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Brassica carinata

Brassica Chinensis (Chinese Cabbage) Brassica Carinata (TAMU-Tex Sci) Cassava C Alfalfad Barleya... [Pg.232]

The oleosin fusion procedure was used for the purification of the commercially valuable plant-based blood anticoagulant hirudin in transgenic Brassica carinata and Brassica napus. Hirudin, a natural protein from the medicinal leech Hirudo medicinalis, is superior to other anticoagulants such as heparin. Recombinant hirudin was cleaved from oil-bodies using endoproteinase Factor Xa. Released hirudin was biologically active, as determined by a colorimetric thrombin inhibition assay. [Pg.43]

CHAPPLE, C.C.S., GLOVER, J.R., ELLIS, B.E., Purification and characterization of methionine-glyoxylate aminotransferase from Brassica carinata and Brassica napus.. Plant Physiol, 1990,94,1887-1896. [Pg.36]

Impallomeni, G., Ballistreri, A., Camemolla, G.M. et al. (2011) Synthesis and characterization of poly(3-hydroxyaUtanoates) from Brassica carinata oil with high content of emcic acid and from very long chain fatty acids. International Journal of Biological Macromolecules, 48(1), 137-145. [Pg.134]

Pedroche, J., Yust, M.., Lqari, H., Gir6n-Calle, J., Alaiz, M., Vioque, J., and Millan, F. 2004. Brassica carinata protein isolates chemical composition, protein characterization and improvement of functional properties by protein hydrolysis. Food Chemistry, 88(3), 337—346. doi 10.1016/j.foodchem.2004.01.045. [Pg.679]

Mustard, which is made from the seeds of certain plants of the mustard family (Cruciferae), is the leading spice in worldwide usage. The four species of mustard seeds used for this purpose are (1) white mustard (SInapIs alba), (2) brown mustard (BrassicaJuncea), (3) black mustard (Brassica nigra), and (4) Ethiopian mustard (Brassica carinata). It is noteworthy that brown mustard, which is also called Indian mustard, may also be grown for its green leaves rather than for its seeds. [Pg.761]

Velasco, L., Nabloussi, A., De Haro, A. and Eemandez-Martmez, J.M. 2003. Development of high-oleic, low-Unolenic acid Ethiopian-mustard (Brassica carinata) germplasm. Theor. Appl. Genet. 107 823-830. [Pg.122]

Bouaid, A., Martinez, M. and Aracil, J. 2009. Production of biodiesel from bioethanol and Brassica carinata oil Oxidation stability study. Biores. Technol. 100 2234-2239. [Pg.240]

Cardone, M., Mazzoncini, M., Menini, S., Rocco, V, Senatore, A., Seggiani, M. and Vitolo, S. 2003. Brassica carinata as an alternative oil crop for the production of biodiesel in Italy Agronomic evalution, fuel production by transesterification and characterization. Biomass Bioenergy. 25 623-636. [Pg.240]

Brassica carinata as a Platform Crop for Producing Industrial Oils... [Pg.138]

TABLE 5.2 Comparison of ASTM D7566, JP-8 and Military Grade 83,133C Jet Fuel Specifications With ARA Readijet and UOP Honeywell Creenjet Produced From Agrisoma Resonance Brassica carinata Feedstock ... [Pg.143]

Spec Test/Parameter MIL-DTL3133G Spec Ref Petroleum JP-8 ARA Readijet From Brassica carinata UOP Honeywell Green Jet From Brassica carinata ... [Pg.143]

TABLE 5.3 Comparison of ASTM D975 Diesel Fuel Specifications with ARA ReadiDiesel Produced from Agrisoma Resonance Brassica carinata. Feedstock... [Pg.144]

A B. carinata crop platform can meet or exceed many of the targets for sustainable agriculture for the Canadian Prairies (Taylor et al., 2010a). It is well suited to the drier southern regions of Western Canada, and the addition of this new crop platform adds genetic diversity. Brassica carinata requires fewer inputs due to natural resistance to drought and blackleg it is more robust in its... [Pg.144]

Alemayehu, N., Becker, H., 2002. Genotypic diversity and patterns of variation in a germplasm material of Ethiopian mustard (Brassica carinata A. Braun). Genet. Resour. Crop Evol. 49, 573-582. [Pg.146]

Ealk, K.C., 1999. Develr ment of early maturing Brassica carinata for western Canada. In 10th International Rapeseed Congress, Canberra, Australia, September 26-29. http //www.regional. org.au/au/gcirc/4/lOOJitm. [Pg.148]

Irtelli, B., Navari-Izzo, R, 2008. Uptake kinetics of different arsenic species by Brassica carinata. Plant Soil 303, 105-113. [Pg.149]

Irtelli, B., Peprucci, W.A., Navari-lzzo, F., 2009. Nicotianamine and histidine/proline are, respectively, the most important copper chelators in xylem sap of Brassica carinata under conditions of copper deficiency and excess. J. Exp. Bot. 60, 269—277. [Pg.149]

Jadhav, A., Katavic, V., Marillia, E.-R, GibUn, E.M., Barton, D.L., Kumar, A., Sonntag, C., Babic, V., Keller, W.A., Taylor, D.C., 2005. Increased levels of erucic add in Brassica carinata by cosuppression and antisense repression of the endogenous FAD2 gene. Metab. Eng. 7,215-220. [Pg.149]

M rquez-Lema, A., Fernandez-Martinez, J.M., Perez-Vich, B., Velasco, L., 2008. Development and characterisation of a Brassica carinata inbred line incorporating genes for low glucosinolate content from B. juncea. Euphytica 164, 365-375. [Pg.151]

Pedroche, J., Yust, M.M., Lqari, H., Megias, C., Giron-Calle, J., AlaizVioque, J., Millan, E, 2007. Obtaining of Brassica carinata protein hydrolysates enriched in bioactive peptides using immobilized digestive proteases. Food Res. Int. 40, 931-938. [Pg.152]

Ripley, V.L., Ealk, K., Roslinski, V., 2006. Genetic diversity of Brassica carinata pt ulations selected for improved seed quality. Acta Hortic. 706, 135-140. [Pg.153]

Taylor, D.C., 2010. New very long-chain fatty acid seed oils produced through introduction of strategic genes into Brassica carinata. INFORM 21, 602-605. [Pg.155]

Warwick, S.I., Gugel, R.K., McDonald, B., Falk, K.C., 2006. Genetic variation and agronomic potential of Ethiopian mustard (Brassica carinata Pi- Braun) in western Canada. Genet. Resour. [Pg.156]

There have been many studies on Brassica tissue culture and regeneration, and these protocols have been widely used for the improvement of the oilseed flrax-sica crops (MoUika et al., 2011 Rani et al., 2013). Efficient isolated microspore culture protocols are available for most of the Brassica species Brassica napus, Brassica rapa, Brassica juncea (Ferrie, 2003), and Brassica carinata (Barro and Martin, 1999 Ferrie, 2003). However improvements in these protocols are continually being made as there are significant genotype differences. Additives... [Pg.362]

Brassica carinata EMS Modification in erucic acid levels Barro et al. (2001)... [Pg.364]

Batro, F., Fernandez-Escobar, J., De la Vega, M., MarUn, A., 2001. Doubled haploid lines of Brassica carinata with modified erude acid content through mutagenesis by EMS treatment of isolated microspores. Plant Breed. 120, 262-264. [Pg.372]

Batro, R, Martin, A., 1999. Response of different genotypes of Brassica carinata to microspore culture. Plant Breed. 118, 79-81. [Pg.372]

See other pages where Brassica carinata is mentioned: [Pg.839]    [Pg.25]    [Pg.36]    [Pg.170]    [Pg.177]    [Pg.120]    [Pg.220]    [Pg.221]    [Pg.232]    [Pg.235]    [Pg.114]    [Pg.114]    [Pg.141]    [Pg.145]    [Pg.152]    [Pg.155]    [Pg.365]   
See also in sourсe #XX -- [ Pg.3 ]

See also in sourсe #XX -- [ Pg.138 , Pg.365 ]



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