botany 54: 867874.
  • Schoch P-G, Jacques R, Lecharny A, Sibi M. 1984. Dependence of the stomatal index on environmental factors during stomatal differentiation in leaves of Vigna sinensis L. Journal of Experimental Botany 35: 14051409.
  • Schoch P-G, Zinsou C, Sibi M. 1980. Dependence of stomatal index on environmental factors during stomata differentiation in leaves of Vigna signensis L. Journal of Experimental Botany 31: 12111216.
  • Schweighofer A, Kazanaviciute V, Scheikl E, Teige M, Doczi R, Hirt H, Schwanninger M, Kant M, Schuurink R, Mauch F et al . 2007. The PP2C-type phosphatase AP2C1, which negatively regulates MPK4 and MPK6, modulates innate immunity, jasmonic acid, and ethylene levels in Arabidopsis. Plant Cell 19: 22132224.
  • Serna L, Fenoll C. 1996. Ethylene induces stomata differentiation in Arabidopsis. International Journal of Developmental Biology 40 (Suppl. 1): 123S124S.
  • Serna L, Fenoll C. 1997. Tracing the ontogeny of stomatal clusters in Arabidopsis with molecular markers. Plant Journal 12: 747755.
  • Serna L, Fenoll C. 2000. Stomatal development in Arabidopsis: how to make a functional pattern. Trends in Plant Science 5: 458460.
  • Serna L, Torres-Contreras J, Fenoll C. 2002. Clonal analysis of stomatal development and patterning in Arabidopsis leaves. Developmental Biology 241: 2433.
  • Shah K, Russinova E, Gadella TW Jr, Willemse J, De Vries SC. 2002. The Arabidopsis kinase-associated protein phosphatise controls internalization of the somatic embryogenesis receptor kinase 1. Genes & Development 16: 17071720.
  • Shepherd T, Wynne Griffiths D. 2006. The effects of stress on plant cuticular waxes. New Phytologist 171: 469499.
  • Shimazaki K-I, Dio M, Assmann SM, Kinoshita T. 2007. Light regulation of stomatal movement. Annual Review of Plant Biology 58: 219247.
  • Shpak ED, Berthiaume CT, Hill EJ, Torii KU. 2004. Synergistic interaction of three ERECTA-family receptor-like kinases controls Arabidopsis organ growth and flower development by promoting cell proliferation. Development 131: 14911501.
  • Shpak ED, Lakeman MB, Torii KU. 2003. Dominant-negative receptor uncovers redundancy in the Arabidopsis ERECTA Leucine-rich repeat receptor-like kinase signaling pathway that regulates organ shape. Plant Cell 15: 1095110.
  • Shpak ED, McAbee JM, Pillitteri LJ, Torii KU. 2005. Stomatal patterning and differentiation by synergistic interactions of receptor kinases. Science 309: 290293.
  • Slovik S, Daeter W, Hartung W. 1995. Compartmental redistribution and long-distance transport of abscisic acid (ABA) in plants as influenced by environmental changes in the rhizosphere: a biomathmatical model. Journal of Experimental Botany 46: 881894.
  • Sobeih WY, Dodd IC, Bacon MA, Grierson D, Davies WJ. 2004. Long-distance signals regulating stomatal conductance and leaf growth in tomato (Lycopersicon esculentum) plants subjected to partial root-zone drying. Journal of Experimental Botany 55: 23532363.
  • Szekeres M. 2003. Brassinosteroid and systemin: two hormones perceived by the same receptor. Trends in Plant Science 8: 102104.
  • Teng N, Wang J, Chen T, Wu X, Wang Y, Lin J. 2006. Elevated CO2 induces physiological, biochemical and structural changes in leaves of Arabidopsis thaliana. New Phytologist 172: 92103.
  • Thomas PW, Woodward FI, Quick PW. 2003. Systemic irradiance signalling in tobacco. New Phytologist 161: 193198.
  • Tichá I. 1982. Photosynthetic characteristics during ontogenesis of leaves 7. Stomata density and sizes. Photosynthetica 16: 375471.
  • Vandepoele K, Raes J, De Veylder L, Rouze P, Rombauts S, Inze D. 2002. Genome-wide analysis of core cell cycle genes in Arabidopsis. Plant Cell 14: 903916.
  • De Veylder L, Beeckman T, Beemster GT, De Almeida Engler J, Ormenese S, Maes S, Naudts M, Van Der Schueren E, Jacqmard A, Engler G et al . 2002. Control of proliferation, endoreduplication and differentiation by the Arabidopsis E2Fa-DPa transcription factor. EMBO Journal 21: 13601368.
  • De Veylder L, Beeckman T, Beemster GT, Krols L, Terras F, Landrieu I, Van Der Schueren E, Maes S, Naudts M, Inze D. 2001. Functional analysis of cyclin-dependent kinase inhibitors of Arabidopsis. Plant Cell 13: 16531668.
  • De Veylder L, Beeckman T, Inze D. 2007. The ins and outs of the plant cell cycle. Nature Reviews in Molecular Cell Biology 8: 655665.
  • Vieten A, Sauer M, Brewer PB, Friml J. 2007. Molecular and cellular aspects of auxin-transport-mediated development. Trends in Plant Science 12: 160168.
  • Wang H, Ngwenyama N, Liu Y, Walker JC, Zhang S. 2007. Stomatal development and patterning are regulated by environmentally responsive mitogen-activated protein kinases in Arabidopsis. Plant Cell 19: 6373.
  • Wasternack C, Stenzel I, Hause B, Hause G, Kutter C, Maucher H, Neumerkel J, Feussner I, Miersch O. 2006. The wound response in tomato – Role of jasmonic acid. Journal of Plant Physiology 163: 297306.
  • Werner T, Motyka V, Laucou V, Smets R, Van Onckelen H, Schmulling T. 2003. Cytokinin-deficient transgenic Arabidopsis plants show multiple developmental alterations indicating opposite functions of cytokinins in the regulation of shoot and root meristem activity. Plant Cell 15: 25322550.
  • Wildwater M, Campilho A, Perez-Perez JM, Heidstra R, Blilou I, Korthout H, Chatterjee J, Mariconti L, Gruissem W, Scheres B. 2005. The RETINOBLASTOMA-RELATED gene regulates stem cell maintenance in Arabidopsis roots. Cell 123: 13371349.
  • Wilkinson S, Davies WJ. 2002. ABA-based chemical signalling: the coordination of responses to stress in plants. Plant, Cell & Environment 25: 195210.
  • Woodward FI. 1987. Stomatal numbers are sensitive to increases in CO2 from pre-industrial levels. Nature 327: 617618.
  • Woodward FI, Kelly CK. 1995. The influences of CO2 concentration on stomatal density. New Phytologist 131: 311327.
  • Wyrzykowska J, Schorderet M, Pien S, Gruissem W, Fleming AJ. 2006. Induction of differentiation in the shoot apical meristem by transient overexpression of a retinoblastoma-related protein. Plant Physiology 141: 13381348.
  • Xie X, Wang Y, Williamson L, Holroyd GH, Tagliavia C, Murchie E, Theobald J, Knight MR, Davies WJ, Leyser HM et al . 2006. The identification of genes involved in the stomatal response to reduced atmospheric relative humidity. Current Biology 16: 882887.
  • Yang M, Sack FD. 1995. The too many mouths and four lips mutations affect stomatal production in Arabidopsis. Plant Cell 7: 22272239.
  • Yoo BC, Kragler F, Varkonyi-Gasic E, Haywood V, Archer-Evans S, Lee YM, Lough TJ, Lucas WJ. 2004. A systemic small RNA signaling system in plants. Plant Cell 16: 19792000.
  • Young JJ, Mehta S, Israelsson M, Godoski J, Grill E, Schroeder JI. 2006. CO2 signaling in guard cells: calcium sensitivity response modulation, a Ca2+-independent phase, and CO2 insensitivity of the gca2 mutant. Proceedings of the National Academy of Science, USA 103: 75067511.