Team:UNSW Australia/Lab/Plants
Plants
Overview
Auxins are plant hormones which are involved in the regulation of plant growth and development. The biosynthesis of the auxin indole-3-aecetic acid (IAA) was used as a test pathway for our scaffold system, thus a protocol was developed to investigate the functionality of biosynthetically produced IAA in a plant growth assay compared to commercially available IAA. Arabidopsis thaliana seedlings were grown in media containing varying concentrations of IAA, to observe its effect on growth and development. Reduced primary root growth and high lateral root number was observed at higher concentrations of IAA, exhibiting phenotypes common with a stress induced morphology. These results, in addition to comments made by PlantBank researchers who had found that addition of exogenous IAA showed no benefit, indicated that IAA synthesis was not an appropriate pathway to purse for commercialisation with our scaffold. Despite this, the UNSW iGEM team was able to develop a protocol that could be used in the future to observe the functionality of the IAA product produced with our scaffold compared with commercially available IAA.
Introduction
Auxins are plant hormones (phytohormones) which are involved in the regulation of plant growth and development 1. Indole acetic acid (IAA) is the most widely characterised auxin, and the primary auxin found in most plant species2. It is associated with many physiological processes in plants including cell elongation, cell division, tropisms to light and gravity, and root initiation and development1.
Plants can naturally synthesise auxins, and the biosynthesis of IAA in A. thaliana occurs predominantly through a tryptophan dependent pathway13. Bacteria can also synthesise IAA through a variety of pathways, and often utilise IAA to interact with and colonise plants4. To test our scaffold system with a proof of concept, we chose the two-step indole-3-acetamide pathway for IAA biosynthesis, the best characterised IAA biosynthetic pathway in bacteria4.
Although plants can synthesise IAA de novo, application of exogenous phytohormones is common in industry to stimulate specific responses5. Thus auxins, and phytohormones more broadly, have commercial significance. In order to understand the commercial significance of IAA we consulted with real world users of auxins (link to journal page) and conducted experiments with the model plant A. thaliana to observe the effect of IAA on plant development.
Aims
To observe the effect of the auxin indole-3-aecetic acid on Arabidopsis thaliana growth and development.