Page 725 - e-Book
P. 725

Nwokocha A., Blessing I.O., Agbagwa and Okoli B.E. (2011) Comparative phytochemical

                     screening of Jatropha L. species in Niger Delta, ISSN 1819-3471.
               Ohlrogge  J.  and  Browse  J.  (1995) Lipid  biosynthesis. Plant  Cell, 7:957–970. [PMC  free

                     article] [PubMed].
               Robert X. and Gouet P. (2014) Deciphering key features in protein structures with the new

                     ENDscript server. Nucl. Acids Res., 42(W1):W320–W324.
               Sequeira et al., (2009) Antibacterial and antifungal activity of extracts and exudates of the

                     Amazonian  medicinal  tree  Himatanthus  articulate  (Vahl)  Woodson  (common  name:

                     Sucuba). Mem. Inst. Oswaldo Cruz., 104:659-661.
               Sharma  A.  and  Chauhan  R.  (2012)  In  Silico  Identification  and  comparative  genomics  of

                     candidate genes involved in biosynthesis and accumulation of seed oil in plants. Article

                     ID 914843, 14 p. doi:10.1155/2012/914843.
               Tamura  et  al.,  (2013) Tam41  is  a  CDP-Diacylglycerol  synthase  required  for  cardiolipin

                     biosynthesis in mitochondria. Cell Metab. 17(5):709–718.
               Upadhyay K. (2011) Plant latex: a natural source of pharmaceuticals and pesticides. Int. J.

                     Green Pharm., 5:169–180.
               William H. (1975a) Official Methods of Analysis of AOAC. Association of Official Analytical

                     Chemists Washington, 12th ed, p 488.

               William H. (1975b) Official Methods of Analysis of AOAC. Association of Official Analytical
                     Chemists Washington, 12th ed, p 490.

               www.ebi.ac.uk/tools/sss/ncbiblast
               Yagami T., et al., (1998) Plant defense-related enzymes as latex antigens. J. Allergy Clin.

                     Immunol., 101:379–385.
               Zhang M., Fan J., Taylor D., Ohlrogge J. (2009) DGAT1 and PDAT1 acyltransferases have

                     overlapping functions in Arabidopsis triacylglycerol biosynthesis and are essential for

                     normal  pollen  and  seed  development.  Plant  Cell, 21:3885–3901. [PMC  free
                     article] [PubMed]

               Zhang Y., Yang F. and Xu Y.N. (2005) Silencing of DGAT1 in tobacco causes a reduction in

                     seed oil content. Plant Sci., 169: 689–694.
               Zheng  et  al.,  (2008)  A  phenylalanine  in  DGAT  is  a  key  determinant  of  oil  content  and

                     composition in maize. Nat. Genet., 40(3): 367–372.
               Ruffing (2013). Liquid, Gaseous and Solid Biofuels - Conversion Techniques.8:263-298.








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