AP1: Exploiting Microbial Diversity for Natural Product Discovery Project Summary/Abstract The primary objective of the proposed research is to discover new, small molecule drug candidates from marine microorganisms cultured from Fiji and the Solomon Islands. This objective will be facilitated through the continued development of a productive microbial drug discovery program at the University of the South Pacific. Bioassays targeting cancer, infectious disease, neurological disorders, and neglected tropical diseases will be used to guide the isolation of compounds relevant to these targets. The structures of new compounds will be solved using modern spectral analyses and produced in sufficient quantities for effective pre-clinical evaluation. The research will target chemically rich microbial taxa including the marine actinomycete genus Salinispora and explore the relationships between biotic diversity and natural product discovery. The research benefits from a wealth of genome sequence data that has been acquired through the Joint Genome Institutes Community Sequencing Program. Bioinformatic analyses will be used to prioritize strains for chemical evaluation and to establish relationships between secondary metabolite biosynthetic potential, taxonomy, and the habitats and locations from which the stains originate. This information will be used to develop more effective sampling strategies and to provide new insight into the extant biosynthetic potential of marine bacteria and the evolutionary processes that generate structural diversity. Genome mining approaches will be used to link molecules to the pathways responsible for their production and to facilitate discovery and de-replication. The web-based tool NaPDoS (Natural Product Domain Seeker), which simplifies the analysis of genes involved with secondary metabolite biosynthesis, will be further developed to include additional pathway types and reference sequences. New cultivation methods will be developed that mimic natural conditions and provide ecologically relevant stimuli in an effort to induce secondary metabolite production. These studies will be coupled with transcriptome analyses, which will be used to determine the effects of culture conditions on biosynthetic gene expression. Highly sensitive methods in mass spectrometry will be used to better visual the secondary metabolome and generate networks that can be used to recognize new molecules, de-replicate known compounds, and search for correlations between geographic origin, phylogeny, and secondary metabolite production. Extensive post-doctoral, graduate, and undergraduate training will be provided throughout the program including training for host country scientists. Ultimately, this program aims to develop improved methods for natural product discovery and apply these approaches to the microbial resources in Fiji and the Solomon Islands in an effort to discover new drug candidates to treat diseases relevant to the US and the host nations.

Agency
National Institute of Health (NIH)
Institute
Fogarty International Center (FIC)
Type
Research Program--Cooperative Agreements (U19)
Project #
5U19TW007401-12
Application #
9122518
Study Section
Special Emphasis Panel (ZRG1-BCMB-H)
Project Start
Project End
Budget Start
2016-08-01
Budget End
2017-07-31
Support Year
12
Fiscal Year
2016
Total Cost
$168,169
Indirect Cost
$60,299
Name
Georgia Institute of Technology
Department
Type
DUNS #
097394084
City
Atlanta
State
GA
Country
United States
Zip Code
30318
Beatty, Deanna S; Clements, Cody S; Stewart, Frank J et al. (2018) Intergenerational effects of macroalgae on a reef coral: major declines in larval survival but subtle changes in microbiomes. Mar Ecol Prog Ser 589:97-114
Chhetri, Bhuwan Khatri; Lavoie, Serge; Sweeney-Jones, Anne Marie et al. (2018) Recent trends in the structural revision of natural products. Nat Prod Rep 35:514-531
Clements, Cody S; Rasher, Douglas B; Hoey, Andrew S et al. (2018) Spatial and temporal limits of coral-macroalgal competition: the negative impacts of macroalgal density, proximity, and history of contact. Mar Ecol Prog Ser 586:11-20
Clements, Cody S; Hay, Mark E (2018) Overlooked coral predators suppress foundation species as reefs degrade. Ecol Appl 28:1673-1682
Bonaldo, Roberta M; Pires, Mathias M; GuimarĂ£es Junior, Paulo Roberto et al. (2017) Small Marine Protected Areas in Fiji Provide Refuge for Reef Fish Assemblages, Feeding Groups, and Corals. PLoS One 12:e0170638
Patin, Nastassia V; Schorn, Michelle; Aguinaldo, Kristen et al. (2017) Effects of Actinomycete Secondary Metabolites on Sediment Microbial Communities. Appl Environ Microbiol 83:
Amos, Gregory C A; Awakawa, Takayoshi; Tuttle, Robert N et al. (2017) Comparative transcriptomics as a guide to natural product discovery and biosynthetic gene cluster functionality. Proc Natl Acad Sci U S A 114:E11121-E11130
Asolkar, Ratnakar N; Singh, Ahilya; Jensen, Paul R et al. (2017) Marinocyanins, cytotoxic bromo-phenazinone meroterpenoids from a marine bacterium from the streptomycete clade MAR4. Tetrahedron 73:2234-2241
Rasher, Douglas B; Hoey, Andrew S; Hay, Mark E (2017) Cascading predator effects in a Fijian coral reef ecosystem. Sci Rep 7:15684
Machado, Henrique; Tuttle, Robert N; Jensen, Paul R (2017) Omics-based natural product discovery and the lexicon of genome mining. Curr Opin Microbiol 39:136-142

Showing the most recent 10 out of 69 publications