CELLULAR PLANT RESPONSES: PLANT-MICROBE INTERACTIONS

Bhandari P.A.; Patil A.G.; Ojha M.D.; Pawar S.S.; Adhikari P.R.

doi:http://dx.doi.org/10.9735/0975-3702.1.2.8-14

CELLULAR PLANT RESPONSES: PLANT-MICROBE INTERACTIONS

Bhandari P.A.¹, Patil A.G.², Ojha M.D.³, Pawar S.S.⁴, Adhikari P.R.⁵
¹P.T.V.Aâ€™s Sathaye College, Vile Parle (E), Mumbai-400 057, India
²V.E.S., College of Arts, Science and Commerce, Chembur, Mumbai-400 071, India
³V.E.S., College of Arts, Science and Commerce, Chembur, Mumbai-400 071, India
⁴Padmashree Dr. D.Y. Patil University, Navi Mumbai, 400614, India
⁵Padmashree Dr. D.Y. Patil University, Navi Mumbai, 400614, India

Received : - Accepted : - Published : 21-12-2009
Volume : 1 Issue : 2 Pages : 8 - 14
Int J Parasitol Res 1.2 (2009):8-14
DOI : http://dx.doi.org/10.9735/0975-3702.1.2.8-14

Keywords : Plant Responses, Plant-Microbe Interactions, Functional analysis
Conflict of Interest : None declared

Cite - MLA : Bhandari P.A., et al "CELLULAR PLANT RESPONSES: PLANT-MICROBE INTERACTIONS." International Journal of Parasitology Research 1.2 (2009):8-14. http://dx.doi.org/10.9735/0975-3702.1.2.8-14

Cite - APA : Bhandari P.A., Patil A.G., Ojha M.D., Pawar S.S., Adhikari P.R. (2009). CELLULAR PLANT RESPONSES: PLANT-MICROBE INTERACTIONS. International Journal of Parasitology Research, 1 (2), 8-14. http://dx.doi.org/10.9735/0975-3702.1.2.8-14

Cite - Chicago : Bhandari P.A., Patil A.G., Ojha M.D., Pawar S.S., and Adhikari P.R. "CELLULAR PLANT RESPONSES: PLANT-MICROBE INTERACTIONS." International Journal of Parasitology Research 1, no. 2 (2009):8-14. http://dx.doi.org/10.9735/0975-3702.1.2.8-14

Copyright : © 2009, Bhandari P.A., et al, Published by Bioinfo Publications. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution and reproduction in any medium, provided the original author and source are credited.

Abstract

Soil-borne microorganisms can induce an enhanced defensive capacity in above-ground plant parts, which provides protection against a broad spectrum of microbial pathogens; even insect herbivores and emerged as important regulators of this induced systemic resistance.

References

[1] Dhanoa P. K., Sinclair A. M., Mullen R. T. and Mathur J. (2006) Can. J. Bot., 84:515-522
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[2] Brandizzi F., Fricker M. and Hawes C. (2002) Nat. Rev., 3:520-530.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[3] Genre A. and Bonfante P. (2007) MPMI., 20(9):1023–1030
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[4] Glazebrook J. (2005) Annu Rev Phytopathol., 43:205-27
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[5] Geurts R., Fedorova E. and Bisseling T. (2005) Curr. Opin. Plant Biol., 8:346- 352.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[6] Paszkowsky U. (2006) New Phytol., 172 :35-46
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[7] Zhang S. and Klessig D. F. (2001) Trends Plant Sci., 6:520-527
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[8] Schenk P. M., Kazan K., Wilson I., Anderson J. P., Richmond T., Somerville S. T. and Manners J. M. (2000) Proc. Natl.Acad. Sci. U.S.A., 97:11655-11660
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[9] Grant M. and Lamb C. (2006) Curr Opin Plant Biol., 9:414-420
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[10] Gage D. J. (2004) Microbio. Mol Biol Rev., 68:280-300
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[11] Truchet G., Roche P., Lerouge P., Vasse J., Camut S., Debilly F., Prome J. C. and Denarie J. (1991) Nature 351:670-673
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[12] Lohar D. P., Sharopova N., Endre G., Peñuela S., Samac D., Town C., Silverstein K. A. T. and VandenBosch K. A. (2006) Plant Physiol., 140:221-234
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[13] Oldroyd G. E. D. and Downie J. A. (2004) Nat. Rev., 5:566-576
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[14] Timmers A. C., Auriac M. C. and Truchet G. (1999) Development, 126:3617-3628
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[15] Cárdenas L., Vidali L., Dominguez J., Perez H., Sanchez F., Hepler P. K. and Quinto C. (1998) Plant Physiol., 116:871-877
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[16] De Ruijter N. C. A., Bisseling T. and Emons A. M. C. (1999) Mol. Plant-Microbe Interact., 12:829–832
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[17] Vassileva V. N., Kouchi H. and Ridgea R. W. (2005) Plant Cell, 17:1777-1787
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[18] Esseling J. J., Lhuissier F. G. and Emons A. M. (2003) Plant Physiol., 132:1982- 1988.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[19] Kosuta S., Chabaud M., Lougnon G., Gough C., Dénarie J., Barker D. G. and Bécard G. (2003) Plant Physiol., 131:1- 11
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[20] Weidmann S., Sanchez L., Descombin J., Chatagnier O., Gianinazzi S. and Gianinazzi-Pearson V. (2004) Mol Plant- Microbe Interact., 17:1385-1393
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[21] Sanders D., Pelloux J., Brownlee, C. and Harper J. F. (2002) Plant Cell Suppl., 2002:S401-S417
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[22] Miwa H., Sun J., Oldroyd G. E. D. and Downie A. J. (2006) Plant J., 48:883– 894
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[23] Schmelzer E. (2002) Trends Plant Sci., 7:411-415
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[24] Takemoto D. and Hardham A. R. (2004) Plant Physiol., 136:3864-3876.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[25] Heath M. C., Nimchuk Z. L. and Xu H. (1997) New Phytol., 135:689-700
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[26] Hazen B. E. and Bushnell W. R. (1983) Physiol Plant. Pathol., 23:421-438
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[27] Tomiyama K., Sato K. and Doke N. (1982) Ann Phytopathol. Soc. Jpn., 48:228– 230.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[28] Kobayashi I., Kobayashi Y. and Hardham A. R. (1994) Planta, 195:237-247
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[29] Cahill D., Rookes J., Michalczyk A., McDonald K. and Drake A. (2002) Plant Pathol., 51:629- 640
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[30] Takemoto D., Jones D. A. and Hardham A. R. (2003) Plant J., 33:775-792
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[31] Thordal-Christensen H. (2003) Curr Opin Plant Biol., 6:351-357
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[32] Zeyen R. J., Carver T. L. W. and Lyngkjaer M. F. (2002) Epidermal cellpapillae, 107–125
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[33] Aist J. R. (1976) Annu Rev Phytopathol., 14:145-163
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[34] O’Connell R. J. and Panstruga R. (2006) New Phytol., 171:699-718.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[35] Dangl J. L. and Jones J. D. G. (2001) Nature 411:826-833
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[36] Assaad F. F., Qiu J. L., Youngs H., Ehrhardt D., Zimmerli L., Kalde M., Wanner G., Peck S. C., Edwards H. and Ramonell K. (2004) Mol Biol Cell, 15:5118-5129
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[37] Schulze-Lefert P. (2004) Curr Opin Plant Biol., 7:377-383
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[38] Nu¨ rnberger T. and Lipka V. (2005) Mol Plant Pathol., 6:335-345
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[39] Bonifacino J. S. and Glick B. S. (2004) Cell, 116:153-166
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[40] Hardham A. R., Takemoto D. and White R. G. (2008) BMC Plant Biol., 8:63
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[41] Weerasinghe R. R., McK Bird. D. and Allen N. S. (2005) Proc Natl Acad Sci U.S.A., 102:3147-3152
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[42] Rodriguez A. J., Shenoy S. M., Singer R. H. and Condeelis J. (2006) J Cell Biol., 175:67-76.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[43] Lee J, Rudd J. J., Macioszek V. K. and Scheel D. (2004) J Biol Chem., 279:22440-22448.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[44] Bhat R. A., Miklis M., Schmelzer E., Schulze-Lefert P. and Panstruga R.(2005) Proc Natl Acad Sci U.S.A., 102:3135-3140
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[45] Assaad F. F., Qiu J. L., Youngs H., Ehrhardt D., Zimmerli L., KaldeM., Wanner G., Peck S. C., Edwards H., Ramonell K., Somerville C. R. and Thordal-Christensen H. (2004) Mol Biol Cell, 15:5118-5129
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[46] Staiger C. J. (2000) Annu Rev Plant Physiol Plant Mol Biol., 51: 257–288
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[47] Wasteneys G. O. and Galway M. E. (2003) Annu Rev Plant Biol., 54: 691–722
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[48] Bonfante P., Bergero R., Uribe X., Romera C., Rigau J. and Puigdomenech P. (1996) Plant J., 9: 737–743.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[49] Diaz E. C., Martin F. and Tagu D. (1996) Plant Mol Biol., 31: 905–910.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[50] Niini S. S., Tarkka M. T. and Raudaskoski M. (1996) Physiol Plant, 96: 186–192
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[51] Timonen S. and Peterson R. L. (2002) Plant Soil, 244: 199–210
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[52] Timonen S., So¨ derstro¨m B. and Raudaskoski M. (1996) Mycorrhiza, 6: 423–429.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[53] Genre A. and Bonfante P. (1998) New Phytol, 140: 745–752
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[54] Uetake Y. and Peterson R. L. (1997) Can J Bot., 75: 1661–1669.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[55] Matsubara Y., Uetake Y. and Peterson R. L. (1999) Can J Bot., 77: 1159–1167
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[56] Blancaflor E. B., Zhao L. and HarrisonM. J. (2001) Protoplasma, 217: 154–165
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[57] Armstrong L. and Peterson R. L. (2002) Mycologia, 94: 587–595
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[58] Cornelis G. R. and Gijsegem V. F. (2000) Annu Rev Microbiol., 54: 735–774
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[59] Bu¨ ttner D. and Bonas U. (2003) Curr Opin Plant Biol., 6: 312–319
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[60] Gala´n J. E. and Zhou D. (2000) Proc Natl Acad Sci USA., 97: 8754–8761
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[61] Shao F., Merritt P. M., Bao Z., Innes R. W. and Dixon J. E. (2002) Cell 109: 575– 588
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[62] Jackson R. W., Athanassopoulos E., Tsiamis G., Mansfield J. W., Sesma A., Arnold D. L., Gibbon M. J., Murillo J., Taylor J. D. and Vivian A. (1999) Proc Natl Acad Sci USA., 96: 10875–10880
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[63] Abramovitch R. B., Kim Y-J., Chen SR., Dickman MB. and Martin G. B. (2003) EMBO J., 22: 60–69
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[64] Hauck P., Thilmony R. and He S.Y. (2003) Proc Natl Acad Sci USA., 100: 8577– 8582
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[65] Esseling J. J., Lhuissier F. G. P. and Emons A. M. C. (2004) Plant Cell, 16: 933–944
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[66] Riely B. K., Ane´ J-M., Penmetsa RV. and Cook D. R. (2004) Curr Opin Plant Biol., 7: 408–413
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[67] Felle H. H., Kondorosi E., Kondorosi A. and Schultze M. (1998) Plant J., 13: 455– 463.
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[68] Ca´rdenas L., Holdaway-Clarke T. L., Sa´nchez F., Quinto C., Feijo J.A., Kunkel J.G. and Hepler P.K. (2000) Plant Physiol., 123: 443–451
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[69] Shaw S. L. and Long S. R. (2003) Plant Physiol., 131: 976–984
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[70] Krause A., Lan Vo T. T. and Broughton W. J. (1997) Molecular Plant-Microbe Interactions, 10(3): 388-393
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[71] Norbert C. A., de Ruijter., Bisseling T. and Mie A. C. (1999) Molecular Plant- Microbe Interactions, 12(9): 829-832
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[72] Schmidta S. M. and Panstruga R. (2007) Physiological and Molecular Plant Pathology, 71(4-6):135-148
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[73] Altenbach D. and Robatzek S. (2007) MPMI, 20(9):1031–1039
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[74] J., Motteram, Küfner I., Deller S., Brunner F., Hammond-Kosack K. E., Nürnberger T. and Rudd J. J. (2009) Cell res., 22(7):790-799
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[75] Volker L. Ralph P. (2005) Current opinion in plant biology, 8:625-631
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

[76] Chisholm S. T., Coaker G., Day B. and Staskawicz B. J. (2006) Cell, 124:803- 814
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus

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