COVID-19 is an emerging, rapidly evolving situation.

Get the latest public health information from CDC: https://www.coronavirus.gov
Get the latest research information from NIH: https://www.nih.gov/coronavirus

Click to access mobile menu
Print
  • Share:
Skip Navigation LinksHome > Funding > ODS Research Portfolio > Grant Abstract

Grant Abstract: MacMillan: Overall; The Center for High-Throughput Functional Annotation of Natural Products (McMillan)

Grant Number: 5U41AT008718-03
PI Name: Macmillan
Project Title: MacMillan: Overall; The Center for High-Throughput Functional Annotation of Natural Products (McMillan)

Abstract: The Center for High-Throughput Functional Annotation of Natural Products unites the natural products chemistry, biological screening, data analytics and bioinformatic strengths of UTSW and UC Santa Cruz to generate a center for natural products research that can use innovative strategies to study the biological effects of botanicals and natural products. Assigning the mechanism of action to botanicals and natural products (mixtures and pure compounds) is a rate limiting challenge for their use and development as supplements and therapeutics. Botanicals and dietary supplements are a particular challenge, as these are often complex mixtures that can change in the constituents and concentration of individual compounds. To prosecute our goal of the chemical and biological characterization of botanicals and natural products with appropriate speed, breadth and precision, we are employing high innovative orthogonal cell-based high content phenotypic screening approaches to return bioactive molecules of interest together with information about their molecular targets. These platforms, cytological profiling (Roger Linington) and FUSION (John MacMillan and Michael White) have been demonstrated to work with complex mixtures as well as pure compounds. While both of these are high-throughput platforms that provide unique biological insight in their own right, combining the output through novel bioinformatic methods will allow us to probe natural products in greater detail. Our deliverables will be a data and data analytics pipeline that will help define the mechanism(s) of action of botanicals and natural products, tools to study synergistic and additive relationships and cellular/molecular fingerprints of botanicals and natural products. A vital component of this Center is the dissemination of data to the greater scientific community. A number of searchable, data driven website will be created to allow the scientific community access to the primary data.

Back to Grants Page