41. Cahoon E. B., Hall S. E., Ripp K. G. et al. Metabolic redesign of vitamin E

        biosynthesis in plants for tocotrienol production and increased antioxidant content //
        Nat. Biotechnol. – 2003. – 21. – P. 1082–1087.

  42. Chen Z., Young T. E., Ling J. et al. Increasing vitamin C content of plants through

        enhanced ascorbate recycling // Proc. Natl. Acad.Sci. USA. – 2003. – 100. – P.
        3525–3530.

  43. Shewmaker C. K., Sheehy J. A., Daley M. et al. Seed specific overexpression of

        phytoene synthase:increase in carotenoids and other metabolic effects // Plant J. –

        1999. – 20. – P. 401–412.
  44. Ducreux L. J. M., Morris W. L., Hedley P. E. Et al. Metabolic engineering of high

        carotenoid potato tubers containing enhanced levels of bcarotene and lutein // J.

        Exp. Bot. – 2005. – 56. – P. 81–89.
  45. Agius F., Gonzalez-Lamothe R., Caballero J. L. et al. Engineering increased vitamin

        C levels in plants by overexpression of a Dgalacturonic acid reductase // Nat.

        Biotechnol. – 2003. – 21. – P. 177–181.

  46. Rosati C., Aquilani R., Dharmapuri S. et al. Metabolic engineering of betacarotene
        and lycopene content in tomato fruit // Plant J. – 2000. – 24. – P. 413–419.

  47. Fraser P. D., Romer S., Kiano J. W. et al. Elevation of carotenoids in tomato by

        genetic manipulation // J. Sci. Food Agric. – 2001. – 81. – P. 822–827.