Biomolecular Sciences Institute Centers & Institutes (Florida Board of Governors)
The Biomolecular Sciences Institute (BSI) is a multidisciplinary institute set up to promote and facilitate collaborative research in biomolecular science topics that represent areas of strength for FIU faculty members.
Overview
abbreviation
- BSI
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Affiliation
organization within
Research
administers grant
- 2nd Southern Genome Maintenance Conference
- A highly attractive biological insecticide trap (HABIT) to reduce Aedes mosquito populations
- Aptamer-Based, Exonuclease-Amplified, Colorimetric, Onsite Screening of Methylenedioxypyrovalerone (MDPV) and Mephedrone in Oral Fluid
- CAREER: Genetic and Molecular Mechanisms of Parasite Infection in Insects
- Collaboration for screening of Mycobacterium tuberculosis topoisomerase I inhibitors from DNA-Encoded Library at WuXi
- Computational and Biophysical Analysis of the Filovirus Matrix Protein System
- Computational modeling of lantibiotics interactions with lipid II and membrane
- Computer-aided design for improved lantibiotics
- Dealing with antibiotic resistance: antisense technology - novel compound synthesis
- Dehydration as a driver for hematophagy and viral transmission in mosquitoes
- Development of Multidimensional, Linear and Differential Ion Mobility MS Separations for Middle-Down Proteoforms
- Development of a DNA adductome database
- Dynamics and Interactions of Cytochrome P450 19A1
- Electro-optic adaptive eyeglass for correction of presbyopia
- Evaluation of antimicrobial polymer in Colgate formulations
- Fungal metabolites block malaria transmission
- HDR Institute: Geospatial Understanding through an Integrative Discovery Environment
- How can mosquitoes develop and reproduce in the complete absence of juvenile hormone?
- ID3, epigenetic reprogramming, and hyper-proilferative vascular remodeling
- Identifying Molecular Targets for Spatial Mosquito Repellent Design
- Identifying mosquito olfactory receptors for human odor by measuring mRNA expression levels
- Investigation of a Novel Treatment for Advanced Prostate Cancer
- Investigation of a Novel Treatment for Advanced Prostate Cancer
- Investigation of the role of phosphatidic acid metabolism in Filovirus budding
- Marburg Virus Prophylactic Medical Countermeasure
- Microbiome-based vector control
- Mycobacterium tuberculosis topoisomerase I: Interaction with DNA and inhibitor
- NST ERC: Nanosystems Engineering Research Center for Directed Multiscale Assembly of Cellular Metamaterials with Nanoscale Precision: CELL-MET
- Next generation mosquito control through technology-driven trap development and artificial intelligence guided detection of mosquito breeding habitats
- Novel Chemotherapeutic Treatment for Prostate Cancer
- Poly-conjugated oligomers for noninvasive functional protein delivery
- Rapid isolation of high-affinity DNA aptamers for small-molecule targets via nuclease-assisted SELEX
- Rapid, in-plant veterinary drug screening in animal carcasses using electrochemical aptamer-based sensors
- Role of miRNAs on the regulation of juvenile hormone synthesis in mosquitoes
- Southeastern Regional CoE in Vector-Borne Diseases: The Gateway Program
- Structure, Mechanism and Interactions of Type IA Topoisomerases
- Study of biomarkers in non-healing chronic wounds
- Targeting mosquito FREP1 protein for malaria control
- Targeting transcription-coupled DNA supercoiling for discovering antibiotics against bacterial DNA gyrase
- The impact of host diet on transmission of endosymbiotic Wolbachia bacteria
- The role of metabotropic glutamate receptor 1 signaling in leptomeningeal melanoma
- Transdisciplinary Training in Biomolecular and Biomedical Sciences
- Urinary DNA Adductomics for the Assessment of Exposure to Cancer Risk Factors