I. Induction of transformation by a desoxyribonucleic acid fraction isolated from Pneumococcus Type III. Physiol Plant 7:16–24, James C (2007) Global status of commercialized biotech/GM crops: 2007. Science 163:85–87, Nobécourt P (1939) Sur la pérennité et l’augmentation de volume des cultures de tissues végétaux. In: Skoog F (ed) Plant growth substances. In Vitro Cell Dev Biol Plant 36:303–308, Sanford JC, Klein TM, Wolf ED, Allen N (1987) Delivery of substances into cells and tissues using a particle bombardment process. 5 0 obj << /Rect [ 134.419006 394.242004 154.375000 404.220001 ] /Dest (CR51) /Subtype /Link /Border [ 0 0 0 ] /Type /Annot >> endobj - Protoplasma 127:1–8, Virchow R (1858) Die Cellullarpathologie im ihrer Begrüngung und physiologische und pathologische Gewebelehre. Physiol Plant Path 1:241–246, Klein TM, Wolf ED, Wu R, Sanford JC (1987) High-velocity microprojectiles for delivering nucleic acids into living cells. endobj History & Evolution of Biotechnology 2/9 17 6 0 obj << /Rect [ 229.039017 394.242004 249.052017 404.220001 ] /Dest (CR44) /Subtype /Link /Border [ 0 0 0 ] /Type /Annot >> endobj Am J Bot 40:66–76, Hildebrandt AC, Riker AJ, Duggar BM (1946) The influence of the composition of the medium on growth in vitro of excised tobacco and sunflower tissue cultures. The foundations of modern plant biotechnology can be traced back to the Cell Theory of Schleiden (Arch Anat Physiol Wiss Med (J Müller) 1838:137–176, 1838) and Schwann (Mikroscopische Untersuchungen über die Übereinstimmung in der Struktur und dem In Vitro Cell Dev Biol Plant 41:577–583, Vasil IK (2007) Molecular genetic improvement of cereals: transgenic wheat (Triticum aestivum L.). 0000090815 00000 n I. Cichorium endivia. Google Scholar, Heller R (1953) Récherches sur la nutrition minerale des tissues végétaux cultives in vitro. Proc Natl Acad Sci USA 83:3282–3286, Guha-Mukherjee S (1999) The discovery of haploid production by anther culture. ó��M�W���N��~��)��1tǩe��zr)���]�2�Q.���z��P�ӳ~��� xW3Amx����Ѕ��� k����}!7����4݇'�L�mp�g���n �9����q.�m�����.��v���#�nO���A�'[��i�r�!�)�c���@i�h������+�VR,Ŋ��;i�BE���PIǝ��. Plant biotechnology is founded on the principles of cellular totipotency and genetic transformation, which can be traced back to the Cell Theory of Matthias Jakob Schleiden and Theodor Schwann, and the discovery of genetic transformation in bacteria by Frederick Griffith, respectively. Sitzungsber K Preuss Akad Wiss Wien. 13 0 obj << /Rect [ 128.750000 244.800003 148.705002 254.778015 ] /Dest (CR93) /Subtype /Link /Border [ 0 0 0 ] /Type /Annot >> endobj C R Acad Sci Paris 259:4795–4796, Miller CO, Skoog F, Von Saltza MH, Strong FM (1955) Kinetin, a cell division factor from deoxyribonucleic acid. • Throughout the 20th century, there was both much hope for, and much disappointment in, the development of biotechnology. 0000090492 00000 n %verypdf.com I. II. John Murray, London, Davey MR, Cocking EC, Freeman J, Pearce N, Tudor I (1980) Transformation of petunia protoplasts by isolated Agrobacterium plasmids. Plant Sci Lett 18:307–313, De Block M, Herrera-Estrella L, Van Montagu M, Schell J, Zambryski P (1984) Expression of foreign genes in regenerated plants and in their progeny. Nature 277:129–131, Menagé A, Morel G (1964) Sur la presence d’octopine dans les tissue de crown-gall. W Engelmann: Leipzig No 176, Shillito R (1999) Methods of genetic transformation: electroporation and polyethylene glycol treatment. 0000107145 00000 n 0000112956 00000 n Theor Appl Genet 60:197–214, Ledoux L, Huart R (1969) Fate of exongenous bacterial deoxyribonucleic acid in barley seedling. 0000164325 00000 n EMBO J 3:3039–3041, Herrera-Estrella L, De Block M, Messens E, Hernalsteens JP, Van Montagu M, Schell J (1983) Chimeric genes as dominant selectable markers in plant cells. << : in cultured immature embryos. Z Pflanzenphysiol 77:247–254, Hess D, Dressler K, Nimmrichter R (1990) Transformation experiments by pipetting Agrobacterium into spikelets of wheat (Triticum aestivum L.). Index SN Lecture Name Page No 1. volume 27, Article number: 1423 (2008) 19 0 obj << /Rect [ 159.987015 194.967010 180 204.945007 ] /Dest (CR41) /Subtype /Link /Border [ 0 0 0 ] /Type /Annot >> endobj 0000125558 00000 n startxref Ann Sci Nat Bot 2:41–70, 211–248, Amici GB (1830) Note sur le mode d’action du pollen sur le stigmate. EMBO J 3:2717–2722, Petit A, Delhaye S, Tempé J, Morel G (1970) Recherches sur le guanidines des tissues de crown-gall. Subscription will auto renew annually. 0000094281 00000 n Plant Cell Reports Suom Kemistil 30B:121, Waris H (1959) Neomorphosis in seed plants induced by amino acids. Z Pflanzenphysiol 93:429–436, Hess D (1980) Investigations on the intra- and interspecific transfer of anthocyanin genes using pollen as vectors. Z Pflanzenphysiol 61:286–298, Hess D (1978) Genetic effects in Petunia hybrida induced by pollination with pollen treated with lac transducing phages. 0000092930 00000 n 0000152651 00000 n EMBO J 2:411–417, Van Larebeke N, Engler G, Holsters M, Van den Elsacker S, Zaenen I, Schilperoort RA, Schell J (1974) Large plasmid in Agrobacteium tumefaciens essential for crown gall-inducing ability. Learn more about Institutional subscriptions, Amici GB (1824) Observations microscopiques sur diverses espèces de plantes. Plant Biotech J 5:555–569, Nagata T, Takebe I (1970) Cell wall regeneration and cell division in isolated tobacco mesophyll protoplasts. Springer, Dordrecht, Zaenen I, Van Larebeke N, Teuchy H, Van Montagu M, Schell J (1974) Supercoiled circular DNA in crown-gall inducing Agrobacterium strains. It is (modern) biotechnology that has captured the attention of the public. As such, (traditional) biotechnology has been practices since he beginning of records history. 16 0 obj << /Rect [ 119.452003 219.912018 139.408005 229.833008 ] /Dest (CR96) /Subtype /Link /Border [ 0 0 0 ] /Type /Annot >> endobj Plant biotechnology is founded on the principles of cellular totipotency and genetic transformation, which can be traced back to the Cell Theory of Matthias Jakob Schleiden and Theodor Schwann, and the discovery of genetic transformation in bacteria by Frederick Griffith, respectively. Flora 593–600, Schröder G, Waffenschmidt S, Weiler EW, Schröder J (1984) The T-region of Ti-plasmids codes for an enzyme synthesizing indole-3-acetic acid. << 0000100143 00000 n ;s?�=eX{�~�7"���������P�k�|�}�C��ł3LdF��͈���rft���&�?BEn�} Immediate online access to all issues from 2019. Arch Anat Physiol Wiss Med (J Müller) pp 137–176, Schleiden MJ (1845) Über Amicis letzten Beitrag zur Lehre von der Befruchtung der Pflanzen. Google Scholar, De Framond AJ, Barton KA, Chilton M-D (1983) Mini-Ti: a new vector strategy for plant genetic engineering. 29 0 obj << /Rect [ 474.519989 182.551010 494.475037 192.472015 ] /Dest (CR50) /Subtype /Link /Border [ 0 0 0 ] /Type /Annot >> endobj University of Wisconsin Press, Madison, pp 263–285, Smith EF, Townsend CO (1907) A plant tumor of bacterial origin. J Biol Chem 109:279–291, Thomashow MF, Hugly S, Buchholz WG, Thomashow LS (1986) Molecular basis for the auxin-independent phenotype of crown gall tumor tissues. A memoir. ��;�|��ZR�B�!k ���P�CW��S�s.çz5�R��9v�q�խ��9�M�ɩ��+��o [�>t]xj5v����. In: Vasil IK (ed) Cell culture and somatic cell genetics of plants. C R Soc Biol (Paris) 84:770–772, Morel G, Martin C (1952) Guérison de dahlias atteints d’une maladie á virus. Biochem Biophys Res Comm 63:349–354, Hamilton RH, Fall MZ (1971) The loss of tumor-inducing ability in Agrobacterium tumefaciens by incubation at high temperature. The Ronald Press, New York, White PR, Braun AC (1942) A cancerous neoplasm of plants. Academic Press, New York, pp 577–585, Kerr (1969) Transfer of virulence between isolates of Agrobacterium. Am J Bot 59:869–874, Vasil IK, Hildebrandt AC (1966c) Growth and chlorophyll production in plant callus tissues grown in vitro. 0000107590 00000 n Naturwiss 45:344–345, Reinert J (1959) Über die Kontrolle der Morphogenese und die Induktion von Adventivembryonen an Gewebekulturen aus Karotten. Concepts of Biotechnology 1-16 2. C R Seances Soc Biol Ses Fil 130:1270–1271, Ohta Y (1986) High efficiency genetic transformation of maize by a mixture of pollen and exongenous DNA. 0000164733 00000 n J Exp Med 79:137–158, Article  Kluwer, Dordrecht, pp 9–20, Skoog F, Miller CO (1957) Chemical regulation of growth and organ formation in plant tissues cultured in vitro. Science 130:863–864, Tzfira T, Citovsky V (eds) (2008) Agrobacterium: from biology to biotechnology. Nature 255:742–743, Van Overbeek J, Conklin ME, Blakeslee AF (1941) Factors in coconut milk essential for growth and development of very young Datura embryos. Biotechnology 8:535–542, Potrykus I (2001) The ‘Golden Rice’ tale. J Plant Physiol 116:261–272, Hess D, Scheinder G, Lorz H, Blaich G (1976) Investigations on the tumor induction in Nicotiana glauca by pollen transfer of DNA isolated from Nicotiana langsdorfii. Landwirtsch Vers Stn 7:93–107, Kögl F, Kostermans DGFR (1934) Heteroauxin als Stoff-wechselproduckt niederer pflanzlicher Organismen Isolierung aus Hefe, XIII. J Am Chem Soc 78:1375–1380, Molliard M (1921) Sur le développement des plantules fragmentées.