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Frontiers in Plant Science
Volumn 7, Issue , 2016, Pages
Modeling root zone effects on preferred pathways for the passive transport of ions and water in plant roots
Author keywords

Casparian strip; Differentiation zone; Elongation zone; Salt uptake; Suberin lamellae; Transpiration
Indexed keywords

EID: 84976512006     PISSN: None     EISSN: 1664462X     Source Type: Journal    
DOI: 10.3389/fpls.2016.00914     Document Type: Article
Times cited : (32)
References (40)
  • 1
    • 77950427428 scopus 로고    scopus 로고
    • A developmental framework for endodermal differentiation and polarity
    • Alassimone, J., Naseer, S., and Geldner, N. (2010). A developmental framework for endodermal differentiation and polarity. Proc. Natl. Acad. Sci. U. S. A. 107, 5214-5219. doi: 10. 1073/pnas. 0910772107
    • (2010) Proc. Natl. Acad. Sci. U. S. A. , vol.107 , pp. 5214-5219
    • Alassimone, J.1    Naseer, S.2    Geldner, N.3
  • 2
    • 84940885180 scopus 로고    scopus 로고
    • Suberization-the second life of an endodermal cell
    • Andersen, T. G., Barberon, M., and Geldner, N. (2015). Suberization-the second life of an endodermal cell. Curr. Opin. Plant Biol. 28, 9-15. doi: 10. 1016/j. pbi. 2015. 08. 004
    • (2015) Curr. Opin. Plant Biol. , vol.28 , pp. 9-15
    • Andersen, T.G.1    Barberon, M.2    Geldner, N.3
  • 3
    • 84907803208 scopus 로고    scopus 로고
    • Radial transport of nutrients: The plant root as a polarized epithelium
    • Barberon, M., and Geldner, N. (2014). Radial transport of nutrients: the plant root as a polarized epithelium. Plant Physiol. 166, 528-537. doi: 10. 1104/pp. 114. 246124
    • (2014) Plant Physiol. , vol.166 , pp. 528-537
    • Barberon, M.1    Geldner, N.2
  • 4
    • 33644659755 scopus 로고    scopus 로고
    • Early effects of salinity on water transport in Arabidopsis roots. Molecular and cellular features of aquaporin expression
    • Boursiac, Y., Chen, S., Luu, D.-T., Sorieul, M., van den Dries, N., and Maurel, C. (2005). Early effects of salinity on water transport in Arabidopsis roots. Molecular and cellular features of aquaporin expression. Plant Physiol. 139, 790-805. doi: 10. 1104/pp. 105. 065029
    • (2005) Plant Physiol. , vol.139 , pp. 790-805
    • Boursiac, Y.1    Chen, S.2    Luu, D.-T.3    Sorieul, M.4    van den Dries, N.5    Maurel, C.6
  • 7
    • 84880268124 scopus 로고    scopus 로고
    • Zinc uptake and radial transport in roots of Arabidopsis thaliana: A modelling approach to understand accumulation
    • Claus, J., Bohmann, A., and Chavarra-Krauser, A. (2013). Zinc uptake and radial transport in roots of Arabidopsis thaliana: a modelling approach to understand accumulation. Ann. Bot. 112, 369-380. doi: 10. 1093/aob/mcs263
    • (2013) Ann. Bot. , vol.112 , pp. 369-380
    • Claus, J.1    Bohmann, A.2    Chavarra-Krauser, A.3
  • 8
    • 0001767794 scopus 로고
    • Structural changes and associated reduction of hydraulic conductance in roots of Sorghum bicolor L. following exposure to water deficit
    • Cruz, R. T., Jordan, W. R., and Drew, M. C. (1992). Structural changes and associated reduction of hydraulic conductance in roots of Sorghum bicolor L. following exposure to water deficit. Plant Physiol. 99, 203-212. doi: 10. 1104/pp. 99. 1. 203
    • (1992) Plant Physiol. , vol.99 , pp. 203-212
    • Cruz, R.T.1    Jordan, W.R.2    Drew, M.C.3
  • 10
    • 0038040831 scopus 로고    scopus 로고
    • Root endodermis and exodermis: Structure, function, and responses to the environment
    • Enstone, D. E., Peterson, C. A., and Ma, F. (2002). Root endodermis and exodermis: structure, function, and responses to the environment. J. Plant Growth Regul. 21, 335-351. doi: 10. 1007/s00344-003-0002-2
    • (2002) J. Plant Growth Regul. , vol.21 , pp. 335-351
    • Enstone, D.E.1    Peterson, C.A.2    Ma, F.3
  • 11
    • 84882778048 scopus 로고    scopus 로고
    • Mathematical modelling of the uptake and transport of salt in plant roots
    • Foster, K. J., and Miklavcic, S. J. (2013). Mathematical modelling of the uptake and transport of salt in plant roots. J. Theor. Biol. 336, 132-143. doi: 10. 1016/j. jtbi. 2013. 07. 025
    • (2013) J. Theor. Biol. , vol.336 , pp. 132-143
    • Foster, K.J.1    Miklavcic, S.J.2
  • 12
    • 84884581102 scopus 로고    scopus 로고
    • On the competitive uptake and transport of ions through differentiated root tissues
    • Foster, K. J., and Miklavcic, S. J. (2014). On the competitive uptake and transport of ions through differentiated root tissues. J. Theor. Biol. 340, 1-10. doi: 10. 1016/j. jtbi. 2013. 09. 004
    • (2014) J. Theor. Biol. , vol.340 , pp. 1-10
    • Foster, K.J.1    Miklavcic, S.J.2
  • 13
    • 84942123378 scopus 로고    scopus 로고
    • Toward a biophysical understanding of the salt stress response of individual plant cells
    • Foster, K. J., and Miklavcic, S. J. (2015). Toward a biophysical understanding of the salt stress response of individual plant cells. J. Theor. Biol. 385, 130-142. doi: 10. 1016/j. jtbi. 2015. 08. 024
    • (2015) J. Theor. Biol. , vol.385 , pp. 130-142
    • Foster, K.J.1    Miklavcic, S.J.2
  • 14
    • 0030024286 scopus 로고    scopus 로고
    • Water and solute transport along developing maize roots
    • Frensch, J., Hsiao, T., and Steudle, E. (1996). Water and solute transport along developing maize roots. Planta 198, 348-355. doi: 10. 1007/BF00620050
    • (1996) Planta , vol.198 , pp. 348-355
    • Frensch, J.1    Hsiao, T.2    Steudle, E.3
  • 15
    • 84877656747 scopus 로고    scopus 로고
    • The endodermis
    • Geldner, N. (2013). The endodermis. Ann. Rev. Plant Biol. 64, 531-558. doi: 10. 1146/annurev-arplant-050312-120050
    • (2013) Ann. Rev. Plant Biol. , vol.64 , pp. 531-558
    • Geldner, N.1
  • 19
    • 53349160587 scopus 로고    scopus 로고
    • Cell-specific localization of Na+ in roots of durum wheat and possible control points for salt exclusion
    • Lauchli, A., James, R. A., Huang, C. X., McCully, M., and Munns, R. (2008). Cell-specific localization of Na+ in roots of durum wheat and possible control points for salt exclusion. Plant Cell Environ. 31, 1565-1574. doi: 10. 1111/j. 1365-3040. 2008. 01864. x
    • (2008) Plant Cell Environ. , vol.31 , pp. 1565-1574
    • Lauchli, A.1    James, R.A.2    Huang, C.X.3    McCully, M.4    Munns, R.5
  • 20
    • 84933779333 scopus 로고
    • Import and export of mineral nutrients in plant roots
    • eds A. Läuchli and R. L. Bieleski (New York, NY: Springer-Verlag)
    • Lüttge, U. (1983). "Import and export of mineral nutrients in plant roots, " in Inorganic Plant Nutrition, eds A. Läuchli and R. L. Bieleski (New York, NY: Springer-Verlag), 181-211.
    • (1983) Inorganic Plant Nutrition , pp. 181-211
    • Lüttge, U.1
  • 21
    • 0032799516 scopus 로고    scopus 로고
    • Responses of plant vascular systems to auxin transport inhibition
    • Mattsson, J., Sung, Z., and Berleth, T. (1999). Responses of plant vascular systems to auxin transport inhibition. Development 126, 2979-2991.
    • (1999) Development , vol.126 , pp. 2979-2991
    • Mattsson, J.1    Sung, Z.2    Berleth, T.3
  • 22
    • 12044251949 scopus 로고
    • Water transport in onion (Allium cepa L.) roots (changes of axial and radial hydraulic conductivities during root development)
    • Melchior, W., and Steudle, E. (1993). Water transport in onion (Allium cepa L.) roots (changes of axial and radial hydraulic conductivities during root development). Plant Physiol. 101, 1305-1315.
    • (1993) Plant Physiol. , vol.101 , pp. 1305-1315
    • Melchior, W.1    Steudle, E.2
  • 23
    • 69949167969 scopus 로고    scopus 로고
    • Shoot Na+ exclusion and increased salinity tolerance engineered by cell typespecific alteration of Na+ transport in Arabidopsis
    • Møller, I. S., Gilliham, M., Jha, D., Mayo, G. M., Roy, S. J., Coates, J. C., et al. (2009). Shoot Na+ exclusion and increased salinity tolerance engineered by cell typespecific alteration of Na+ transport in Arabidopsis. Plant Cell 21, 2163-2178. doi: 10. 1105/tpc. 108. 064568
    • (2009) Plant Cell , vol.21 , pp. 2163-2178
    • Møller, I.S.1    Gilliham, M.2    Jha, D.3    Mayo, G.M.4    Roy, S.J.5    Coates, J.C.6
  • 24
    • 36549067228 scopus 로고    scopus 로고
    • Salinity tolerance of Arabidopsis: A good model for cereals?
    • Møller, I. S., and Tester, M. (2007). Salinity tolerance of Arabidopsis: a good model for cereals? Trends Plant Sci. 12, 534-540. doi: 10. 1016/j. tplants. 2007. 09. 009
    • (2007) Trends Plant Sci. , vol.12 , pp. 534-540
    • Møller, I.S.1    Tester, M.2
  • 25
    • 84862537728 scopus 로고    scopus 로고
    • Casparian strip diffusion barrier in Arabidopsis is made of a lignin polymer without suberin
    • Naseer, S., Lee, Y., Lapierre, C., Franke, R., Nawrath, C., and Geldner, N. (2012). Casparian strip diffusion barrier in Arabidopsis is made of a lignin polymer without suberin. Proc. Natl. Acad. Sci. U. S. A. 109, 10101-10106. doi: 10. 1073/pnas. 1205726109
    • (2012) Proc. Natl. Acad. Sci. U. S. A. , vol.109 , pp. 10101-10106
    • Naseer, S.1    Lee, Y.2    Lapierre, C.3    Franke, R.4    Nawrath, C.5    Geldner, N.6
  • 26
    • 0030512491 scopus 로고    scopus 로고
    • Functions of passage cells in the endodermis and exodermis of roots
    • Peterson, C. A., and Enstone, D. E. (1996). Functions of passage cells in the endodermis and exodermis of roots. Physiol. Plant. 97, 592-598. doi: 10. 1111/j. 1399-3054. 1996. tb00520. x
    • (1996) Physiol. Plant. , vol.97 , pp. 592-598
    • Peterson, C.A.1    Enstone, D.E.2
  • 27
    • 84929658098 scopus 로고    scopus 로고
    • A receptor-like kinase mutant with absent endodermal diffusion barrier displays selective nutrient homeostasis defects
    • Pfister, A., Barberon, M., Alassimone, J., Kalmbach, L., Lee, Y., Vermeer, J. E. M., et al. (2014). A receptor-like kinase mutant with absent endodermal diffusion barrier displays selective nutrient homeostasis defects. eLife 3: e03115. doi: 10. 7554/eLife. 03115
    • (2014) eLife , vol.3
    • Pfister, A.1    Barberon, M.2    Alassimone, J.3    Kalmbach, L.4    Lee, Y.5    Vermeer, J.E.M.6
  • 28
    • 79952830601 scopus 로고    scopus 로고
    • Water and solute permeabilities of Arabidopsis roots in relation to the amount and composition of aliphatic suberin
    • Ranathunge, K., and Schreiber, L. (2011). Water and solute permeabilities of Arabidopsis roots in relation to the amount and composition of aliphatic suberin. J. Exp. Bot. 62, 1961-1974. doi: 10. 1093/jxb/erq389
    • (2011) J. Exp. Bot. , vol.62 , pp. 1961-1974
    • Ranathunge, K.1    Schreiber, L.2
  • 29
    • 0029177478 scopus 로고
    • On the correlation of primary root growth and tracheary element size and distance from the tip in cotton seedlings grown under salinity
    • Reinhardt, D. H., and Rost, T. L. (1995). On the correlation of primary root growth and tracheary element size and distance from the tip in cotton seedlings grown under salinity. Environ. Exp. Bot. 35, 575-588. doi: 10. 1016/0098-8472(95)00018-6
    • (1995) Environ. Exp. Bot. , vol.35 , pp. 575-588
    • Reinhardt, D.H.1    Rost, T.L.2
  • 30
    • 5244340499 scopus 로고
    • The structure of barley roots in relation to the transport of ions into the stele
    • Robards, A. W., Jackson, S. M., Clarkson, D. T., and Sanderson, J. (1973). The structure of barley roots in relation to the transport of ions into the stele. Protoplasma 77, 291-311. doi: 10. 1007/BF01276765
    • (1973) Protoplasma , vol.77 , pp. 291-311
    • Robards, A.W.1    Jackson, S.M.2    Clarkson, D.T.3    Sanderson, J.4
  • 31
    • 79956294981 scopus 로고    scopus 로고
    • A novel protein family mediates Casparian strip formation in the endodermis
    • Roppolo, D., De Rybel, B., Tendon, V. D., Pfister, A., Alassimone, J., Vermeer, J. E. M., et al. (2011). A novel protein family mediates Casparian strip formation in the endodermis. Nature 473, 380-383. doi: 10. 1038/nature10070
    • (2011) Nature , vol.473 , pp. 380-383
    • Roppolo, D.1    De Rybel, B.2    Tendon, V.D.3    Pfister, A.4    Alassimone, J.5    Vermeer, J.E.M.6
  • 32
    • 84937520226 scopus 로고    scopus 로고
    • In silico simulation modeling reveals the importance of the Casparian strip for efficient silicon uptake in rice roots
    • Sakurai, G., Satake, A., Yamaji, N., Mitani-Ueno, N., Yokozawa, M., Feugier, F. G., et al. (2015). In silico simulation modeling reveals the importance of the Casparian strip for efficient silicon uptake in rice roots. Plant Cell Physiol. 56, 631-639. doi: 10. 1093/pcp/pcv017
    • (2015) Plant Cell Physiol. , vol.56 , pp. 631-639
    • Sakurai, G.1    Satake, A.2    Yamaji, N.3    Mitani-Ueno, N.4    Yokozawa, M.5    Feugier, F.G.6
  • 33
    • 0001298973 scopus 로고
    • Water uptake by different regions of the barley root. Pathways of radial flow in relation to development of the endodermis
    • Sanderson, J. (1983). Water uptake by different regions of the barley root. Pathways of radial flow in relation to development of the endodermis. J. Exp. Bot. 34, 240-253. doi: 10. 1093/jxb/34. 3. 240
    • (1983) J. Exp. Bot. , vol.34 , pp. 240-253
    • Sanderson, J.1
  • 34
    • 0028796916 scopus 로고
    • Mutations affecting the radial organisation of the Arabidopsis root display specific defects throughout the embryonic axis
    • Scheres, B., Di Laurenzio, L., Willemsen, V., Hauser, M. T., Janmaat, K., Weisbeek, P., et al. (1995). Mutations affecting the radial organisation of the Arabidopsis root display specific defects throughout the embryonic axis. Development 121, 53-62.
    • (1995) Development , vol.121 , pp. 53-62
    • Scheres, B.1    Di Laurenzio, L.2    Willemsen, V.3    Hauser, M.T.4    Janmaat, K.5    Weisbeek, P.6
  • 35
    • 84942109660 scopus 로고    scopus 로고
    • Mathematical modeling and experimental validation of the spatial distribution of boron in the root of Arabidopsis thaliana identify high boron accumulation in the tip and predict a distinct root tip uptake function
    • Shimotohno, A., Sotta, N., Sato, T., De Ruvo, M., Mare, A. F., Grieneisen, V. A., et al. (2015). Mathematical modeling and experimental validation of the spatial distribution of boron in the root of Arabidopsis thaliana identify high boron accumulation in the tip and predict a distinct root tip uptake function. Plant Cell Physiol. 56, 620-630. doi: 10. 1093/pcp/pcv016
    • (2015) Plant Cell Physiol. , vol.56 , pp. 620-630
    • Shimotohno, A.1    Sotta, N.2    Sato, T.3    De Ruvo, M.4    Mare, A.F.5    Grieneisen, V.A.6
  • 36
    • 79952427100 scopus 로고    scopus 로고
    • Natural variation of root hydraulics in Arabidopsis grown in normal and salt-stressed conditions
    • Sutka, M., Li, G., Boudet, J., Boursiac, Y., Doumas, P., and Maurel, C. (2011). Natural variation of root hydraulics in Arabidopsis grown in normal and salt-stressed conditions. Plant Physiol. 155, 1264-1276. doi: 10. 1104/pp. 110. 1 63113
    • (2011) Plant Physiol. , vol.155 , pp. 1264-1276
    • Sutka, M.1    Li, G.2    Boudet, J.3    Boursiac, Y.4    Doumas, P.5    Maurel, C.6
  • 37
    • 0028990686 scopus 로고
    • Use of nanofiltration for concentration and demineralization in the dairy industry: Model for mass transport
    • van der Horst, H. C., Timmer, J. M. K., Robbertsen, T., and Leenders, J. (1995). Use of nanofiltration for concentration and demineralization in the dairy industry: model for mass transport. J. Membrane Sci. 104, 205-218. doi: 10. 1016/0376-7388(95)00041-A
    • (1995) J. Membrane Sci. , vol.104 , pp. 205-218
    • van der Horst, H.C.1    Timmer, J.M.K.2    Robbertsen, T.3    Leenders, J.4
  • 38
    • 84892160452 scopus 로고    scopus 로고
    • A spatial accommodation by neighboring cells is required for organ initiation in Arabidopsis
    • Vermeer, J. E. M., von Wangenheim, D., Barberon, M., Lee, Y., Stelzer, E. H. K., Maizel, A., et al. (2014). A spatial accommodation by neighboring cells is required for organ initiation in Arabidopsis. Science 343, 178-183. doi: 10. 1126/science. 1245871
    • (2014) Science , vol.343 , pp. 178-183
    • Vermeer, J.E.M.1    von Wangenheim, D.2    Barberon, M.3    Lee, Y.4    Stelzer, E.H.K.5    Maizel, A.6
  • 39
    • 0034930469 scopus 로고    scopus 로고
    • The pathways of calcium movement to the xylem
    • White, P. J. (2001). The pathways of calcium movement to the xylem. J. Exp. Bot. 52, 891-899. doi: 10. 1093/jexbot/52. 358. 891
    • (2001) J. Exp. Bot. , vol.52 , pp. 891-899
    • White, P.J.1
  • 40
    • 79956341277 scopus 로고    scopus 로고
    • Net sodium fluxes change significantly at anatomically distinct root zones of rice Oryza sativa L. seedlings
    • Zhou, Q., Wang, L., Cai, X., Wang, D., Hua, X., Qu, L., et al. (2011). Net sodium fluxes change significantly at anatomically distinct root zones of rice Oryza sativa L. seedlings. J. Plant Physiol. 168, 1249-1255. doi: 10. 1016/j. jplph. 2011. 01. 017
    • (2011) J. Plant Physiol. , vol.168 , pp. 1249-1255
    • Zhou, Q.1    Wang, L.2    Cai, X.3    Wang, D.4    Hua, X.5    Qu, L.6

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