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Plant genomes

Henikoff, S., Till, B.J., and Comai, L., TILLING traditional mutagenesis meets functional genomics. Plant Physiol. 135, 630, 2004. [Pg.387]

Rodriguez-Concepcion, M. and Boronat, A., Elncidation of the methylerythritol phosphate pathway for isoprenoid biosynthesis in hacteria and plastids a metabolic milestone achieved throngh genomics. Plant Physiol. 130, 1079, 2002. Rodriguez-Concepcion, M., Early steps in isoprenoid biosynthesis multilevel regulation of the supply of common precursors in plant cells, Phytochem. Rev. 5, 1, 2006. Eisenreich, W., Rohdich, F., and Bacher, A., Deoxyxylulose phosphate pathway to terpenoids, Trends Plant Sci. 6, 78, 2001. [Pg.389]

Albert, H., Dale, E.C., Lee, E., and Ow, D.W. (1995) Site-specific integration of DNA into wild-type and mutant lox sites placed in the plant genome. Plant J. 7, 649-659. [Pg.75]

Grossman, A. (2005). Paths toward algal genomics. Plant Physiol. 137, 410—427. [Pg.1618]

Rodriguez-Concepcion M. and A. Boronat Elucidation of the methylerythritol phosphate pathway for isoprenoid biosynthesis in bacteria and plastids. A metabolic milestone achieved through genomics. Plant Physiol. 130(2002) 1079-1089. [Pg.278]

McCallum, C.M., L. Comai, E.A. Greene, and S. Henikoff. 2000. Targeting induced local lesions in genomes (TILLING) for plant functional genomics. Plant Physiol. 123 439M42. [Pg.17]

Kohler, F., Cardon, G., Pohlman, M., Gill, R., Schider, O. 1989. Enhancement of transformation rates in higher plants by low-dose irradiation are DNA repair systems involved in incorporation of exogenous DNA into the plant genome Plant Mol Biol 12 189-199. [Pg.110]

Sandhu D. and Gill K.S. (2002). Gene-containing regions of wheat and the other grass genomes. Plant Physiol. 128 803-811... [Pg.425]

Stoebe B, Martin W, Kowallik KV. Distribution and nomenclature of protein-coding genes in 12 sequenced chloroplast genomes. Plant Mol Biol Rep 1998 16 243-255. [Pg.71]

Reith M, Munholland J. Complete nucleotide sequence of the Porphyra purpurea chloroplast genome. Plant Mol Biol Rep 1995 13 333-335. [Pg.72]

Grobbelaar, J.U. 2004. Algal biotechnology Real opportunities for Africa. S. Afr. J. Bot. 70, 140-144. Grossman, A.R. 2005. Paths toward algal genomics. Plant Physiol. 137, 410-427. [Pg.286]

Meyers B.C., Morgante M., and Michelmore R.W 2002. TIR-X and TIR-NBS proteins Two new families related to disease resistance TTR-NBS-LRR proteins encoded in Arabidopsis and other plant genomes. Plant J 32 77-92. [Pg.81]

Terada, R. et al. (2007) Gene targeting by homologous recombination as a biotechnological tool for rice functional genomics. Plant Physiol. 144, 846-856... [Pg.464]

Miyao, A., Tanaka, K., Murata, K., Sawaki, H., Takeda, S., Abe, K., Shinozuka, Y, Onosato, K., and Hirochika, H. 2003. Target site specificity of the Tosl 7 retrotransposon shows a preference for insertion within genes and against insertion in retrotransposon-rich regions of the genome. Plant Cell 15 1771-1780. [Pg.500]

Barker, G.C., Larson, T.R., Graham, I.A., Lynn, J.R. and King, G.J. 2007. Novel insights into seed fatty acid synthesis and modihcation pathways from genetic diversity and quantitative trait loci analysis of the Brassica C genome. Plant Physiol. 144 1827-1842. [Pg.116]

Stacey, G., Vodkin, L., Parrott, W.A., Shoemaker, R.C., 2004. National science foundation-sponsored workshop report draft plan for soybean genomics. Plant Physiol. 135, 59-70. [Pg.411]


See other pages where Plant genomes is mentioned: [Pg.131]    [Pg.1163]    [Pg.17]    [Pg.892]    [Pg.11]    [Pg.331]   
See also in sourсe #XX -- [ Pg.219 ]




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