267-5 L-Dopa Accumulation in Various Parts of Fava Beans at Different Stages of Growth Under Normal and Drought Stress Conditions.

See more from this Division: C09 Biomedical, Health-Beneficial & Nutritionally Enhanced Plants
See more from this Session: Biomedical, Health-Beneficial & Nutritionally Enhanced Plants: I

Tuesday, November 17, 2015: 2:35 PM
Hilton Minneapolis, Marquette Ballroom IX

Fatemeh Etemadi, Massachusetts, University of Massachusetts-Amherst, Amherst, MA, Masoud Hashemi, Stockbridge School of Agriculture, University of Massachusetts Amherst, Amherst, MA, Baoshan Xing, Stockbridge School of Agriculture, University of Massachusetts-Amherst, Amherst, MA and Hamid Mashayekhi, University of Massachusetts Amherst, Amherst, MA
Abstract:
L-Dopa has been shown to be an effective drug for the treatment of Parkinson’s disease. Synthetic L-Dopa is relatively expensive and some side-effects have been reported associated with artificial products. Fava beans is known as a rich natural sources of L-Dopa and clinical studies have shown that its anti-Parkinson’s characteristics has no or minimal side-effects compared with synthetic forms.

Concentration of L-Dopa is often measured in seeds while other parts of plants may accumulate significant amounts of this chemical. The accumulation of L-Dopa in different plant organs of fava beans was studied in the field and controlled environment. In field condition, Windsor which is currently the common fava beans variety used in New England, was planted on April 2013. Fava beans were harvested at six-leaf stage and when pods were fully grown.  Plant parts were digested separately and analyzed for L-Dopa concentration using HPLC. The contents of L-Dopa in plant parts were in the following order;

seedlings > leaves > terminal buds > seeds > roots > stems with 13.3, 10.5, 9.5, 7.2, 6.5, 3.5 mg g-1, respectively.  Accumulation of L-Dopa from germination until 10-leaf stage in eight varieties of fava beans was studied in greenhouse. All varieties had their peak concentration of L-Dopa between 2-4 leaf stages followed by a declining trend. Delle Cascine and Bell bean varieties had the most and the least concentrations of L-Dopa by 10.89 and 7.56 mg g-1 respectively. However, L-Dopa yield is a function of its concentration and dry matter yield. The highest L-Dopa yield obtained at flowering stage. Results from an experiment conducted in controlled environment revealed that accumulation of L-Dopa in mild and severe drought stress was not significantly different than those kept at field capacity. This result suggests that L-Dopa synthesis is not a defensive mechanism to water stress.

Key words: Faba bean, L-Dopa, Growing stages, HPLC.

See more from this Division: C09 Biomedical, Health-Beneficial & Nutritionally Enhanced Plants
See more from this Session: Biomedical, Health-Beneficial & Nutritionally Enhanced Plants: I