References:

Here listed are a selection of recent scientific papers in which the JIC Metabolite Services have made a significant contribution:-

Pseudomonas sax genes overcome aliphatic isothiocyanate-mediated non-host resistance in Arabidopsis.
Fan J., Crooks C., Creissen G., Hill L., Fairhurst S., Doerner P., Lamb C.(2011) Science 331 1185-1188

Phytoanticipins from banana (Musa acuminata cv. Grande Naine) plants, with antifungal activity against Mycosphaerella fijiensis, the causal agent of black Sigatoka.
Cruz-Cruz C. A., Ramírez-Tec G., García-Sosa K., Escalante-Erosa F., Hill L., Osbourn A. E., Peña-Rodríguez L. M.(2010) European Journal of Plant Pathology 126 459-463

Starch turnover in developing oilseed embryos.
Andriotis V. M. E., Pike M., Kular B., Rawsthorne S., Smith A. M.(2010) New Phytologist 187 791-804

Enhancement of plant metabolite fingerprinting by machine learning.
Scott I. M., Vermeer C. P., Liakata M., Corol D. I., Ward J. L., Lin W., Johnson H. E., Whitehead L., Kular B., Baker J. M., Walsh S., Dave A., Larson T. R., Graham I. A., Wang T. L., King R. D., Draper J., Beale M. H.(2010) Plant Physiology 153 1506-20

Sad3 and Sad4 are required for saponin biosynthesis and root development in oat.
Mylona, P., Owatworakit A., Papadopoulou K., Jenner H., Qin B., Findlay K., Hill L., Qi X., Bakht S., Melton R. & Osbourn A. (2008) Plant Cell 20 (201-212).

Plant gene clusters for natural products. Matabolic diversification - Independent assembly of operon-like gene clusters in different plants.
Field, B. & Osbourn, A. (2008) Science 320 5875 (543-547).