Agricultural crops are exposed to fungal diseases which are controlled by synthetic and biological fungicides. The focal point of the potential project is the cuticle of agricultural crops, which serves as the initial point of contact between fungal pathogens and the fungicide. The interaction between an active ingredient and the cuticle is believed to have an impact on the effectiveness and duration of disease control. We aim to increase our understanding of the following two key aspects.
How the composition (e.g., waxes, cutin) and structure (e.g., thickness, porosity) of plant cuticles influence the behavior/ kinetics of fungicide compounds on and in the plant.
The behavior of fungicides on the cuticle such as binding, accumulation, transport and metabolism of fungicides (ADME, i.e. absorption, distribution, metabolism and excretion) after being sprayed on plants.
What we're looking for
We are looking to advance our understanding of how plant cuticles interact with fungicides and influence their behavior. We seek support from your expertise in plant physiology, plant biochemistry/ lipid biosynthesis, analytics (LC, GC MS) with a scientific focus or interest in the cuticle of terrestrial plants or in applied agricultural research. We are keen on developing, implementing, and utilizing methods and techniques at both laboratory and greenhouse scales. Our primary interest lies in agricultural crops, particularly wheat and soybean, but we are open to incorporating findings from non-agricultural crops as well.
Solutions of interest include:
Methods to assess lipophilic molecule transport in soybean & wheat cuticles
3D-structural modeling of the cuticle
Experimental approaches to observe/analyze transport processes in the cuticle/epidermis of plants
Predictive models to evaluate fungicide kinetics and cuticle behavior
Our must-have requirements are:
Understanding of plant biochemistry, role and functionality of long chain fatty acids (LCFA) and other components of the plant cuticle/epidermis
Access to suitable imaging techniques for analyzing plant parts
Our nice-to-have's are:
ADME (adsorption, distribution, metabolization and excretion) uptake studies using agricultural plants (transfer from model plants to crops should be feasible)
Plant cuticle research (analytics, components, functionality) and data on transport processes of small molecules in plants
Leverages analytical techniques (e.g., GC, LC-MS)
Acceptable technology readiness levels (TRL):
Levels 1-5
What we can offer you
Eligible partnership models:
Co-development
Sponsored research
Benefits:
Sponsored Research
Funding is proposal dependent, up to $100-150K total for up to 12 months.
Expertise
Partners will have access to internal team/experts as appropriate.
Facilities and Services
Partners can send samples for analysis to our facilities.
Reviewers
LJ
Lauren Junker
Technology Scout
TH
Tom Holcombe
Collaboration & Scouting NA
EI
Emir Islamovic
Innovation and Partnership Manager
KB
Kavita Bitra
Technology scout
SS
Sophia Steffens
Innovation & Scouting
Q&A with BASF
The Q&A is now closed.
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Q.
Is BASF interested in understanding the role of contact or systemic fungicides on plant cuticle?
We have an LC-MS set up to analyze plant cuticles and are currently working on understanding apple fruit cuticle response to water and fungicides. Considering we are working on apples, is it competitive for this grant?