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  • Beaudette P.C., Chlup M., Yee J. & Emery R.J.N. (2007) Relationships of root conductivity and aquaporin gene expression in Pisum sativum: diurnal patterns and the response to HgCl2 and ABA. Journal of Experimental Botany 58, 12911300.
  • Carvajal M., Cooke D.T. & Clarkson D.T. (1996) Responses of wheat plants to nutrient deprivation may involve the regulation of water-channel function. Planta 199, 372381.
  • Chaumont F., Barrieu F., Jung R. & Chrispeels M.J. (2000) Plasma membrane intrinsic proteins from maize cluster in two sequence subgroups with differential aquaporin activity. Plant Physiology 122, 10251034.
  • Chaumont F., Barrieu F., Wojcik E., Chrispeels M.J. & Jung R. (2001) Aquaporins constitute a large and highly divergent protein family in maize. Plant Physiology 125, 12061215.
  • Danielson J.Å.H. & Johanson U. (2008) Unexpected complexity of the aquaporin gene family in the moss Physcomitrella patens. BMC Plant Biology 8, 45.
  • Fetter K., Van Wider V., Moshelion M. & Chaumont F. (2004) Interactions between plasma membrane aquaporins modulate their water channel activity. The Plant Cell 16, 215228.
  • Hachez C., Moshelion M., Zelazny E., Cavez D. & Chaumont F. (2006) Localization and quantification of plasma membrane aquaporin expression in maize primary root: a clue to understanding their role as cellular plumbers. Plant Molecular Biology 62, 305323.
  • Henzler T., Waterhouse R.N., Smyth A.J., Carvajal M., Cooke D.T., Shäffner A.R., Steudle E. & Clarkson D.T. (1999) Diurnal variations in hydraulic conductivity and root pressure can be correlated with the expression of putative aquaporins in the roots of Lotus japonicus. Planta 210, 5060.
  • Hirasawa T., Tsuchida M. & Ishihara K. (1992) Relationship between resistance to water transport and exudation rate and the effect of the resistance on the midday depression of stomatal aperture in rice plants. Japanese Journal of Crop Science 61, 145152.
  • Ishihara K. & Saito K. (1987) Diurnal course of photosynthesis, transpiration and diffusive conductance in the single-leaf of the rice plants grown in the paddy field under submerged condition. Japanese Journal of Crop Science 56, 817. (in Japanese with English abstract).
  • Ishikawa F., Suga S., Uemura T., Sato M.H. & Maeshima M. (2005) Novel type aquaporin SIPs are mainly localized to the ER membrane and show cell-specific expression in Arabidopsis thaliana. FEBS Letters 579, 58145820.
  • Jiang C.Z., Hirasawa T. & Ishihara K. (1988) Physiological and ecological characteristics of high yielding varieties in rice plants. II. Leaf photosynthetic rate. Japanese Journal of Crop Science 57, 139145. (in Japanese with English abstract).
  • Johanson U., Karlsson M., Johansson I., Gustavsson S., Sjövall S., Fraysse L., Weig A.R. & Kjellbom P. (2001) The complete set of genes encoding major intrinsic proteins in Arabidopsis provides a framework for a new nomenclature for major intrinsic protein in plants. Plant Physiology 126, 13581369.
  • Johansson I., Karlsson M., Shukla V.K., Chrispeels M.J., Larsson C. & Kjellbom P. (1998) Water transport activity of the plasma membrane aquaporin PM28A is regulated by phosphorylation. The Plant Cell 10, 451459.
  • Kamiya T., Tanaka M., Mitani N., Ma J.F., Maeshima M. & Fujiwara T. (2009) NIP1;1, an aquaporin homolog, determines the arsenite sensitivity of Arabidopsis thaliana. Journal of Biological Chemistry 284, 21142120.
  • Kramer P.J. & Boyer J.S. (1995) Water Relations of Plant and Soils. Academic Press, San Diego, CA, USA.
  • Levin M., Resnick N., Rosianskey Y., Kolotilin I., Wininger S., Lemcoff J.H., Cohen S., Galili G., Koltai H. & Kapulnik Y. (2009) Transcriptional profiling of Arabidopsis thaliana plants' response to low relative humidity suggests a shoot–root communication. Plant Science 177, 450459.
  • Lopez F., Bousser A., Sissoëff I., Gaspar M., Lachaise B., Hoarau J. & Mahé A. (2003) Diurnal regulation of water transport and aquaporin gene expression in maize roots: contribution of PIP2 proteins. Plant & Cell Physiology 44, 13841395.
  • Ma J.F., Tamai K., Yamaji N., Mitani N., Konishi S., Katsuhara M., Ishiguro M., Murata Y. & Yano M. (2006) A silicon transporter in rice. Nature 440, 688691.
  • Matsumoto T., Lian H.-L., Su W.-A., Tanaka D., Liu C.W., Iwasaki I. & Kitagawa Y. (2009) Role of the aquaporin PIP1 subfamily in the chilling tolerance of rice. Plant & Cell Physiology 50, 216229.
  • Maurel C., Verdoucq L., Luu D.-T. & Santoni V. (2008) Plant aquaporins: membrane channels with multiple integrated functions. Annual Review of Plant Biology 59, 595624.
  • Miyamoto N., Steudle E., Hirasawa T. & Lafitte R. (2001) Hydraulic conductivity of rice roots. Journal of Experimental Botany 52, 18351846.
  • Murai-Hatano M., Kuwagata T., Sakurai J., Nonami H., Ahamed A., Nagasuga K., Matsunami T., Fukushi K., Maeshima M. & Okada M. (2008) Effect of low root temperature on hydraulic conductivity of rice plants and the possible role of aquaporins. Plant & Cell Physiology 49, 12941305.
  • Muto Y., Segami S., Hayashi H., Sakurai J., Murai-Hatano M., Hattori Y., Ashikari M. & Maeshima M. (2011) Vacuolar proton pumps and aquaporins involved in rapid internode elongation of deepwater rice. Bioscience, Biotechnology, and Biochemistry 75, 114122.
  • Parsons L.R. & Kramer P.J. (1974) Diurnal cycling in root resistance to water movement. Physiologia Plantarum 30, 1923.
  • Postaire O., Tournaire-Roux C., Grondin A., Boursiac Y., Morillon R., Schaffner A.R. & Maurel C. (2010) A PIP1 aquaporin contributes to hydrostatic pressure-induced water transport in both the root and rosette of Arabidopsis. Plant Physiology 152, 14181430.
  • Ranathunge K., Steudle E. & Lafitte R. (2003) Control of water uptake by rice (Oryza sativa L.): role of the outer part of the root. Planta 217, 193205.
  • Sakurai J., Ishikawa F., Yamaguchi T., Uemura M. & Maeshima M. (2005) Identification of 33 rice aquaporin genes and analysis of their expression and function. Plant & Cell Physiology 46, 15681577.
  • Sakurai J., Ahamed A., Murai M., Maeshima M. & Uemura M. (2008) Tissue and cell-specific localization of rice aquaporins and their water transport activities. Plant & Cell Physiology 49, 3039.
  • Sasaki S. & Noda Y. (2007) Aquaporin-2 protein dynamics within the cell. Current Opinion in Nephrology and Hypertension 16, 348352.
  • Siefritz F., Tyree M.T., Lovisolo C., Schubert A. & Kaldenhoff R. (2002) PIP1 plasma membrane aquaporins in tobacco: from cellular effects to function in plants. The Plant Cell 14, 869876.
  • Steudle E. (1993) Pressure probe techniques: basic principles and application to studies of water and solute relations at the cell, tissue and organ level. In Water Deficits: Plant Responses from Cell to Community (ed. J.A.C. Smith & H. Griffiths), pp. 536. BIOS Scientific Publishers, Oxford, UK.
  • Steudle E. (2000) Water uptake by plant roots: an integration of views. Plant and Soil 226, 4546.
  • Steudle E. & Peterson C.A. (1998) How does water get through roots? Journal of Experimental Botany 49, 775788.
  • Suga S. & Maeshima M. (2004) Water channel activity of radish plasma membrane aquaporins heterologously expressed in yeast and their modification by site-directed mutagenesis. Plant & Cell Physiology 45, 823830.
  • Takano J., Wada M., Ludewig U., Schaaf G., von Wirén N. & Fujiwara T. (2006) The Arabidopsis major intrinsic protein NIP5;1 is essential for efficient boron uptake and plant development under boron limitation. The Plant Cell 18, 14981509.
  • Temmei Y., Uchida S., Hoshino D., Kanzawa N., Kuwahara M., Sasaki S. & Tsuchiya T. (2005) Water channel activities of Mimosa pudica plasma membrane intrinsic proteins are regulated by direct interaction and phosphorylation. FEBS Letters 579, 44174422.
  • Törnroth-Horsefield S., Wang Y., Hedfalk K., Johanson U., Karlsson M., Tajkhorshid E., Neutze R. & Kjellbom P. (2006) Structural mechanism of plant aquaporin gating. Nature 439, 688694.
  • Tournaire-Roux C., Sutka M., Javot H., Gout E., Gerbeau P., Luu D.-T., Bligny R. & Maurel C. (2003) Cytosolic pH regulates root water transport during anoxic stress through gating of aquaporins. Nature 425, 393397.
  • Wallace I.S., Choi W.-G. & Roberts D.M. (2006) The structure, function and regulation of the nodulin 26-like intrinsic protein family of plant aquaglyceroporins. Biochimica et Biophysica Acta 1758, 11651175.
  • Yamaji N. & Ma J.F. (2007) Spatial distribution and temporal variation of the rice silicon transporter Lsi1. Plant Physiology 143, 13061313.
  • Yamaji N., Mitani N. & Ma J.F. (2008) A transporter regulating silicon distribution in rice shoots. The Plant Cell 20, 13811389.
  • Zelazny E., Borst J.W., Muylaert M., Batoko H., Hemminga M.A. & Chaumont F. (2007) FRET imaging in living maize cells reveals that plasma membrane aquaporins interact to regulate their subcellular localization. Proceedings of the National Academy of Sciences of the United States of America 104, 1235912364.