References
ANGELL SM and BAULCOMBE DC (1997), ‘Consistent gene silencing in transgenic plants expressing a replicating potato virus X RNA’, EMBO J, 16, 3675– 3684.
BAULCOMBE DC (1996), ‘Mechanisms of pathogen derived resistance to viruses in transgenic plants’, Plant Cell, 8, 1833–1844.
BAULCOMBE DC (1999), ‘Viruses and gene silencing in plants’, Arch Virol Suppl, 15, 189–201.
BEACHY RN (1997), ‘Mechanisms and applications of pathogen-derived resistance in transgenic plants’, Curr Opin Biotechnol, 8, 215–220.
BENDAHMANE A, KANYUKA K and BAULCOMBE DC (1999), ‘The Rx gene from potato controls separate virus resistance and cell death responses’, Plant Cell, 11, 781–792.
BENT AF (1996), ‘Plant disease resistance genes: Function meets structure’, Plant Cell, 8, 1757–1771.
BORKOWSKA M, KRZYMOWSKA M, TALARCZYK A, AWAN MF, YAKOVLEVA L, KLECZKOWSKI K and WIELGAT B (1998), ‘Transgenic potato plants expressing soybean beta-1,3-endoglucanase gene exhibit an increased resistance to Phytophthora infestans’, Z Naturforsch, 53, 1012–1016.
BROEKAERT WF, TERRAS FR, CAMMUE BP and OSBORN RW (1995), ‘Plant defensins: novel antimicrobial peptides as components of the host defense system’, Plant Physiol, 108, 1353–1358.
BROEKAERT WF, CAMMUE BP, DE BOLLE MFC, THEVISSEN K, DESAMBLANX GW and OSBORN RW (1997), ‘Antimicrobial peptides from plants’, Crit Rev Plant Sci, 16, 297–323.
BROGLIE K, CHET I, HOLIDAY M, CRESSMAN R, BIDDLE P, KNOWLTON S, MAUVIS CJ and BROGLIE R (1991), ‘Transgenic plants with enhanced resistance to the fungal pathogen Rhizoctonia solani’, Science, 254, 1194–1197.
CAI D, KLEINE M, KIFLE S, HARLOFF HJ, SANDAL NN, MARCKER KA, KLEINLANKHORST RM, SALENTIJN EMJ, LANGE W, STIEKEMA WJ, WYSS U, GRUNDLER FMW and JUNG C (1997), ‘Positional cloning of a gene for nematode resistance in sugar beet’, Science, 275, 832–834.
CAO H, LI X and DONG X (1998), ‘Generation of broad-spectrum disease resistance by overexpression of an essential regulatory gene in systemic acquired resistance’, Proc Natl Acad Sci USA, 95, 6531–6536.
CHET I and INBAR J (1994), ‘Biological control of fungal pathogens’, Appl Biochem Biotechnol, 48, 37–43.
COOLEY MB, PATHIRANA S, WU HJ, KACHROO P and KLESSIG DF (2000), ‘Members of the Arabidopsis HRT/RPP8 family of resistance genes confer resistance to both viral and oomycete pathogens’, Plant Cell, 12, 663–676.
COVEY SN, AL-KAFF NS, LANGARA I and TURNER DS (1997), ‘Plants combat infection by gene silencing’, Nature, 385, 781–782.
CRUTE IR (1985), ‘The genetic bases of relationships between microbial parasites and their hosts’, in Fraser RSS, Mechanisms of resistance to plant diseases, Dordrecht, Martinus Nijhoff/Dr. W Junk, 80–142.
DE BOLLE MF, DAVID KM, REES SB, VANDERLEYDEN J, CAMMUE BP and BROEKAERT WF (1993), ‘Cloning and characterization of a cDNA encoding an antimicrobial chitin-binding protein from amaranth, Amaranthus caudatus’, Plant Mol Biol, 22, 1187–1190.
DEMPSEY DA, SILVA H and KLESSIG DF (1998), ‘Engineering disease and pest resistance in plants’, Trends Microbiol, 6, 54–61.
DUAN X, LI X, XUE Q, ABO-EL-SAAD M, XU D and WU R (1996), ‘Transgenic rice plants harboring an introduced potato proteinase inhibitor II gene are insect resistant’, Nat Biotechnol, 14, 494–498.
DUNWELL JM (2000), ‘Transgenic approaches to crop improvement’, J Exp Bot, 51, 487–496.
ELAD Y, CHET I and HENIS Y (1982), ‘Degradation of plant pathogenic fungi by Trichoderma harzianum’, Can J Microbiol, 28, 719–725.
EPPLE P, APEL K and BOHLMANN H (1997), ‘Overexpression of an endogenous thionin enhances resistance of Arabidopsis against Fusarium oxysporum’, Plant Cell, 1997 Apr 9, 509–520.
FAOSTAT (2000). http://apps.fao.org/cgi-bin/nph-db.pl?subset=agriculture
FLORES A, CHET I and HERRERA-ESTRELLA A (1997), ‘Improved biocontrol activity of Trichoderma harzianum by over-expression of the proteinaseencoding gene prb1’, Curr Genet, 31, 30–37.
GABAY JE (1994), ‘Ubiquitous natural antibiotics’, Science, 264, 373–374.
GEREMIA RA, GOLDMAN GH, JACOBS D, ARDILES W, VILA SB, VAN MONTAGU M and
HERRERA-ESTRELLA A (1993), ‘Molecular characterization of the proteinase-encoding gene, prb1, related to mycoparasitism by Trichoderma harzianum’, Mol Microbiol, 8, 603–613.
GHEYSEN G, VAN DER EYCKEN W, BARTHELS N, KARIMI M and VAN MONTAGU M (1996), ‘The exploitation of nematode-responsive plant genes in novel nematode control methods’, Pest Sci, 47, 95–101.
GRISON R, GREZES-BESSET B, SCHNEIDER M, LUCANTE N, OLSEN L, LEGUAY JJ and TOPPAN A (1996), ‘Field tolerance to fungal pathogens of Brassica napus constitutively expressing a chimeric chitinasegene’, Nat Biotechnol, 14, 643–646.
GUTIÉRREZ-CAMPOS R, TORRES-ACOSTA JA, PÉREZ-MARTÍNEZ JJ and GÓMEZ-LIM MA (2000), ‘Pleiotropic effects in transgenic tobacco plants expressing the oryzacystatin 1 Gene’, Hortsci, (in press).
GUTIÉRREZ-CAMPOS R, TORRES-ACOSTA JA, SAUCEDO-ARIAS LJ and GÓMEZ-LIM MA (1999), ‘A novel method to engineer resistance to tobacco etch virus in transgenic tobacco plants: the use of cysteine proteinase inhibitors for plant virus control’, Nat Biotechnol 17: 1223–1226.
HAIN R, REIF HJ, KRAUSE E, LANGEBARTELS R, KINDL H, VORNAM B, WIESE W, SCHMELZER E, SCHREIER, STOCKER RH, et al. (1993), ‘Disease resistance results from foreign phytoalexin expression in a novel plant’, Nature, 361, 153–156.
HALL FR (1991), ‘Pesticide application technology and integrated pest management’, in Pimentel D, Handbook of pest management in agriculture, Boca Raton, CRC Press, 135–163.
HAMMOND-KOSACK KE and JONES JD (1996), ‘Resistance gene-dependent plant defense responses’, Plant Cell 8, 1773–1791.
HARAN S, SCHICKLER H and CHET I (1996), ‘Molecular mechanisms of lytic enzymes involved in the biocontrol activity of Trichoderma harzianum’, Microbiol 142, 2321–2331.
HIPSKIND JD and PAIVA NL (2000), ‘Constitutive accumulation of a resveratrolglucoside in transgenic alfalfa increases resistance to Phoma medicaginis’, Mol Plant Microbe Interact, 13, 551–562.
HONÉE G, MELCHERS LS, VLEESHOUWERS VGAA, VAB ROEKEL JSC and DE WIT PJGM (1995), ‘Production of the Avr9 elicitor from the fungal pathogen Cladosporium fulvum in transgenic tobacco and tomato plants’, Plant Biol Mol, 29, 909–920.
IRIE K, HOSOYAMA H, TAKEUCHI T, IWABUCHI K, WATANABE H, ABE M, ABE K and ARAI S (1996), ‘Transgenic rice established to express corn cystatin exhibits strong inhibitory activity against insect gut proteinases’, Plant Mol Biol, 30, 149–157.
JACH G, GORNHARDT B, MUNDY J, LOGEMANN J, PINSDORF E, LEAH R, SCHELL J and MAAS C (1995), ‘Enhanced quantitative resistance against fungal disease by combinatorial expression of different barley antifungal proteins in transgenic tobacco’, Plant J, 8, 97–109.
JONGEDIJK E, TIGELAAR H, VAN ROEKEL JSC, BRES-VLOEMANS SA, DEKKER I, VAN DEN ELZEN PJM, CORNELISSEN BJC and MELCHERS LS (1995), ‘Synergistic activity of chitinases and β–1,3 glucanases enhances fungal resistance in transgenic tomato plants’, Euphytica, 85, 173–180.
KACHROO P, YOSHIOKA K, SHAH J, DOONER HK and KLESSIG DF (2000), ‘Resistance to turnip crinkle virus in Arabidopsis is regulated by two host genes and is salicylic acid dependent but NPR1, ethylene, and jasmonate independent’, Plant Cell, 12, 677–690.
KANIEWSKI WK and THOMAS PE (1999), ‘Field testing for virus resistance and agronomic performance in transgenic plants’, Mol Biotechnol, 12, 101–115.
KESARWANI M, AZAM M, NATARAJAN K, MEHTA A and DATTA A (2000), ‘Oxalate decarboxylase from Collybia velutipes. Molecular cloning and its overexpression to confer resistance to fungal infection in transgenic tobacco and tomato’, J Biol Chem, 275, 7230–7238.
KNOESTER M, PIETERSE CM, BOL JF and VAN LOON LC (1999) Systemic resistance in Arabidopsis induced by rhizobacteria requires ethylene-dependent signaling at the site of application’, Mol Plant Microbe Interact, 12,720–727.
LI R, WU N, FAN Y and SONG B (1999), ‘Transgenic potato plants expressing osmotin gene inhibits fungal development in inoculated leaves’, Chin J Biotechnol, 15, 71–75.
LIANG J, WU Y, ROSENBERGER C, HAKIMI S, CASTRO S and BERG J (1998), ‘AFP genes confer disease resistance to transgenic potato and wheat plants’, Abstract no. L-49. In 5th International workshop on pathogenesis-relatedproteins in plants; Signalling pathways and biological activities 1998; Aussois, France.
LIMON MC, PINTOR-TORO JA and BENITEZ T (1999), ‘Increased antifungal activity of Trichoderma harzianum transformants that overexpress a 33 kDa chitinase’, Phytopathol, 89, 254–261.
LIN W, ANURATHA CS, DATTA K, POTRYKUS I, MUTHUKRISHNAN S and DATTA SK (1995), ‘Genetic engineering of rice for resistance to sheath blight’, Bio/ Technol, 3, 686–691.
LIU D, RAGHOTHAMA KG, HASEGAWA PM and BRESSAN RA (1994), ‘Osmotin overexpression in potato delays development of disease symptoms’, Proc Natl Acad Sci USA, 91, 1888–1892.
LOGEMANN J, JACH G, TOMMERUP H, MUNDY J and SCHELL J (1992), ‘Expression of a barley ribosome inactivating protein leads to increased fungal protection in transgenic tobacco plants’, Bio/Technol, 10, 305–308.
LOMONOSSOFF GP (1995), ‘Pathogen-derived resistance to plant viruses’, Annu Rev Phytopathol, 33:323–343.
LORITO M, WOO SL, GARCIA I, COLUCCI G, HARMAN GE, PINTOR-TORO JA, FILIPPONE E, MUCCIFORA S, LAWRENCE CB, ZOINA A, TUZUN S, SCALA F and FERNANDEZ IG (1998), ‘Genes from mycoparasitic fungi as a source for improving plant resistance to fungal pathogens’, Proc Natl Acad Sci USA, 95, 7860–7865.
MALEK K and LAWTON K (1998), ‘Plant strategies for resistance to pathogens’, Curr Op Biotech, 9, 208–213.
MELCHERS LS and STUIVER MH (2000), ‘Novel genes for disease-resistance breeding’, Curr Op Plant Biol, 3,147–152.
MITSUHARA I, MATSUFURU H, OHSHIMA M, KAKU H, NAKAJIMA Y, MURAI N, NATORI S and OHASHI Y (2000), ‘Induced expression of sarcotoxin IA enhanced host resistance against both bacterial and fungal pathogens in transgenic tobacco’, Mol Plant Microbe Interact, 13, 860–868.
MOLINA L and GARCIA-OLMEDO F (1997), ‘Enhanced tolerance to bacterial pathogens caused by the transgenic expression of barley lipid transfer protein LTP2’, Plant J, 12, 669–675.
MOURRAIN P, BECLIN C, ELMAYAN T, FEUERBACH F, GODON C, MOREL JB, JOUETTE D, LACOMBE AM, NIKIC S, PICAULT N, REMOUE K, SANIAL M, VO TA and VAUCHERET H (2000), ‘Arabidopsis SGS2 and SGS3 genes are required for posttranscriptional gene silencing and natural virus resistance’, Cell, 101, 533–542.
OERKE EC (1994), Crop protection and crop production, Amsterdam, Elsevier.
OGAWA T, HORI T and ISHIDA I (1996), ‘Virus-induced cell death in plants expressing the mammalian 2', 5' oligoadenylate system’, Nat Biotechnol, 14, 1566–1569.
OLDROYD GED and STASKAWICZ BJ (1998), ‘Genetically engineered broad-spectrum disease resistance in tomato’, Proc Natl Acad Sci USA, 95, 10300–10305.
OSUSKY M, ZHOU G, OSUSKA L, HANCOCK RE, KAY WW and MISRA S (2000), ‘Transgenic plants expressing cationic peptide chimeras exhibit broadspectrum resistance to phytopathogens’, Nat Biotechnol, 18, 1162–1166.
PENNINCKX IA, EGGERMONT K, TERRAS FR, THOMMA BP, DE SAMBLANX GW, BUCHALA A, METRAUX JP, MANNERS JM and BROEKAERT WF (1996), ‘Pathogen-induced systemic activation of a plant defensin gene in Arabidopsis follows a salicylic acid-independent pathway’ Plant Cell, 8, 2309–2323.
PIETERSE CM, VAN WEES SC, VAN PELT JA, KNOESTER M, LAAN R, GERRITS H, WEISBEEK PJ and VAN LOON LC (1998), ‘A novel signaling pathway controlling induced systemic resistance in Arabidopsis’, Plant Cell, 10, 1571–1580.
RATCLIFF F, HARRISON BD and BAULCOMBE DC (1997), ‘A similarity between viral defense and gene silencing in plants’, Science, 276, 1558–1560.
ROSSI M, GOGGIN FL, MILLIGAN SB, KALOSHIAN I, ULLMAN DE and WILLIAMSON VM (1998), ‘The nematode resistance gene Mi of tomato confers resistance against the potato aphid’, Proc Natl Acad Sci USA, 95, 9750–9754.
RYAN CA (1990), ‘Protease inhibitors in plants: Genes for improving defenses against insects and pathogens’, Annu Rev Phytopathol, 28, 425–449.
RYAN CA (2000), ‘The systemin signaling pathway: differential activation of plant defensive genes’, Biochim Biophys Acta, 7;1477, 112–121.
RYAN CA and PEARCE G (1998), ‘Systemin: a polypeptide signa for plant defensive genes’, Annu RevCell Dev Biol, 14, 1–17.
SANCHIS V and LERECLUS D (1999), ‘Bacillus thuringiensis: a biotechnology model’, J Soc Biol; 193(6): 523–530.
SCHALLER A (1999), ‘Oligopeptide signalling and the action of systemin’, Plant Mol Biol, 40, 763–769.
SHEN S, LI Q, HE SY, BARKER KR, LI D and HUNT AG (2000), ‘Conversion of compatible plant-pathogen interactions into incompatible interactions by expression of the Pseudomonas syringae pv. syringae 61 hrmA gene in transgenic tobacco plants’, Plant J, 23, 205–213.
SOMSSICH IE and HAHLBROCK K (1998), ‘Pathogen defence in plants – a paradigm of biological complexity’, Trends Pl Sci, 3, 86–90.
SONG EK, KOH HK, KIM JK and LEE SY (1999), ‘Genetically engineered transgenic plants with the domain 1 sequence of tobacco mosaic virus 126 kDa protein gene are completely resistant to viral infection’, Mol Cells, 9, 569–575.
SPALL VE, SHANKS M and LOMONOSSOFF GP (1997), ‘Polyprotein processing as a strategy for gene expression in RNA viruses’, Sem Virol 8, 15–23.
STICHTER L, MAUCH-MANI BN and MÉTRAUX JP (1997), ‘Systemic acquired resistance’, Annu Rev Phytopathol, 35, 235–270.
TABASHNIK BE, ROUSH RT, EARLE ED AND SHELTON AM (2000), ‘Resistance to Bt toxins’, Science, 287: 42.
TAI TH, DAHLBECK D, CLARK ET, GAJIWALA P, PASION R, WHALEN MC, STALL RE and STASKAWICZ BJ (1999), ‘Expression of the Bs2 pepper gene confers resistance to bacterial spot disease in tomato’, Proc Natl Acad Sci USA, 96, 14153–14158.
TANG X, XIE M, KIM YJ, ZHOU J, KLESSIG DF and MARTIN GB (1999), ‘Overexpression of Pto activates defense responses and confers broad resistance’, Plant Cell, 11, 15–29.
TERRAS FR, EGGERMONT K, KOVALEVA V, RAIKHEL NV, OSBORN RW, KESTER A, REES SB, TORREKENS S, VAN LEUVEN F, VANDERLEYDEN J, et al. (1995), ‘Small cysteine-rich antifungal proteins from radish: their role in host defense’, Plant Cell 7, 573–588.
TERRAS FR, PENNINCKX IA, GODERIS IJ and BROEKAERT WF (1998), ‘Evidence that the role of plant defensins in radish defense responses is independent of salicylic acid’, Planta, 206, 117–24.
THEVISSEN K, TERRAS FR and BROEKAERT WF (1999), ‘Permeabilization of fungal membranes by plant defensins inhibits fungal growth’, Appl Environ Microbiol, 65, 5451–5458.
TOBIAS CM, OLDROYD GE, CHANG JH and STASKAWICZ BJ (1999), ‘Plants expressing the Pto disease resistance gene confer resistance to recombinant PVX containing the avirulence gene AvrPto’, Plant J, 17, 41–50.
TRUDGILL DL (1991), ‘Resistance to and tolerance of plant parasitic nematodes in plants’, Annu Rev Phytopathol, 29, 167–193.
TU J, ZHANG G, DATTA K, XU C, HE Y, ZHANG Q, KHUSH GS and DATTA SK (2000), ‘Field performance of transgenic elite commercial hybrid rice expressing Bacillus thuringiensis δ-endotoxin’, Nat Biotechnol, 18, 1101–1104.
TUMER NE, HUDAK K, DI R, COETZER C, WANG P and ZOUBENKO O (1999), ‘Pokeweed antiviral protein and its applications’, Curr Top Microbiol Immunol. 240, 139–158.
TUMER NE, HWANG DJ and BONNESS M (1997), ‘C-terminal deletion mutant of pokeweed antiviral protein inhibits viral infection but does not depurinate host ribosomes’, Proc Natl Acad Sci USA, 94, 3866–3871.
VAN DER VOSSEN EA, VAN DER VOORT JN, KANYUKA K, BENDAHMANE A, SANDBRINK H, BAULCOMBE DC, BAKKER J, STIEKEMA WJ and KLEINLANKHORST RM (2000), ‘Homologues of a single resistance-gene cluster in potato confer resistance to distinct pathogens: a virus and a nematode’,Plant J, 23, 567–576.
VERBERNE MC, VERPOORTE R, BOL JF, MERCADO-BLANCO J and LINTHORST HJB (2000), ‘Overproduction of salicilyc acid in plants by bacterial transgenes enhances pathogen resistance’, Nat Biotechnol,18, 779–783.
VIDAL S, PONCE DE LEON I, DENECKE J and PALVA ET (1997), ‘Salicylic acid and the plant pathogen Erwinia carotovora induce defense genes via antagonistic pathways’, Plant J, 11, 115–123.
WANG P, ZOUBENKO O and TUMER NE (1998) Reduced toxicity and broad spectrum resistance to viral and fungal infection in transgenic plants expressing pokeweed antiviral protein II. Plant Mol Biol, 38, 957–964.
WATANABE Y, OGAWA T, TAKAHASHI H, ISHIDA I, TAKEUCHI Y, YAMAMOTO M and OKADA Y (1995), Resistance against multiple plant viruses in plants mediated by a double stranded-RNA specific ribonuclease’, FEBS Lett, Sep 25; 372, 165–168.
WHITHAM SA, ANDERBERG RJ, CHISHOLM ST and CARRINGTON JC (2000), ‘Arabidopsis RTM2 gene is necessary for specific restriction of tobacco etch virus and encodes an unusual small heat shock-like protein’, Plant Cell, 12, 569–582.
WILLIAMSON VM (1998), ‘Root-knot nematode resistance genes in tomato and their potential for future use’, Annu Rev Phytopathol, 36, 277–293.
YEDIDIA I, BENHAMOU N and CHET I (1999) Induction of defense responses in cucumber plants (Cucumis sativus L. ) by the biocontrol agent trichoderma harzianum’, Appl Environ Microbiol, 65, 1061–1070.
YU D, XIE Z, CHEN C, FAN B and CHEN Z (1999), ‘Expression of tobacco class II catalase gene activates the endogenous homologous gene and is associated with disease resistance in transgenic potato plants’, Plant Mol Biol, 39, 477–488.
ZHOU F, COLLINGE DB and THORDAL-CHRISTENSEN H (1995), ‘Germin-like oxalate oxidase, a H2O2 producing enzyme, accumulates in barley attacked by the powdery mildew fungus’, Plant J, 8, 139–145.
ZHU Q, MAHLER EA, MASOUD S, DIXON RA and LAMB CJ (1994), ‘Enhanced protection against fungal attack by constitutive co-expression of chitinase and glucanase genes in transgenic tobacco’, Bio/Technol, 12, 807–811
ZOUBENKO O, UCKUN F, HUR Y, CHET I and TUMER N (1997), ‘Plant resistance to fungal infection induced by nontoxic pokeweed antiviral protein mutants’, Nat Biotechnol, 15, 992–996.