Advanced search
Publication Cover
Journal of Crop Improvement Volume 23, 2009 - Issue 1
Submit an article Journal homepage
2,272
Views
111
CrossRef citations to date
0
Altmetric
Articles

Biotechnology and Drought Tolerance

Satbir S. Gosal Punjab Agricultural University, Ludhiana, IndiaCorrespondence[email protected]
,
Shabir H. Wani Punjab Agricultural University, Ludhiana, India
&
Manjit S. Kang Punjab Agricultural University, Ludhiana, India
Pages 19-54 | Published online: 28 Jan 2009

REFERENCES

  • Abebe , T. , Guenzi , A.C. , Martin , B and Cushman , J.C. 2003 . Tolerance of mannitol-accumulating transgenic wheat to water stress and salinity . Plant Physiol , 131 : 1748 – 1755 .
  • Amaya , I. , Botella , M.A. , Calle , M.D.L. , Medina , M.I. , Heredia , A. , Bressan , R.A. , Hasegawa , P.M. , Quesada , M.A. and Valpuesta , V. 1999 . Improved germination under osmotic stress of tobacco plants overexpressing a cell wall peroxidase . FEBS Lett , 457 : 80 – 84 .
  • Artus , N.N. , Uemura , M. , Steponkus , P.L. , Gilmour , S.J. , Lin , C. and Thomashow , M.F. 1996 . Constitutive expression of the cold-regulated Arabidopsis thaliana COR15a gene affects both chloroplast and protoplast freezing tolerance . Proc. Natl. Acad. Sci , 93 : 13404 – 13409 .
  • Babu , C.R. , Nguyen , B.D. , Chamarerk , V. , Shanmugasundaram , P. , Chezhian , P. , Juyaprakash , P. , Ganesh , S.K. , Palchamy , A. , Sadasivam , S. and Sarkarung , S. 2003 . Genetic analysis of drought resistance in rice by molecular markers: association between secondary traits and field performance . Crop Sci , 43 : 1457 – 1469 .
  • Badawi , G.H. , Kawano , N. , Yamauchi , Y. , Shimada , E. , Sasaki , R. , Kubo , A. and Tanaka , K. 2004 . Over-expression of ascorbate peroxidase in tobacco chloroplasts enhances the tolerance to salt stress and water deficit . Physiol. Plant , 121 ( 2 ) : 231 – 238 .
  • Bahieldin , A. , Mahfouz , H.T. , Eissa , H.F. , Saleh , O.M. , Ramadan , A.M. , Ahmed , I.A. , Dyer , W.E. , El-Itriby , H.A. and Madkour , M.A. 2005 . Field evaluation of transgenic wheat plants stably expressing the HVA1 gene for drought tolerance . Physiol. Planta , 123 : 421 – 427 .
  • Bartels , D. and Sunkar , R. 2005 . Drought and salt tolerance in plants . Crit. Rev. Plant Sci , 21 : 1 – 36 .
  • Behnam , B. , Kikuchi , A. , Celebi-Toprak , F. , Yamanaka , S. , Kasuga , M. , Yamaguchi-Shinozaki , K. and Watanabe , K. N. 2006 . The Arabidopsis DREB1A gene driven by the stress-inducible rd29A promoter increases salt-stress tolerance in proportion to its copy number in tetrasomic tetraploid potato (Solanum tuberosum) . Plant Biotech , 23 : 169 – 177 .
  • Bernier , J. , Kumar , A. , Ramaiah , V. , Spaner , D. and Atlin , G. 2007 . A large-effect QTL for grain yield under reproductive-stage drought stress in upland rice . Crop Sci , 47 : 505 – 516 .
  • Bhatnagar-Mathur , P. , Devi , M.J. , Reddy , D.S. , Lavanya , M. , Vadez , V. , Serraj , R. , Yamaguchi-Shinozaki , K. and Sharma , K.K. 2007 . Stress inducible expression of At DREB1A in transgenic peanut (Arachis hypogaea) increases transpiration efficiency . Pl. Cell Rep , 26 : 2071 – 2082 .
  • Bidinger , F.R. , Serraj , R.S. , Rizvi , S.M.H. , Howarth , C. , Yadav , R.S. and Hash , C.T. 2005 . Field evaluation of drought tolerance QTL effects on phenotype and adaptation in pearl millet [Pennisetum glaucum (L.) R. Br.] topcross hybrids . Field Crops Res , 94 : 14 – 32 .
  • Bidinger , F.R. and Hash , C.T. 2004 . “ Pearl millet ” . In Physiology and biotechnology integration in plant breeding , Edited by: Nguyen , H.T. and Blum , A. 225 – 270 . New York : Marcel Dekker .
  • Bidinger , F.R. , Nepolean , T. , Hash , C.T. , Yadav , R.S. and Howarth , C.J. 2007 . Quantitative trait loci for grain yield in pearl millet under variable postflowering moisture conditions . Crop Sci , 47 : 969 – 980 .
  • Bolaños , J. and Edmeades , G.O. 1996 . The importance of the anthesis-silking interval in breeding for drought tolerance in tropical maize . Field Crops Res , 48 : 65 – 80 .
  • Borlaug , N.E. and Dowswell , C. R. 2005 . Feeding a world of ten billion people: A 21st century challenge. In proc. of “In the wake of double helix: From the green revolution to the gene revolution” 27–31st May 2003 Bologna, Italy
  • Chao , D.Y. , Luo , Y.H. , Shi , M. , Luo , D. and Lin , H.X. 2005 . Salt-responsive genes in rice revealed by cDNA microarray analysis . Cell Res , 15 : 796 – 810 .
  • Chinnusamy , V. , Xiong , L. and Zhu , J.K. 2006 . “ Use of genetic engineering and molecular biology approaches for crop improvement for stress environments ” . In Abiotic stresses, plant resistance through breeding and molecular approach , Edited by: Ashraf , M. and Harris , P.J.C. 47 – 89 . U.P. India : IBDC .
  • Crosbie , T.M. , Eathington , S.R. , Johnson , G.R. , Edwards , M. , Reiter , R. , Stark , S. Mohanty , R.G. Aug. 2003 2006 . “ Plant breeding: Past, present, and future ” . In Plant breeding: The Arnel R. Hallauer Int. Symp., Mexico City , Edited by: Lamkey , K.R. and Lee , M. Aug. 2003 , 17 – 22 . Ames, IA : Blackwell .
  • Csonka , L.N. and Hanson , A.D. 1991 . Prokaryotic osmoregulation: genetics and physiology . Ann. Rev. Microbiology , 45 : 569 – 606 .
  • De Ronde , J.A. , Laurie , R.N. , Caetano , T. , Greyling , M.M. and Kerepesi , I. 2004 . Comparative study between transgenic and non-transgenic soybean lines proved transgenic lines to be more drought tolerant . Euphytica , 138 : 123 – 132 .
  • Diab , A.A. , Teulat-Merah , B. , This , D. , Ozturk , N. Z. , Benscher , D. and Sorrells , M. E. 2004 . Identification of drought-inducible genes and differentially expressed sequence tags in barley . Theor. Appl. Genet , 109 ( 7 ) : 1417 – 1425 .
  • Dubouzet , J.G. , Sakuma , Y. , Ito , Y. , Kasuga , M. , Dubouzet , E.G. and Miura , S. 2003 . OsDREB genes in rice, Oryza sativa L. encode transcription activators that function in drought, high salt and cold responsive gene expression . Plant J , 33 : 751 – 763 .
  • Eathington , S. 2005 . Practical applications of molecular technology in the development of commercial maize hybrids. In Proc. of the 60th Annual Corn and Sorghum Seed Res. Conf., Chicago. 7–9 Dec. 2005 , Washington, D.C : Am. Seed Trade Assoc .
  • Edreva , A. 2005 . Generation and scavenging of reactive oxygen species in chloroplasts: a submolecular approach . Agric. Ecosyst. Environ , 106 : 119 – 133 .
  • Elbein , A.D. 1974 . The metabolism of - -trehalose . Adv. Carbohydr. Chem. Biochem , 30 : 227 – 257 .
  • Eltayeb , A.E. , Kawano , N. , Badawi , G. H. , Kaminaka , H. , Sanekata , T. , Shibahara , T. , Inanaga , S. and Tanaka , K. 2007 . Overexpression of monodehydroascorbate reductase in transgenic tobacco confers enhanced tolerance to ozone, salt and polyethyleneglycol stresses . Planta , 225 ( 5 ) : 1255 – 1264 .
  • Flowers , T.J. and Yeo , A.R. 1995 . Breeding for salinity resistance in crop plants—where next? . Aust. J. Plant Physiol , 22 : 875 – 884 .
  • Gao , J.P. , Chao , D.Y. and Lin , H.X. 2007 . Understanding abiotic stress tolerance mechanisms: recent studies on stress response in rice . J. Integrative Plant Bio , 49 ( 6 ) : 742 – 750 .
  • Garg , A. K. , Kim , J. K. , Owens , T. G. , Ranwala , A. P. , Choi , Y. D. , Kochian , L.V. and Wu , R.J. 2002 . Trehalose accumulation in rice plants confers high tolerance levels to different abiotic stresses . Proc. Natl. Acad. Sci , 99 ( 25 ) : 15898 – 15903 .
  • Gilmour , S.J. , Sebolt , A.M. , Salazar , M.P. , Everard , J.D. and Thomashow , M.F. 2000 . Overexpression of the Arabidopsis CBF3 transcriptional activator mimics multiple biochemical changes associated with cold acclimation . Plant Physiol , 124 : 1854 – 1865 .
  • Gleeson , D.M. , Walter , A.L. and Parkinson , M. 2005 . Overproduction of proline in transgenic hybrid larch (Larix leptoeuropaea (Dengler)) cultures renders them tolerant to cold, salt and frost . Mol. Breed , 15 : 21 – 29 .
  • Gosal , S.S. , Gill , R. , Sindhu , A.S. , Kaur , D. , Kaur , N. and Dhaliwal , H.S. 2001 . “ Transgenic basmati rice carrying genes for stem borer resistance and bacterial leaf blight resistance ” . In Rice Research for Food Security and Poverty Alleviation , Edited by: Peng , S. and Hardy , B. 353 – 360 . Philippines : IRRI .
  • Grewal , D. K. , Gill , R. and Gosal , S. S. 2006 . Genetic engineering of Oryza sativa by particle bombardment . Biol. Plant , 50 ( 2 ) : 311 – 314 .
  • Halliwell , B. 1997 . “ Introduction: free radicals and human disease—trick or treat? ” . In Oxygen Radicals and the Disease Process , Edited by: Thomas , C.E. and Kalyanaraman , B. 1 – 14 . Newark, NJ : Harwood Academic .
  • Holmstrom , K.O. , Somersalo , S. , Mandal , A. , Palva , T.E. and Bjorn , W. 2000 . Improved tolerance to salinity and low temperature in transgenic tobacco producing glycinebetaine . J. Exp. Bot , 51 ( 343 ) : 177 – 85 .
  • Hong , B.S. , Zong-Suo , L. and Ming-An , S. 2005 . LEA proteins in higher plants: Structure, function, gene expression and regulation . Colloids Surf. B: Biointerf , 45 : 131 – 135 .
  • Hsieh , T.H. , Lee , J.T. , Charng , Y.Y. and Chan , M.T. 2002 . Tomato plants ectopically expressing Arabidopsis CBF1 show enhanced resistance to water deficit stress . Plant Physiol , 130 : 618 – 626 .
  • Hu , H. , Dai , M. , Yao , J. , Xiao , B. , Li , X. , Zhang , Q. and Xiong , L. 2006 . Overexpressing a NAM, ATAF, and CUC (NAC) transcription factor enhances drought resistance and salt tolerance in rice . Proc. Natl. Acad. Sci , 103 : 12987 – 12992 .
  • Ikuta , S. , Imamura , S. , Misaki , H. and Horiuti , Y. 1977 . Purification and characterization of choline oxidase from Arthrobacter globiformis . J. Biochem , 82 : 1741 – 1749 .
  • Incharoensakdi , A. , Takabe , T. and Akazawa , T. 1986 . Effect of betaine on enzyme activity and subunit interaction of ribulose 1,5-bisphosphate carboxylase/oxygenase from Aphonothece halophytica . Plant Physiol , 81 : 1044 – 1049 .
  • Ito , Y. , Katsura , K. , Maruyama , K. , Taji , T. , Kobayashi , M. and Seki , M. 2006 . Functional analysis of rice DREB1/CBF-type transcription factors involved in cold-responsive gene expression in transgenic rice . Plant Cell Physiol , 47 : 141 – 153 .
  • Jaglo-Ottosen , K.R. , Gilmour , S.J. , Zarka , D.G. , Schabenberger , O. and Thomashow , M.F. 1998 . Arabidopsis CBF1 overexpression induces COR genes and enhances freezing tolerance . Science , 280 : 104 – 106 .
  • James , C. 2007 . Global status of commercialized biotech / GM crops , 1 – 115 . Ithaca, New York : ISAAA Brief No. 37 .
  • Jiang , G. H. , He , Y.Q. , Xu , C.G. , Li , X.H. and Zhang , Q. 2004 . The genetic basis of stay-green in rice analyzed in a population of doubled haploid lines derived from an indica by japonica cross . Theor. Appl. Genet , 108 ( 4 ) : 688 – 699 .
  • Johnson , R. 2004 . Marker-assisted selection . Plant Breed. Rev , 24 : 293 – 309 .
  • Juenger , T.E. , Mckay , J.K. , Hausmann , N. , Keurentjes , J.J.B. , Sen , S. , Stowe , K.A. , Dawson , T.E. , Simms , E.L. and Richards , J.H. 2005 . Identification and characterization of QTL underlying whole plant physiology in Arabidopsis thaliana: d13C, stomatal conductance and transpiration efficiency . Plant Cell Environ , 28 : 697 – 708 .
  • Jung , C. , Seo , J.S. , Han , S.W. , Koo , Y.J. , Kim , C.H. , Song , S.I. , Nahm , B.H. , Choi , Y.D. and Cheong , J.J. 2008 . Overexpression of AtMYB44 enhances stomatal closure to confer abiotic stress tolerance in transgenic Arabidopsis . Plant Physiol , 146 : 623 – 635 .
  • Karakas , B. , Ozias-Akins , P. , Stushnoff , C. , Suefferheld , M. and Rieger , M. 1997 . Salinity and drought tolerance of mannitol-accumulating transgenic tobacco . Plant Cell Environ , 20 : 609 – 616 .
  • Kasuga , M. , Liu , Q. , Miura , S. , Yamaguchi-Shinozaki , K. and Shinozaki , K. 1999 . Improving plant drought, salt, and freezing tolerance by gene transfer of a single stress inducible transcription factor . Nat. Biotechnol , 17 : 287 – 291 .
  • Katiyar-Agarwal , P. , Agarwal , P. , Reddy , M.K. and Sopory , S.K. 2006 . Role of DREB transcription factors in abiotic and biotic stress tolerance in plants . Plant Cell Rep , 25 : 1263 – 1274 .
  • Kato , Y. , Hirotsu , S. , Nemoto , K. and Yamagishi , J. 2008 . Identification of QTL controlling rice drought tolerance at seedling stage in hydroponic culture . Euphytica , 160 ( 3 ) : 423 – 430 .
  • Kaur , A. , Gill , M.S. , Gill , R. and Gosal , S.S. 2007 . Standardization of different parameters for ‘particle gun’ mediated genetic transformation of sugarcane (Saccharum officinarum) . Indian J. Biotech , 6 ( 1 ) : 31 – 34 .
  • Kishore , P.B.K. , Hong , Z. , Miao , G.H. , Hu , C.A.A. and Verma , D.P.S. 1995 . Overexpression of Δ-1-pyrroline-5-carboxylate synthetase increases proline production and confers osmotolerance in transgenic plants . Plant Physiol , 108 : 1387 – 1394 .
  • Lafitte , H.R. , Price , A.H. and Courtois , B. 2004 . Yield response to water deficit in an upland rice mapping population: associations among traits and genetic markers . Theor. Appl. Genet , 109 : 1237 – 1246 .
  • Lanceras , J.C. , Pantuwan , G.P. , Jongdee , B. and Toojinda , T. 2004 . Quantitative trait loci associated with drought tolerance at reproductive stage in rice . Plant Physiol , 135 : 1 – 16 .
  • Le Rudulier , D. 1993 . “ Elucidation of the role of osmoprotective compounds and osmoregulatory genes: the key role of bacteria ” . In Towards the rational use of high salinity-tolerant plants, Proc. of the first ASWAS conference , Edited by: Leith , H. and Al Masoom , A. 313 – 322 . Boston : Kluwer Academics .
  • Li , Z , Mu , P. , Li , C. , Zhang , H. , Li , Z.K. , Gao , Y. and Wang , X. 2005 . QTL mapping of root traits in a doubled haploid population from a cross between upland and lowland japonica rice in three environments . Theor. Appl. Genet , 110 ( 7 ) : 1244 – 1252 .
  • Liu , Q. , Kasuga , M. , Sakuma , Y. , Abe , H. , Miura , S. , Yamaguchi-Shinozaki , K. and Shinozaki , K. 1998 . Two transcription factors, DREB1 and DREB2, with an EREBP/AP2 DNA binding domain separate two cellular signal transduction pathways in drought and low temperature-responsive gene expression, respectively, in Arabidopsis . Plant Cell , 10 : 1391 – 1406 .
  • Liu , X. , Hua , X. , Guo , J. , Qi , D. , Wang , L. , Liu , Z. , Jin , Z. , Chen , S. and Liu , G. 2008 . Enhanced tolerance to drought stress in transgenic tobacco plants overexpressing VTE1 for increased tocopherol production from . Arabidopsis thaliana. Biotech. Lett , in press
  • McKersie , B. D. , Murnaghan , J. and Bowley , S. R. 1997 . Manipulating freezing tolerance in transgenic plants . Acta Physiol. Plant , 19 : 485 – 495 .
  • McKersie , B.D. , Bowley , S.R. , Harjanto , E. and Leprince , O. 1996 . Water deficit tolerance and field performance of transgenic alfalfa overexpressing superoxide dismutase . Plant Physiol , 111 : 1177 – 1181 .
  • Miranda , J.A. , Avonce , N. , Suárez , R. , Thevelein , J.M. , Dijck , P.V. and Iturriaga , G. 2007 . A bifunctional TPS-TPP enzyme from yeast confers tolerance to multiple and extreme abiotic-stress conditions in transgenic Arabidopsis . Planta , 226 ( 6 ) : 1411 – 1421 .
  • Mohan , M. , Nair , S. , Bhagwat , A. , Krishna , T.G. , Yano , M. , Bhatia , C.R. and Sasaki , T. 1997 . Genome mapping, molecular markers and marker-assisted selection in crop plants . Mol. Breed , 3 : 87 – 103 .
  • Molinari , H.B.C. , Marura , C.J. , Darosb , E. , Freitas de Camposa , M.K. , Portela de Carvalhoa , J.F.R. , Filhob , J.C.B. , Pereirac , L.F.P. and Vieira , L.G.E. 2007 . Evaluation of the stress-inducible production of proline in transgenic sugarcane (Saccharum spp.) osmotic adjustment, chlorophyll fluorescence and oxidative stress . Physiol. Planta , 130 : 218 – 229 .
  • Moreau , L. , Charcosset , A. and Gallais , A. 2004 . Use of trial clustering to study QTL3 environment effects for grain yield and related traits in maize . Theor. Appl. Genet , 110 : 92 – 105 .
  • Nakashima , K , Tran , L.S.P. , Nguyen , D.V. , Fujita , M. , Maruyama , K. , Todaka , D. , Ito , Y. , Hayashi , N. , Shinozaki , K. and Yamaguchi-Shinozaki , K. 2007 . Functional analysis of a NAC-type transcription factor OsNAC6 involved in abiotic and biotic stress-responsive gene expression in rice . Plant J , 51 ( 4 ) : 617 – 630 .
  • Nanjo , T. , Masatomo , K. , Yoshiba , Y. , Sanada , Y. , Wada , K. , Tsukaya , H. , Kakubari , Y. , Yamaguchi-Shinozaki , K. and Shinozaki , K. 1999 . Biological functions of proline in morphogenesis and osmotolerance revealed in antisense transgenic Arabidopsis thaliana . Plant J , 18 : 185 – 193 .
  • Neeraja , C.N. , Maghirang-Rodriguez , R. , Pamplona , A. , Heuer , S. , Collard , B.C.Y. , Septiningsih , E.M. Vergara , G. 2007 . A marker-assisted backcross approach for developing submergence-tolerant rice cultivars . Theor. Appl. Genet , 115 : 767 – 776 .
  • Nuccio , M.L. , Russell , B.L. , Nolte , K.D. , Rathinasabapathi , B. , Gage , D.A. and Hanson , A.D. 1998 . The endogenous choline supply limits glycinebetaine synthesis in transgenic tobacco expressing choline monooxygenase . Plant J , 16 : 487 – 496 .
  • Oh , S. J. , Kwon , C.W. , Choi , D.W. , Song , S.I. and Kim , J.K. 2007 . Expression of barley HvCBF4 enhances tolerance to abiotic stress in transgenic rice . Plant Biotech. J , 5 : 646 – 656 .
  • Oh , S.J. , Song , S.I. , Kim , Y.S. , Jang , H.J. , Kim , S.Y. and Kim , M. 2005 . Arabidopsis CBF3/DREB1A and ABF3 in transgenic rice increased tolerance to abiotic stress without stunting growth . Plant Physiol , 138 : 341 – 351 .
  • Ohnishi , T. , Sugahara , S. , Yamada , T. , Kikuchi , K. , Yoshiba , Y. and Hirano , H.Y. 2005 . OsNAC6, a member of the NAC gene family, is induced by various stresses in rice . Genes Genet. Syst , 80 : 135 – 139 .
  • Ooka , H. , Satoh , K. , Doi , K. , Nagata , T. , Otomo , Y. and Murakami , K. 2003 . Comprehensive analysis of NAC family genes in Oryza sativa and Arabidopsis thaliana . DNA Res , 10 : 239 – 247 .
  • Openshaw , S. and Frascaroli , E. 1997 . QTL detection and marker assisted selection for complex traits in maize. In Proc. of the 52nd Annu. Corn and Sorghum Res. Conf., Chicago. 9–12 Dec. 1997 , 44 – 53 . Washington, D.C : Am. Seed Trade Assoc. p .
  • Oraby , H.F. , Ransom , C.B. , Kravchenko , A.N. and Sticklen , M.B. 2005 . Barley Hva1 gene confers salt tolerance in R3 transgenic oat . Crop Sci , 45 : 2218 – 2227 .
  • Paran , I. and Michelmore , R.W. 1993 . Identification of reliable PCR-based markers linked to disease resistance genes in lettuce . Theor. Appl. Genet , 85 : 985 – 993 .
  • Park , B.J. , Liu , Z. , Kanno , A. and Kameya , T. 2005a . Increased tolerance to salt and water deficit stress in transgenic lettuce (Lactuca sativa L.) by constitutive expression of LEA . Plant Growth Regul , 45 : 165 – 171 .
  • Park , B.J. , Liu , Z. , Kanno , A. and Kameya , T. 2005b . Genetic improvement of Chinese cabbage for salt and drought tolerance by constitutive expression of a B. napus LEA gene . Plant Sci , 169 : 553 – 558 .
  • Patonnier , M.P. , Peltier , J.P. and Marigo , G. 1999 . Drought-induced increase in xylem malate and mannitol concentrations and closure of Fraxinus excelsior L. stomata . J. Exp. Bot , 50 : 1223 – 1229 .
  • Peleman , J.D. and van der Voort , J.R. 2003 . Breeding by design . Trends Plant Sci , 8 : 330 – 334 .
  • Pellegrineschi , A. , Reynolds , M. , Pacheco , M. , Brito , R.M. , Almeraya , R. , Yamaguchi-Shinozaki , K. and Hoisington , D. 2004 . Stress-induced expression in wheat of the Arabidopsis thaliana DREB1A gene delays water stress symptoms under greenhouse conditions . Genome , 47 : 493 – 500 .
  • Pelleschi , S. , Leonardi , A. , Rocher , J.P. , Cornic , G. , de Vienne , D. , Thévenot , C. and Prioul , J.L. 2006 . Analysis of the relationships between growth, photosynthesis and carbohydrate metabolism using quantitative trait loci (QTLs) in young maize plants submitted to water deprivation . Mol. Breed , 17 : 21 – 39 .
  • Perl , A. , Perl-Treves , R. , Galili , S. , Aviv , D. , Shalgi , E. , Malkin , S. and Galun , E. 1993 . Enhanced oxidative-stress defense in transgenic potato overexpressing tomato Cu, Zn superoxide dismutase . Theor. Appl. Genet , 85 : 568 – 576 .
  • Pilon-Smits , E.A.H. , Terry , N. , Sears , T. , Kim , H. , Zayed , A. , Hwang , S. van Dun , K. 1998 . Trehalose-producing transgenic tobacco plants show improved growth performance under drought stress . J. Plant Physiol , 152 : 525 – 532 .
  • Postel , S.L. , Daily , G.C. and Ehrlich , P.R. 1996 . Human appropriation of renewable fresh water . Science , 271 : 785 – 788 .
  • Qin , F. , Kakimoto , M. , Sakuma , Y. , Maruyama , K. , Osakabe , Y. , Tran , L.S.P. , Shinozaki , K. and Yamaguchi-Shinozaki , K. 2007 . Regulation and functional analysis of ZmDREB2A in response to drought and heat stress in Zea mays L . Plant J , 50 : 54 – 69 .
  • Quarrie , S.A. , Steed , A. , Calestani , C. , Semikhodskii , A. , Lebreton , C. , Chinoy , C. Steele , N. 2005 . A high-density genetic map of hexaploid wheat (Triticum aestivum L.) from the cross Chinese Spring × SQ1 and its use to compare QTLs for grain yield across a range of environments . Theor. Appl. Genet , 110 ( 5 ) : 865 – 880 .
  • Rafalski , J.A. 2002 . Applications of single nucleotide polymorphisms in crop genetics . Curr. Opin. Plant Biol , 5 : 94 – 100 .
  • Ragot , M. , Gay , G. , Muller , J.P. and Durovray , J. 2000 . “ Efficient selection for the adaptation to the environment through QTL mapping and manipulation in maize ” . In Molecular Approaches for Genetic Improvement of Cereals for Stable Production in Water-Limited Environments , Edited by: Ribaut , M. and Poland , D. 128 – 130 . El-Batan, Mexico : CIMMYT . A Strategic Planning Workshop, El-Batan, Mexico. 21–25 June 1999
  • Rathinasabapathi , B. and Kaur , R. 2006 . “ Metabolic engineering for stress tolerance ” . In Physiology and Molecular Biology of Stress Tolerance in Plants , Edited by: Madhava , K.V. , Rao Raghavendra , A.S. and Reddy , K.J. 255 – 299 . Netherlands : Springer .
  • Rathinasabapathi , B. , McCue , K.F. , Gage , D.A. and Hanson , A.D. 1994 . Metabolic engineering of glycinebetaine synthesis: plant betaine aldehyde dehydrogenases lacking typical transit peptides are targeted to tobacco chloroplasts where they confer betaine aldehyde resistance . Planta , 193 : 155 – 162 .
  • Rhodes , D. and Hanson , A.D. 1993 . Quaternary ammonium and tertiary sulfonium compounds in higher plants . Annu. Rev. Plant Physiol. Plant Mol. Biol , 44 : 357 – 384 .
  • Ribaut , J.M. and Ragot , M. 2007 . Marker-assisted selection to improve drought adaptation in maize: The backcross approach, perspectives, limitations, and alternatives . J. Exp. Bot , 58 : 351 – 360 .
  • Ribaut , J.M. , änziger , M. B , Betran , J. , Jiang , C. , Edmeades , G.O. , Dreher , K. and Hoisington , D. 2002a . “ Use of molecular markers in plant breeding: Drought tolerance improvement in tropical maize ” . In Quantitative Genetics, Genomics, and Plant Breeding , Edited by: Kang , M.S. 85 – 99 . Wallingford, UK : CABI .
  • Ribaut , J.M. , Jiang , C. and Hoisington , D. 2002b . Efficiency of a gene introgression experiment by backcrossing . Crop Sci , 42 : 557 – 565 .
  • Ribaut , J.M. , Jiang , C. , Gonzalez-de-Leon , D. , Edmeades , G. and Hoisington , D.A. 1997 . Identification of quantitative trait loci under drought conditions in tropical maize. 2. Yield components and marker assisted selection strategies . Theor. Appl. Genet , 94 : 887 – 896 .
  • Ribaut , J.M , Bänziger , M. , Setter , T. , Edmeades , G. and Hoisington , D. 2004 . “ Genetic dissection of drought tolerance in maize: A case study ” . In Physiology and Biotechnology Integration for Plant Breeding , Edited by: Nguyen N , N. and Blum , A. 571 – 611 . New York : Marcel Dekker .
  • Robin , S. , Pathan , M.S. , Courtois , B. , Lafitte , R. , Carandang , S. , Lanceras , S. , Amante , M. , Nguyen , H.T. and Li , Z. 2003 . Mapping osmotic adjustment in an advanced back-cross inbred population of rice . Theor Appl. Genet , 107 ( 7 ) : 1288 – 1296 .
  • Robinson , S.P. and Jones , G.P. 1986 . Accumulation of glycinebetaine in chloroplasts provides osmotic adjustment during salt stress . Aust. Jour. Plant Physiol , 13 : 659 – 668 .
  • Rodrigues , S.M. , Andrade , M.O. , Gomes , A.P.S. , DaMatta , F.M. , Baracat-Pereira , M.C. and Fontes , E.P.B. 2006 . Arabidopsis and tobacco plants ectopically expressing the soybean antiquitin-like ALDH7 gene display enhanced tolerance to drought, salinity, and oxidative stress . J. Exp. Bot , 55 : 301 – 308 .
  • Sakamoto , A.A. , Murata , N. and Murata , A. 1998 . Metabolic engineering of rice leading to biosynthesis of glycinebetaine and tolerance to salt and cold . Plant Mol. Biol , 38 : 1011 – 1019 .
  • Sakamoto , A. and Murata , A.N. 2002 . The role of glycinebetaine in the protection of plants from stress: clues from transgenic plants . Plant Cell Environ , 25 : 163 – 171 .
  • Sakuma , Y. , Maruyama , K. , Osakabe , Y. , Qin , F , Seki , M. , Shinozaki , K. and Yamaguchi-Shinozaki , K. 2006 . Functional analysis of an Arabidopsis transcription factor, DREB2A, involved in drought responsive gene expression . Plant Cell , 18 : 1292 – 1309 .
  • Saranga , Y. , Jiang , C.X. , Wright , R.J. , Yakir , D. and Paterson , D.H. 2004 . Genetic dissection of cotton physiological responses to arid conditions and their inter-relationships with productivity . Plant Cell Environ , 27 ( 3 ) : 263 – 277 .
  • Sawahel , W.A. and Hassan , A.H. 2002 . Generation of transgenic wheat plants producing high levels of the osmoprotectant proline . Biotech. Lett , 24 : 721 – 725 .
  • Serraj , R. , Hash , C.T. , Rizvi , S.M.H. , Sharma , A. , Yadav , R.S. and Bidinger , F.R . 2005 . Recent advances in marker-assisted selection for drought tolerance in pearl millet . Plant Prod. Sci , 8 : 332 – 335 .
  • Shen , B.R. , Jensen , G. and Bohnert , H.J. 1997 . Increased resistance to oxidative stress in transgenic plants by targeting mannitol biosynthesis to chloroplasts . Plant Physiol , 113 : 1177 – 1183 .
  • Shirasawa , K. , Takabe , T. , Takabe , T. and Kishitani , S. 2006 . Accumulation of glycinebetaine in rice plants that overexpress choline monooxygenase from spinach and evaluation of their tolerance to abiotic stress . Ann. Bot , 98 : 565 – 571 .
  • Shou , H. , Bordallo , P. and Wang , K. 2004 . Expression of the Nicotiana protein kinase (NPK1) enhanced drought tolerance in transgenic maize . J. Exp. Bot , 55 : 301 – 308 .
  • Singh , S. , Sidhu , J.S. , Huang , N. , Vikal , Y. , Li , Z. , Brar , D.S. , Dhaliwal , H.S. and Khush , G.S. 2001 . Pyramiding three bacterial blight resistance genes (xa5, xa13 and Xa21) using marker-assisted selection into indica rice cultivar PR106 . Theor. Appl. Genet. , 102 : 1011 – 1015 .
  • Sivamani , E. , Bahieldin , A. , Wraith , J.M. , Al-Niemi , T. , Dyer , W. E. , Ho , T.H.D. and Wu , R. 2000 . Improved biomass productivity and water use efficiency under water deficit conditions in transgenic wheat constitutively expressing the barley HVA1 gene . Plant Sci , 155 : 1 – 9 .
  • Steele , K.A. , Price , A.H. , Shashidhar , H.E and Witcombe , J.R. 2006 . Marker-assisted selection to introgress rice QTLs controlling root traits into an Indian upland rice variety . Theor. Appl. Genet , 112 : 208 – 221 .
  • Steele , K.A. , Virk , D.S. , Kumar , R. , Prasad , S.C. and Witcombe , J.R . 2007 . Field evaluation of upland rice lines selected for QTLs controlling root traits . Field Crop Res , 101 : 180 – 186 .
  • Steponkus , P.L. , Uemura , M. , Joseph , R.A. , Gilmour , S.J. and Thomashow , M.F. 1998 . Mode of action, of the COR15a gene on the freezing tolerance of Arabidopsis thaliana . Proc. Nat. Acad. Sci , 95 : 14570 – 14575 .
  • Suzuki , N. , Rizhsky , L. , Liang , H. , Shuman , J. , Shulaev , V. and Mittler , R. 2005 . Enhanced tolerance to environmental stress in transgenic plants expressing the transcriptional coactivator multiprotein bridging factor 1 . Plant Physiol , 139 : 1313 – 1322 .
  • Talamè , V. , Sanguineti , M.C. , Chiapparino , E. , Bahri , H. , Salem , M.B. , Forster , B.P. Ellis , R.P. 2004 . Identification of Hordeum spontaneum QTL alleles improving field performance of barley grown under rainfed conditions . Ann. Appl. Biol , 144 : 309 – 319 .
  • Tanksley , S.D. 1993 . Mapping polygenes . Annu. Rev. Genet , 27 : 205 – 233 .
  • Tarczynski , M.C. , Jensen , R.G. and Bohnert , H.J. 1992 . Expression of a bacterial mtl D gene in transgenic tobacco leads to production and accumulation of mannitol . Proc. Natl. Acad. Sci , 89 : 2600 – 2604 .
  • Tarczynski , M.C. , Jensen , R.G. and Bohnert , H.J. 1993 . Stress protection of transgenic plants by production of the osmolyte mannitol . Science , 259 : 508 – 510 .
  • Taylor , C.B. 1996 . Proline and water deficit: ups, downs, ins and outs . Plant Cell , 8 : 1221 – 1224 .
  • Thomas , J.C. , Sepahi , M , Arendall , B and Bohnert , H.J. 1995 . Enhancement of seed germination in high salinity by engineering mannitol expression in Arabidopsis thaliana . Plant Cell Environ , 18 : 801 – 806 .
  • Tilman , D. , Cassman , K.G. , Matson , P.A. , Naylor , R. and Polasky , S. 2002 . Agricultural sustainability and intensive production practices . Nature , 418 : 671 – 677 .
  • Tran , L.S.P. , Nakashima , K. , Sakuma , Y. , Simpson , S.D. , Fujita , Y. and Maruyama , K. 2004 . Isolation and functional analysis of Arabidopsis stress-inducible NAC transcription factors that bind to a drought-responsive cis-element in the early responsive to dehydration stress 1 promoter . Plant Cell , 16 : 2481 – 2498 .
  • Tuberosa , R. , Salvi , S. , Sanguineti , M.C. , Landi , P. , MacCaferri , M. and Conti , S. 2002 . Mapping QTLs regulating morpho-physiological traits and yield: case studies, shortcomings and perspectives in drought-stressed maize . Ann. Bot , 89 : 941 – 963 .
  • Van Camp , W. , Capiau , K. , Van Montagu , M. , Inze , D. and Slooten , L. 1996 . Enhancement of oxidative stress tolerance in transgenic tobacco plants overproducing Fe-superoxide dismutase in chloroplasts . Plant Physiol , 112 : 1703 – 1714 .
  • Verma , V. , Foulkes , M.J. , Worland , A.J. , Sylvester-Bradley , R. , Caligari , P.D.S and Snape , J.W. 2004 . Mapping quantitative trait loci for flag leaf senescence as a yield determinant in winter wheat under optimal and drought-stressed environments . Euphytica , 135 ( 3 ) : 255 – 263 .
  • Vinocur , B. and Altman , A. 2005 . Recent advances in engineering plant tolerance to abiotic stress: achievements and limitations . Curr. Opin. Biotechnol , 16 : 123 – 132 .
  • Virmani , S.S. and Ilyas-Ahmed , M. 2007 . “ Rice breeding for sustainable production ” . In Breeding Major Food Staples , Edited by: Kang , M. S. and Priyadarshan , P.M. 141 – 191 . Malden, MA : Blackwell .
  • Xiao , B. , Huang , Y. , Tang , N. and Xiong , L. 2007 . Over expression of LEA gene in rice improves drought resistance under field conditions . Theor. Appl. Genet , 115 : 35 – 46 .
  • Xu , D. , Duan , X. , Wang , B. , Hong , B. , Ho , T.H.D. and Wu , R. 1996 . Expression of late embryogenesis abundant protein gene HVA1, from barley confers tolerance to water deficit and salt stress in transgenic rice . Plant Physiol , 110 : 249 – 57 .
  • Xu , J.L. , Lafitte , H.R. , Gao , Y.M. , Fu , B.Y. , Torres , R. and Li , Z.K. 2005 . QTLs for drought escape and tolerance identified in a set of random introgression lines of rice . Theor. Appl. Genet , 11 ( 8 ) : 1642 – 1650 .
  • Xu , S.M. , Wang , X.C. and Chen , J. 2007 . Zinc finger protein 1 (ThZF1) from salt cress (Thellungiella halophila) is a Cys-2/His-2-type transcription factor involved in drought and salt stress . Plant Cell Rep , 26 ( 4 ) : 497 – 506 .
  • Yadav , R.S. , Hash , C.T. , Bidinger , F.R. , Cavan , G.P. and Howarth , C.J. 2002 . Quantitative trait loci associated with traits determining grain and stover yield in pearl millet under terminal drought stress conditions . Theor. Appl. Genet , 104 : 67 – 83 .
  • Yadav , R.S. , Hash , C.T. , Bidinger , F.R. , Devos , K.M. and Howarth , C.J. 2004 . Genomic regions associated with grain yield and aspects of post-flowering drought tolerance in pearl millet across stress environments and testers background . Euphytica , 136 : 265 – 277 .
  • Yeo , E.T. , Kwon , H.B. , Han , S.E. , Lee , J.T. , Ryu , J.C. and Byu , M.O. 2000 . Genetic engineering of drought resistant potato plants by introduction of the trehalose-6-phosphate synthase TPS1 gene from Saccharomyces cerevisiae . Mol. Cell , 30 : 263 – 268 .
  • Yonamine , I. , Yoshida , K. , Kido , K. , Nakagawa , A. , Nakayama , H. and Shinmyo , A. 2004 . Overexpression of NtHAL3 genes confers increased levels of proline biosynthesis and the enhancement of salt tolerance in cultured tobacco cells . J. Exp. Bot , 55 : 387 – 395 .
  • Yu , Q. and Rengel , Z. 1999 . Micronutrient deficiency influences plant growth and activities of superoxide dismutases in narrow-leafed lupins . Ann. Bot , 183 : 175 – 182 .
  • Zhang , Y. , Yang , C. , Li , Y. , Zheng , N. , Chen , H. , Zhao , Q. , Gao , T. , Guo , H. and Xie , Q. 2007 . SDIR1 is a ring finger E3 ligase that positively regulates stress-responsive abscisic acid signaling in Arabidopsis . Plant Cell , 19 : 1912 – 1929 .
  • Zhao , F.Y. and Zhang , H. 2006a . Salt and paraquat stress tolerance results from co-expression of the Suaeda salsa glutathione S-transferase and catalase in transgenic rice . Plant Cell Tissue Organ Cult , 86 ( 3 ) : 349 – 358 .
  • Zhao , F.Y. and Zhang , H. 2006b . Expression of Suaeda salsa glutathione S-transferase in transgenic rice resulted in a different level of abiotic stress tolerance . J. Agri. Sci , 144 : 1 – 8 .
  • Zhao , F.Y. and Zhang , H. 2007 . Transgenic rice breeding for abiotic stress tolerance–present and future . Chinese J. Biotech , 23 ( 1 ) : 1 – 6 .
  • Zhifang , G. and Loescher , W.H. 2003 . Expression of a celery mannose 6-phosphate reductase in Arabidopsis thaliana enhances salt tolerance and induces biosynthesis of both mannitol and a glucosyl-mannitol dimmer . Plant Cell Environ , 26 : 275 – 283 .
  • Zhu , B. , Su , J. , Chang , M. , Verma , D.P.S. , Fan , Y.L. and Wu , R. 1998 . Overexpression of a Δ-1-pyrroline-5-carboxylate gene and analysis of tolerance to water- and salt-stress in transgenic rice . Plant Sci , 139 : 41 – 48 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.