| Tree Biotechnology and Environmental Concerns |
|
Kant, Tarun
(Biotechnology Laboratory FGTB Division, Arid Forest Research Institute)
Emmanuel, C.J.S.K. (Biotechnology Laboratory FGTB Division, Arid Forest Research Institute) |
| 1 | Ballard RE, He G, Abott AG, Mink G, Belthoff LE (1992) Molecular biology of forest trees. DNA fingerprinting of Prunus varieties using low copy sequence probes. Proc. IUFR0 Working Party S2.04.06 Workshop. Carcans-Maubuisson France. INRA |
| 2 | Cervera M, Juarez J, Navarro A, Pina JA, Vila ND, Navarro L, Pena L (1998) Genetic transformation and regeneration of mature tissues of woody fruit plantsby passing the juvenile stage. Transgenic Res 7: 52-59 |
| 3 | Coles JP, Phillips AL, Croker SJ, Gracia-Lepe R, Lewis MJ, Hedden P (1999) Modification of gibberellin production and plant development in Arabadopsis by sense and antisense expression of gibberellin 20-oxidase genes. Plant J 17:547-556 |
| 4 | Cruz-Hernandez A, Witjaksono, Litz RE, Gomez-Lim M (1998) Agrobactehum tumefaciens-mediated transformation of embryogenic avocado cultures and regeneration of somatic embryos. Plant Cell Rep 17: 497-503 |
| 5 | Daniell H, Datta R, Varma S, Gary S, Lee SB (1998) Containment of herbicide resistance through genetic engineering of chloroplast genome. Nature Biotechnol 16: 345-348 |
| 6 | Ellis DD, McCabe D, Mclnnis S, Ramachandran, Russell DR, Wallace KM, Martinell BJ, Roberts DR, Raffa KF, Cown BH (1993) Stable transformation of Picea glauca by particle acceleration. Bio/TechnoI 11: 84-89 |
| 7 | Engelmann F (1991) In vitro conservation of tropical plant germplasm - a review. Euphytica 57: 227-243 |
| 8 | Hanley Z, Elborough K (2002) Emerging Biotechnologies:Upgrading the terminator. ISB News Reporter, November2002: 3-5 |
| 9 | McGranahan GH, Leslie CA, Uratsu SL, Martin LA, Dandekar AM (1998) Agrobacterium- mediated transformation of walnut somatic embryos and regeneration of transgenic plants.Bio/Technol 6: 800-804 |
| 10 | Schuler TH, Poppy GM, Kerry BR, Denholm IR (1998) Insect-resistant transgenic plants. Trends Biotechnol 16:168-175 |
| 11 | Xie DY, Hong Y (2001) Agrobacterium-mediated genetic trans-formation of Acacia Mangium. Plant Cell Rep 20: 917-922 |
| 12 | Hu W-J, Harding SA, Lung J, Popko JL, Ralph J, Stokke DD,Tsai C-J, Chiang VL (1999) Repression of lignin biosynthesis promotes cellulose accumulation and growth in transgenic trees. Nature Biotechnology 17: 808-812 |
| 13 | Weigel D, Nilsson 0 (1995) A developmental switch sufficient for flower initiationin diverse plants. Nature 377: 495-500 |
| 14 | Lapierre C, Pollet B, Petit-Conil M, Toval G, Romero J, Pilate G, Leple J-C, Boerjan W, Ferret V, de Nadai V, Jouanin L (1999) Structural alterations of lignins in transgenic poplars with depressed cinnamyl alcohol dehydrogenase or caffeic acid O-methyl transferase activity have an opposite impact on the efficiency of industrial kraft pulping. Plant Physiol 119:153-164 |
| 15 | Sederoff RR, MacKay JJ, Ralph J, Hatfield RD (1999) Unexpected variations in lignin. Curr Opin Plant Biol 2: 145-152 |
| 16 | Reynoird JP, Mourgues F, Norelli JL, Aldwinckle HS, Brisset MN, Chevreau E (1999) First evidence for improved resistance to fire blight in transgenic pear expressing attacin E gene from Hyalophora cecropia. Plant Sci 149: 23-31 |
| 17 | Mandel MA, Yanofsky MF (1995) A gene thggering flower formation in Arabidopsis. Nature 377: 522-524 |
| 18 | Bajaj YPS (1991) Automated micropropagation for en masse production of plants, In Bajaj YPS (ed), Biotechnology in agriculture and forestry 17, pp 3-16. Springer Verlag, Berlin |
| 19 | Bell RL, Scorza R, Srinivasan C, Webb K (1999) Transformation of 'Beurre Bose' pear with rolC gene. J Am Soc Hort Sci 124: 570-574 |
| 20 | Scorza R, Callahan A, Levy L, Damsteegt V, Webb K,Ravelonandro M(2001) Post-transcriptional gene scilencing in plum pox virus resistant transgenic European plum containing the plum pox potyvirus coat protein gene.Transgenic Res 10: 201-209 |
| 21 | Jacobi V, Plourde A, Charest PJ, Hamelin RC (2000) In vitro toxicity of natural and designed peptides to tree pathogens and pollen. Can J Bot 78: 455-461 |
| 22 | Tian L, Levee V, Mentag R, Charest PJ, Seguin A (1999) Green florescent protein as a tool for monitehng transgene expression in forest tree species. Tree Physiol 19: 541-546 |
| 23 | Thorpe TA, Harry IS, Kumar PP (1991) Application of micropropagation to forestry, In Debergh PC & Zimmerman PH (eds). Micropropagation: technology and application. Kluwer Academic Dordrecht, the Netherlands |
| 24 | DelleDonne M, Allegro G, Belenghi B, Balestrazzi A, Picco F, Alex Levine A, Zelasco S, Calligari P, Confalonieri M (2001)Transformation of white poplar (Populus alba L) with a novel Arabidopsis thaliana cysteine protelnase inhibitor and analysis of insect pest resistance. Mol Breed 7: 35-42 |
| 25 | Igasaki T, Mohri T, Ichikawa H, Shinohara K (2000) Agrobacterium mediated transformation of Robinia pseudoacacia. Plant Cell Rep 19: 448-453 |
| 26 | Norelli JL, Aldwinckle HS, Destefano-BeItran L, Jaynes JM (1994)Transgenic 'Malling 26' apple expressing the attacin E gene has increased resistance to Erwinia amylovora. Euphytica 77:123-128 |
| 27 | Pena L, Seguin A. (2001) Recent Advances in the genetic transformation of trees. Trends in Biotech 19: 500-506 |
| 28 | Tzfira T, Zuker A, Altman A (1998) Forest tree biotechnology:genetic transformation and its application to futute forests.Trends Biotechnol 16: 439-446 |
| 29 | Singh Z, Sanasavini S (1998) Genetic transformation and fruit crop improvement. In: Janick, J (ed) Plant Breeding Reviews Vol. 16, John Wilwy and Sons, pp 87-134 |
| 30 | Chiang VL, Funaoka M (1990) The difference between guaiacyl and guaiacyl-syringyl lignins in their response to kraft delignification. Holzforschung 44: 173-176 |
| 31 | Liang H, Maynard CA, Allen RD, Powell WA (2001) Increased Septoria musiva resistance in transgenic hybrid poplar leaves expressing a wheat oxilate oxidase gene. Plant Mol Biol 45:619-629 |
| 32 | Eriksson ME, Israelsson M, OlssonO, Moritz T (2000) Increased gibberellin biosynthesis in transgenic trees promotes growth,biomass production and xylem fiber length, Nat Biotechnol 16: 168-788 |
| 33 | Gartland JS, McHugh AT, Brasier CM, Irvine RJ, Flenning TM, Gartland MA (2000) Regeneration of phenotypically normal English Elm (Ulmus procera) Plantlets following transformation with Agrobacterium tumefaciens vector. Tree Physiol 20:901-907 |
| 34 | Jouanin L, Goujon T, de Nadai V, Martin MT, Mila I, Vallet C, Pollet B, Yoshinaga A, Chabbert B, Petit-Conil M, Lapierre C (2000) Lignification on transgenic poplars with extremely reduced caffeic acid O-methyl transferase activity. Plant Physiol 123: 1368-1374 |
| 35 | Muller-Starck G, Baradat P, Bergmann F (1992) Genetic variation within European tree species. New Forests 6: 23-47 |
| 36 | Franche C, Diouf D, Le QV, N' Diaye A, Gherbi H, Bogusz D,Gobe C, Duhoux E (1997) Genetic transformation of theactinorhizal tree Allocasuarina verticillata by Agrobacterium tumefaciens. Plant J 11: 897-904 |
| 37 | Kaneyoshi J, Kobayashi S (1999) Characterstics of transgenic trifoliate orange (Poncirus thfoliata) Possessing the roIC gene of Agrobacterium rhizogenes Ri Plasmid. J Japan Soc Hort Sci 68: 734-738 |
| 38 | Daniell H (1999) The next generation of genetically engineered crops for herbicide and insect resistance: containment of gene population and resistant insects. AgBiotechNet 24: 1-8 |
| 39 | Rottmann WH, Meilan R, Sheppard LA, Brunner AM, Skinner JS,Ma C, Cheng S, Jouanin L, Pilate G, Strauss SH (2000) Diverse effects of overexpression of LEAFY and PTLF, a poplar homolog of LEAFY/FLORICULAI, in transgenic poplar and Arabidopsis. Plant J 22: 235-245 |
| 40 | Dandekar AM, McGranahan GH, Vail PV, Uratsu SL, Leslie CA, Tebbets JS (1998) High level of expression of full length cryA(c) gene from Bacillus thuringensis in transgenic somatic walnut embryos. Plant Sci 131: 181-193 |
| 41 | Haines RJ (1992) Mass production technology for genetically improved, fast growing forest tree species. Mass propagation by cuttings, biotechnologies, and the capture of genetic gain. Paper presented at IUFR0 symposium. Bordeaux, France |
| 42 | Strauss SH, Lande R, Namkoong G (1992) Limitations of molecular-marker-aided selection in forest tree breeding. Can For Res 22: 1050-1061 |
| 43 | Merkle SA, Dean JF (2000) Forest tree biotechnology. Curr Opin Biotechnol 11: 298-302 |
| 44 | Zhu LH, Holefors A, Ahlman A, Xue ZT, Welander M (2001) Trans-formation of the apple rootstock M.9/29 with the roIB gene and its influence on rooting and growth. Plant Sci 160: 433-439 |
| 45 | Rugh CL, Senecoff JF, Meagher RB, Merkle SA (1998) Development of transgenic yellow poplar for mercury phytoremediation. Nat Biotech 16: 925-928 |
| 46 | Strauss S, Boerjan W, Caimey J, Campbell M, Dean J, Ellis D, Jouanin L, Sundberg B (1999) Forest biotechnology makes its position known. Nat Biotechnol 17: 1145 |
| 47 | Fillatti JJ, Sellmer J, McCown J, Haissig B, Comai L (1987)Agrobacterium mediated transormation and regeneration from transgenic Populus. Mol Gen Genet 206: 192-199 |
| 48 | James RR, DiFazio SP, Brunner AM, Strauss SH (1998)Environmental effects of genetically engineered woody biomass crops. Biomass Bioener 14: 403-414 |
| 49 | Klopfenstein NB, Chun YW, Kim MS, Ahuja MR eds. (1997) Micropropagation, Genetic Engineering, and Molecular Biology of Populus. General Technical Report, RM-GTR-297. Ft.Collins, CO: USDA Forest Service, Rocky Mountain Research Station, pp 326 |
 |
Korea Institute of Science and Technology Information
Gwahangno, Yuseong-gu, Daejeon, 305-806, Korea TEL : +82-42-869-1752
Copyright (c) 2009 KISTI. All Rights Reserved. For more information mail to
webmaster
