Plant Gene Engineering Center
  Publications

A 专业期刊论文

A01. Kahn, M., Ow, D., Sauer, B., Rabinowitz, A., Calendar, R. 1980. Genetic analysis of bacteriophage P4 using P4-plasmid ColE1 hybrids. Molecular & General Genetics 177: 399-412.

A02. Ow, D.W., Ausubel, F.M. 1980. Recombinant P4 bacteriophages propagate as viable lytic phages or as autonomous plasmids in Klebsiella pneumoniae.Molecular & General Genetics 180: 165-175.

A03. Sauer, B., Ow, D., Ling, L., Calendar, R. 1981. Mutants of satellite bacteriophage P4 that are defective in the suppression of transcriptional polarity.Journal of Molecular Biology 145: 29-46.

A04. Ow, D.W., Ausubel, F.M. 1983. Regulation of nitrogen metabolism genes by the nifA gene product in Klebsiella pneumoniae. Nature (London) 301: 307-313.

A05. Sundaresan, V., Jones, J.D.G., Ow, D.W., Ausubel, F.M. 1983. Klebsiella pneumoniae nifA product activates the Rhizobium meliloti nitrogenase promoter. Nature (London) 301: 728-732.

A06. Ow, D.W., Sundaresan, V., Rothstein, D.M., Brown, S.E., Ausubel, F.M. 1983. Promoters regulated by the glnG (ntrC) and nifA gene products share a heptameric consensus sequence in the 15 region. Proceedings of the National Academy of Sciences USA 80: 2524-2528.

A07. Sundaresan, V., Ow, D.W., Ausubel, F.M. 1983. Activation of Klebsiella pneumoniae and Rhizobium meliloti nitrogenase promoters by gln (ntr) regulatory proteins. Proceedings of the National Academy of Sciences USA 80: 4030-4034.

A08. Ow, D.W., Ausubel, F.M. 1983. Conditionally replicating plasmid vectors that can integrate into the Klebsiella pneumoniae chromosome via bacteriophage P4 site specific recombination. Journal of Bacteriology 155: 704-713.

A09. Ow, D.W., Xiong, Y., Gu, Q., Shen, S.C. 1985. Mutational analysis of the Klebsiella pneumoniae nitrogenase promoter: sequences essential for positive control by nifA and ntrC (glnG) products.Journal of Bacteriology 161: 868-874.

A10. Ow, D.W., Wood, K.V., DeLuca, M., de Wet, J.R., Helinski, D.R., Howell, S.H. 1986. Transient and stable expression of the firefly luciferase gene in plant cells and transgenic plants. Science 234: 856-859.

A11. Ow, D.W., Jacobs, J., Howell, S.H. 1987. Functional regions of the CaMV 35S RNA promoter determined by use of the firefly luciferase gene as a reporter of promoter activity. Proceedings of the National Academy of Sciences USA 84: 4870-4874.

A12. Schneider, M., Ow, D.W., Howell, S.H. 1990. The in vivo pattern of firefly luciferase expression in transgenic plants. Plant Molecular Biology 14: 935-947 .

A13. Joshi, R.L., Joshi, V., Ow, D.W. 1990. BSMV genome mediated expression of a foreign gene in dicot and monocot plant cells. EMBO Journal 9: 2663-2669.

A14. Dale, E.C., Ow, D.W. 1990. Intra- and intermolecular site-specific recombination in plant cells mediated by bacteriophage P1 recombinase. Gene 91: 79-85.

A15. Dale, E.C., Ow, D.W. 1991. Gene transfer with subsequent removal of the selection gene from the host genome. Proceedings of the National Academy of Sciences USA 88: 10558-10562.

A16. Bayley, C.C., Morgan, M., Dale, E.C., Ow, D.W. 1992. Exchange of gene activity in transgenic plants catalyzed by the Cre-lox site-specific recombination system. Plant Molecular Biology 18: 353-362.

A17. Abrahamson, S.L., Speiser, D.M., Ow, D.W. 1992. A gel electrophoresis assay for phytochelatins. Analytical Biochemistry 200: 239-243.

A18. Bayley, C., Trolinder, N., Ray, C., Morgan, M., Quisenberry, J.E., Ow, D.W. 1992. Engineering 2,4-D resistance into cotton. Theoretical & Applied Genetics 83: 645-649.

A19. Speiser, D.M., Abrahamson, S.L., Banuelos, G., Ow, D.W. 1992. Brassica juncea produces a phytochelatin-cadmium-sulfide complex. Plant Physiology 99: 817-821.

A20. Ortiz, D.F., Kreppel, L., Speiser, D.M., Scheel, G., McDonald, G., Ow, D.W. 1992. Heavy metal tolerance in the fission yeast requires an ATP binding cassette-type vacuolar membrane transporter. EMBO Journal 11: 3491-3499.

A21. Speiser, D.M., Ortiz, D.F., Kreppel, L., Scheel, G., McDonald, G., Ow, D.W. 1992. Purine biosynthetic genes are required for cadmium tolerance in Schizosaccharomyces pombe. Molecular and Cellular Biology 12:5301-5310.

A22. Juang, R.-H., McCue, K.F., Ow, D.W. 1993. Two purine biosynthetic enzymes that are required for cadmium tolerance in Schizosaccharomyces pombe utilize cysteine sulfinate in vitro. Archives of Biochemistry & Biophysics 304: 392-401.

A23. van Haaren, M.J.J., Ow, D.W. 1993. Prospects of applying a combination of DNA transposition and site-specific recombination in plants. Plant Molecular Biology 23: 525-533.

A24. Ow, D.W. Phytochelatin-mediated cadmium tolerance in Schizosaccharomyces pombe. 1993. In Vitro Cellular Developmental Biology 29P: 213-219.

A25. Qin, M., Bayley, C., Stockton, T., Ow, D.W. 1994. Cre recombinase mediated site specific recombination between plant chromosomes. Proceedings of the National Academy of Sciences USA 91: 1706-1710.

A26. Ow, D.W., Medberry, S.L. 1995. Genome manipulation through site-specific recombination. Critical Reviews in Plant Sciences 14: 239-261.

A27. Medberry, S.L., Dale, E., Qin, M., Ow, D.W. 1995. Intra-chromosomal rearrangements generated by Cre-lox site specific recombination. Nucleic Acids Research 23: 485-490.

A28. Ortiz, D.F., Ruscitti, T., McCue, K., Ow, D.W. 1995. Transport of metal-binding peptides by HMT1, a fission yeast ABC-type vacuolar membrane protein. Journal of Biological Chemistry 270: 4721-4728.

A29. Albert, H., Dale, E.C., Lee, E., Ow, D.W. 1995. Site-specific integration of DNA into wild type and mutant lox sites placed in the plant genome. Plant Journal 7: 649-659.

A30. Qin, M., Lee, E., Zankel, T., Ow, D.W. 1995. Site-specific cleavage of chromosomes in vitro through Cre-lox recombination. Nucleic Acids Research 23: 1923-1927.

A31. Cunningham, S., Ow, D.W. 1996. Promises and prospects of phytoremediation. Plant Physiology 110: 715-719.

A32. Ow, D.W. 1996. Recombinase-directed chromosome engineering in plants. Current Opinion in Biotechnology 7: 181-186.

A33. Ow, D.W. 1996. Heavy metal tolerance genes: prospective tools for bioremediation. Resources, Conservation and Recycling 18:135-149.

A34. Perego, P., VandeWeghe, J., Ow, D.W., Howell, S.B. 1997. The role of determinants of cadmium sensitivity in the tolerance of Schizosaccharomyces pombe to cisplatin. Molecular Pharmacology 51: 12-18.

A35. VandeWeghe, J., Ow, D.W. 1999. A fission yeast gene for mitochondrial sulfide oxidation. Journal of Biological Chemistry 274: 13250-13257.

A36. Srivastava, V., Anderson, O.D., Ow, D.W. 1999. Single-copy transgenic wheat generated through the resolution of complex integration patterns.Proceedings of the National Academy of Sciences USA 96: 11117-11121.

A37. Choi, S., Begum, D., Koshinsky, H., Ow, D.W., Wing, R.A. 2000. A new approach for the identification and cloning of genes: the pBACwich system using Cre/lox site-specific recombination.Nucleic Acids Research 28: e19, i-vii.

A38. Koshinsky, H.A., Lee, E., Ow, D.W. 2000. Cre-lox site-specific recombination between Arabidopsis and tobacco chromosomes. Plant Journal 23: 715-722.

A39. Day, C.D., Lee E., Kobayashi, J., Holappa, L.D., Albert, H., Ow, D.W. 2000. DNA integration into the same chromosome location can produce transgene alleles that express at a predictable level, or alleles that are differentially silenced. Genes & Development 14: 2869-2880.

A40. Ow, D.W. 2001. The right chemistry for marker gene removal? Nature Biotechnology 19: 115-116.

A41 Thomason, L.C., Calendar, R., Ow, D.W. 2001. Gene insertion and replacement in Schizosacchromyces pombe mediated by the Streptomyces bacteriophage ?C31 site-specific recombination system.Molecular Genetics & Genomics 265: 1031-1038.

A42. Srivastava, V., Ow D.W. 2001. Single copy primary transformants of maize obtained through the co-introduction of a recombinase-expressing construct.Plant Molecular Biology 46 :561-566.

A43. VandeWeghe, J., Ow, D.W. 2001. Accumulation of metal-binding peptides in fission yeast requires hmt2+. Molecular Microbiology 42: 29-36.

A44 Ow, D.W. 2002. Recombinase-directed plant transformation for the post genomic era. Plant Molecular Biology 48: 183-200.

A45. Srivastava, V., Ow D.W. 2002. Biolistic mediated site-specific integration in rice. Molecular Breeding 8: 345-350.

A46. Belteki, G., Gertsenstein, M., Ow, D.W., Nagy, A. 2003. Site-specific cassette exchange and germline transmission with mouse ES cells expressing ?C31 integrase. Nature Biotechnology 21: 321-324.

A47. Srivastava, V., Ow, D.W. 2003. Rare instances of Cre-mediated deletion product maintained in transgenic wheat. Plant Molecular Biology, 52: 661-668.

A48. Judova, J., Sutka, R., Klaudiny, J., Liskova, D., Ow, D.W., Simuth, J. 2004. Transformation of tobacco plants with cDNA encoding honeybee royal jelly MRJP1. Biologia Plantarum 48: 185-191.

A49. Srivastava, V., Ow, D.W. 2004. Marker-free site-specific gene integration in plants. Trends in Biotechnology 22: 627-629.

A50. Ow, D.W. 2005. Transgene management via multiple site-specific recombination systems. In Vitro Cellular and Developmental Biology - Plant 41: 213 – 219.

A51. Thomson, J.G., Ow, D. W. 2006. Site-specific recombination systems for the genetic manipulation of eukaryotic genomes. Genesis 44: 465-476.

A52. Ow, D.W. 2007. GM maize from site-specific recombination technology, what next? Current Opinion in Biotechnology 18: 115-120.

A53 Blanvillain, R., Boavida, L.C., McCormick, S., Ow, D.W. 2008. EXPORTIN1 genes are essential for development and function of the gametophytes in Arabidopsis thaliana. Genetics 180: 1493-1500.

A54 Blanvillain, R., Kim, J.H., Wu, S., Lima, A., Ow D.W. 2009. OXIDATIVE STRESS 3 is a chromatin-associated factor involved in tolerance to heavy metals and oxidative stress. Plant Journal 57: 654-665.

A55 Thomson, J.G., Yau, Y.-Y., Blanvillain, R., Chiniquy, D., Thilmony, R., Ow, D.W. 2009. ParA resolvase catalyzes site-specific excision of DNA from the Arabidopsis genome. Transgenic Research 18: 237-248.

A56. Thomson, J.G., Chan, R., Thilmony, R., Yau, Y.-Y., Ow, D.W. 2010. PhiC31 recombinase demonstrates heritable germinal transmission of site-specific excision from the Arabidopsis genome. BMC Biotechnology 10:17, 1-12.

A57. Moon, H.S., Eda, S., Saxton, A.M., Ow, D.W., Stewart, C.N. Jr. 2011. An efficient and rapid transgenic pollen screening and detection method using flow cytometry. Biotechnology Journal 6:118-123.

A58. Moon, H.S., Abercrombie, L.L., Eda, S., Blanvillain, R., Thomson, J.G., Ow, D.W., Stewart, C.N. Jr. 2011. Transgene excision in pollen using a codon optimized serine resolvase CinH-RS2 site-specific recombination system. Plant Molecular Biology 75:621-31.

A59. Ow, DW. 2011. Recombinase-mediated gene stacking as a Transformation Operating System. Journal of Integrative Plant Biology, 53: 512-519.

A60. Blanvillain R., Wei, S., Wei, P, Kim, J.H., Ow, D.W. 2011. Stress tolerance to stress escape in plants: role of the OXS2 zinc-finger transcription factor family. EMBO Journal 30:3812-3822.

A61. Huang, J., Zhang, Y., Peng, J.S., Zhong, C., Yi, H.Y., Ow, D.W., Gong, J.M. 2012. Fission yeast HMT1 lowers seed cadmium through phytochelatin-dependent vacuolar sequestration in Arabidopsis.Plant Physiology 158:1779-1788.

A62. Zhou, Y., Yau, Y.-Y., Ow, D.W., Wang, Y. 2012. Site-specific deletions in the tomato genome by the CinH-RS2 and ParA-MRS recombination systems.Plant Biotechnology Reports, DOI: 10.1007/s11816-012-0217-4.

A63. Thomson, J.G., Chan, R., Smith, J., Thilmony, R., Yau, Y.-Y., Wang Y., Ow, D.W. 2012. The Bxb1 recombination system demonstrates heritable transmission of site-specific excision in Arabidopsis. BMC Biotechnology 12:9, doi:10.1186/1472-6750-12-9.

A64. Hou, L., Yau, Y-Y, Wei, J., Han, Z., Dong, Z., Ow, D.W. 2014. An open source system for in planta gene stacking by Bxb1 and Cre recombinases. Mol. Plant 7:1756-1765.

A65.Ow, D.W. 2016. The long road to recombinase-mediated plant transformation. Plant Biotechnology Journal 14:441-117.

A66. Wang, C., Guo, W., Ye, S., Wei, P., Ow, D.W. 2016. Reduction of Cd in rice through expression of OXS3-like gene fragments. Molecular Plant, 9:301-304.

A67. He, L., M., X., Li, Z., Jiao, Z., Li, Y., Ow, D.W. 2016. Maize OXIDATIVE STRESS 2 homologs enhance cadmium tolerance in Arabidopsis through activation of a putative SAM-dependent methyltransferase gene. Plant Physiology 171:1675-1685.

A68. Liu, T., Yang, M, Han, Z., Ow, D.W. 2016. Rooftop production of leafy vegetables can be profitable and less contaminated than farm grown vegetables.Agronomy for Sustainable Development 36:41 DOI 10.1007/s13593-016-0378-6.

A69. He, Y., Chen, Y., Song, W., Zhu, L., Dong, Z., Ow, D.W. 2016. A Pap1-Oxs1 signaling pathway for disulfide stress in Schizosaccharomyces pombe.Nucleic Acids Research, doi: 10.1093/nar/gkw818.

A70. Chen, W., Ow, D.W. 2017. Precise, flexible and affordable gene stacking for crop improvement. BIOENGINEERED 8:451-456.

A71. Rajaee, M., Ow, D.W. 2017. A new location to split Cre recombinase for protein fragment complementation. Plant Biotechnology Journal 15: 1420-1428.

A72. Zhu, L., Ow, D.W., Dong, Z. 2018. Transfer RNA-derived small RNAs in Plants. SCIENCE CHINA 61: 155-161.

A73. Wang, C., Guo, W., Cai, X., Li, R., Ow, D.W. 2018. Engineering low-cadmium rice through stress-inducible expression of OXS3-family member genes. New BIOTECHNOLOGY 48: 29-34.

A74. Chen, Y., Zhang, Y., Dong, Z., Ow, D.W. 2018. Protection from disulfide stress by inhibition of Pap1 nuclear export in Schizosaccharomyces pombe. Genetics 210: 857-868.

A75. Chen, W., Kaur, G., Hou, L., Li, R., Ow, D.W. 2019. Replacement of stacked transgenes in planta. Plant Biotechnology Journal, https://doi.org/10.1111/pbi.13172.

A76. Liang, M., Ow, D.W.  2019. Nucleocytoplasmic OXIDATIVE STRESS 2 can relocate FLOWERING LOCUS T. Biochemical and Biophysical Research Communications 517: 735-740.

A77. Liang, M., Xiao, S., Cai, J., Ow, D.W.  2019. OXIDATIVE STRESS 3 regulates drought-induced flowering through APETALA 1.  Biochemical and Biophysical Research Communications 519: 585-590.

 

 

B. 著作

B01. Ausubel, F.M., Janssen, K.A., Ow, D.W., Riedel, G.E., Ruvkun, G.B., Cannon, F.C., and Cannon, M.C. 1980. The use of recombinant DNA techniques in the study of nitrogen fixing genes. In: Nitrogen Fixation (Steward, W.D.P., Gallon, J.R., eds.) Academic Press, London, pp. 395-419.

B02. Ausubel, F.M., Brown, S.E., deBruijn, F.J., Ow, D.W., Riedel, G.E., Ruvkun, G.B., and Sundaresan, V. 1982. Molecular cloning of nitrogen fixation (nif) genes from Klebsiella pneumoniae and Rhizobium meliloti. In: Genetic Engineering (Setlow, J.K., Hollaender, A., eds.) Plenum Press, New York, pp. 169-198.

B03. Ausubel, F.M., Ow, D.W., Sundaresan, V. 1983. Conservation of the regulatory mechanisms regulating the expression of nitrogen fixation genes in Rhizobium meliloti and Klebsiella pneumoniae. In: Structure And Function Of Plant Genomes (Ciferri, O., Dure III, L., eds.) Plenum Press, New York, pp. 253-262.

B04. Sundaresan, V., Jones, J., Ow, D.W., Ausubel, F.M. 1983. Regulation of nif genes in Rhizobium meliloti and Klebsiella pneumoniae. In: Gene Expression, UCLA Symposium on Molecular and Cellular Biology, New Series, Vol. 8 (Hamer, D., Rosenberg, M., eds.) Alan R. Liss, Inc., New York, pp. 175-185.

B05. Zimmerman, L., Szeto, W., Ow, D.W., Ausubel, F.M. 1983. A region which regulates nitrogenase expression in Rhizobium meliloti. In: Plant Molecular Biology, UCLA Symposium on Molecular and Cellular Biology, New Series, Vol. 12 (Goldberg, R.B., ed.), Alan R. Liss, Inc., New York, pp. 237-242.

B06. deBruijn, F.J., Sundaresan, V., Szeto, W.W., Ow, D.W., Ausubel, F.M. 1984. Regulation of nitrogen fixation (nif) genes of Klebsiella pneumoniae and Rhizobium meliloti: role of nitrogen regulation (ntr) genes. In: Advances In Nitrogen Fixation Research (Veeger, C., Newton, W.E., eds.), Martinus Nijoff/Dr. W. Junk, Hague, pp. 627-633.

B07. Ow, D.W., Gu, Q., Xiong, Y., Zhu, J., Shen, S.C. 1985. Regulation of Klebsiella pneumoniae nitrogen fixation gene promoters by regulatory proteins ntrC, nifA, and nifL. In: Nitrogen Fixation Research Progress (Evans, H.J., Bottomley, P.J., Newton, W.E., eds.), Martinus Nijoff, Dordrecht, pp. 461-467.

B08. Ow, D.W., Howell, S.H. 1989. Incorporation of firefly luciferase gene into plant cells. In: Biotechnology In Agriculture And Forestry, Vol. 9 “Plant Protoplasts & Genetic Engineering II” (Bajaj, Y.P.S., ed.), Springer-Verlag, Heidelberg, pp. 376-387.

B09. Howell, S.H., Ow, D.W., Schneider, M. 1989. Use of the firefly luciferase gene as a reporter of gene expression in plants. In: Plant Molecular Biology Manual (Gelvin, S.B., Schilperoot, R.A., eds.), Kluwer Academic Press, pp. 1-11.

B10. Kahn, M.L., Ziermann, R., Deho, G., Ow, D.W., Sunshine, M.G., Calendar, R. 1991. Bacteriophage P2 and P4. In: Methods In Enzymology, vol 204, pp. 264-280, “Bacterial Genetic Systems” (Miller, J.H., ed.), Academic Press.

B11. Ow, D.W., Ortiz, D.F., Speiser, D.M., McCue, K.F. 1994. Molecular genetic analysis of cadmium tolerance in Schizosaccharomyces pombe. In: Metal Ions In Fungi (Winkelmann, G., Winge, D., eds.), Marcel Dekker, Inc., New York, pp. 339-359.

B12. Koshinsky, H.A., Liao, H.K., Ow, D.W. 1995. Progress in screening microorganisms for gossypol-degrading ability. In: Biochemistry Of Cotton (Proceedings of the Biochemistry of Cotton Workshop, Galveston, Texas, Sept 28-30, 1994), Cotton Inc., pp. 19-22.

B13. Ow, D.W., Albert, H., Dale, E., Lee, E., Stockton, T. 1995. Cre-lox site-specific integration of DNA into the plant genome. In: Modification Of Gene Expression And Non-Mendelian Inheritance (Oono, K., Takaiwa, F., eds.), National Institute of Agrobiological Resources, Sato Press, Mito, pp. 225-234.

B14. Morgan, M.K., Ow, D.W. 1995. Polyethylene glycol-mediated transformation of tobacco leaf mesophyll protoplasts: an experiment in the study of Cre-lox recombination. In: Methods In Plant Molecular Biology, A Laboratory Manual (Maliga, P., Klessig, D., Cashmore, A., Gruissem W., Varner, J., eds.), Cold Spring Harbor Press, pp. 1-17.

B15. Ow, D.W. 1997. Marker-free transgenic plants. In: Proceedings of the 2nd Central and Eastern European Conference For Regional And International Cooperation On Safety In Biotechnology. Federal Environmental Agency, Vienna, Austria, pp. 25-28.

B16. Ow, D.W. 1997. Techniques for creating marker free transgenic plants. In: Nordic Seminar on Antibiotic Resistance Marker Genes and Transgenic Plants. Norwegian Biotechnology Advisory Board, Oslo, Norway, pp. 59-68.

B17 Koshinsky, H, Ow, D.W. 1997. Recombinase systems in plants. In: Proceedings Of The 1997 Tappi (Technical Association Of The Pulp And Paper Industry) Biological Sciences Symposium (Oct. 19-23, 1997, San Francisco), pp. 295-297.

B18. Ow, D.W., Quisenberry, J.E. 1998. Transgenic cotton resistant to 2,4-D. In: Biotechnology In Agriculture And Forestry, vol. 42, “Cotton” (Bajaj, Y.P.S., ed.), Springer-Verlag, Heidelberg, pp. 291-297.

B19. Albert, H., Ow, D.W. 1998. Site-specific recombination directed plant transformation. In: Somaclonal Variation and Induced Mutation In Crop Improvement (Jain, S.M., Ahloowalia, B.S., Brar, D.S., eds.), Kluwer Academic Press, The Netherlands, pp. 503-518.

B20. Ow, D.W. 1998. Prospects of engineering heavy metal detoxification genes in plants. In: Engineering Crops For Industrial Uses (Shewry, P., ed.), Portland Press, pp. 111-124.

B21. Ow, D.W., Kim, J.H., Fox, T., Sin, M. 2000. Cloning heavy metal tolerance genes. Environmental Management Science Program Workshop, Atlanta, GA, April 25-27, 2000, pp. 1-9

B22 Ow, D. 2000. Marker Genes. In: Proceedings of the Joint FAO/WHO Expert Consultation on Foods Derived from Biotechnology (May 29-June 2, 2000, Geneva, Switzerland), pp. 1-6.

B23 Ow, D.W. 2000. Transgenic Plants, Then and Now: A Personal Perspective. In: Proceedings of the 2000 Cotton Research Meeting and Summaries of Cotton Research in Progress (Oosterhuis, D.M., ed.), Univ of Arkansa Press, pp. 15-21.

B24. Albert, H., Ow, D.W. 2000. Cre-lox directed integration of transgenes into tobacco. In: Plant Molecular Biology Manual (Gelvin, S.B., Schilperoot, R.A., eds.), Kluwer Academic Press, Dordrecht, pp. N3 1-13.

B25. Ow, D.W. 2002. Recombinase-directed transgene placement. In: Proceedings of the 7th International Symposium on the Biosafety of Genetically Modified Organisms, Beijing, China, pp. 13-20.

B26. Ow, D.W. 2003. Site-specific gene stacking method. In: Plant Biotechnology 2002 and Beyond (Vasil, I.K., ed.), Kluwer Academic Press, Dordrecht, pp. 215-218.

B27. Ow, D.W. 2003. Genetically Modified Plants - Current Technology & Future Prospects. Commissioned review for the Pan American Health Organization /World Health Organization (PAHO/WHO), Food and Agriculture Organization (FAO), and Inter American Institute for Cooperation on Agriculture (IICA) Joint Meeting on Safety of Food Produced by Biotechnology, Buenos Aires, Argentina, February 20-21, 2003.

B28. Ow, D.W. 2004. Gene stacking through site-specific integration. In: Genetically Modified Crops, Their Development, Uses, and Risks (Liang, G.H. & Skinner, D.Z., eds.), Haworth Press, Inc., Binghamton, New York, pages 71-100.

B29. Ow, D.W. 2007. Site-specific recombination for plant genetic engineering: strategy for agro-mediated gene stacking. In Acta Horticulturae volume 738 (Litz, R.E., Scorza, R., eds.), Drukkkerij Jansen BV, The Netherlands, pages 117-127.

B30. Stewart, C.N., Ow, D.W. 2008. The Future of Plant Biotechnology. In: Plant Biotechnology and Genetics: Principles, Techniques and Applications (C. Neal Stewart, Jr., ed.) Wiley and Sons, New York, pp. 357-369.

B31. Ow, D.W. 2008. Chance events shape a career. In: Plant Biotechnology and Genetics: Principles, Techniques and Applications (C. Neal Stewart, Jr., ed.) Wiley and Sons, New York, pp. 238-239.

B32. Srivastava, V., Ow, D.W. 2011. Site-specific recombination for precise and clean transgene integration in plant genome. In: Plant Transformation Technologies (Eds: C.N. Stewart, A. Touraev, V. Citovsky, T. Tzfira), Wiley-Blackwell Publishers, pages 197-212 (Book Chapter).

B33. Yau, Y.-Y., Wang, Y., Thomson, J.G., Ow, D.W. 2011. Method for Bxb1-mediated site-specific integration in planta. In: Methods Mol Biol. 701:147-66.(Ed. J.A. Birchler), Humana Press (Book Chapter).

B34. Dan, Y., Ow, D.W. 2011. Preface. In: Plant Transformation Technology Revolution in Last Three Decades. Volume Title: Historical Technology Developments in Plant Transformation (Ed. Dan, Y., Ow, D.W.), Bentham eBooks.

B35. Srivastava, V., Ow, D.W. 2015. Simplifying transgene locus structure through Cre-lox recombination. In: Plant Gene Silencing: Methods and Protocols.(Eds: K.S. Mysore, S-K Muthappa), Springer, pages 95-103.

B36. Li, R., Han, Z., Hou, L., Kaur, G., Qian, Y., Ow, D.W. 2016. Method for biolistic site-specific integration in rice and tobacco catalyzed by Bxb1 integrase. In: Methods Mol Biol. 1469: 15-30 (Chromosome and Genomic Engineering in Plants. Ed. M. Murata), Humana Press, (Book Chapter) .

B37. Chen, W., Ow, D.W. 2016. Protocol for in vitro stacked molecules compatible with in vivo recombinase mediated gene stacking. In: Methods Mol Biol. 1469: 31-47 (Chromosome and Genomic Engineering in Plants. Ed. M. Murata), Humana Press, (Book Chapter).

B38. Ow, D.W. 2016. Life Box 6.2. Chance events shape a career. In: Plant Biotechnology and Genetics: Principles, Techniques and Applications Second Edition (C. Neal Stewart, Jr., ed.) Wiley and Sons, Hoboken, New Jersey, pp. 152-153.

 

 

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