TECHNOLOGY LICENSING OPPORTUNITY: Bacterial Lipid Nanodiscs Platform
Energy, Department of · ENERGY, DEPARTMENT OF
- Response deadline
- Dec 14, 2026, 7:00 PM EST
- Posted
- Jun 14, 2026
- Solicitation
- S-191192
- Set-aside
- No Set aside used
- Place of performance
- Los Alamos, NM, USA
- Contracting office
- TRIAD - DOE CONTRACTOR · Columbus · OH
- Source
- SAM.gov · updated Jun 15, 2026
Description
The Bacterial Lipid Nanodiscs Platform developed by Los Alamos National Laboratory provides a new way to study entire bacterial membranes in a controlled, nanoscale format derived directly from native lipid extracts. Researchers gain access to membrane components that typically remain difficult to isolate, stabilize or analyze, enabling more accurate evaluation of immunogenic lipids and membrane?associated targets. The platform offers a safer alternative to handling live high?risk pathogens while preserving the biological context that drives meaningful insights for vaccine design and antimicrobial discovery such as therapeutic antibodies to conserved lipids on bacterial membranes. How it Works The Bacterial Lipid Nanodiscs Platform creates uniform nanoscale discs from total lipid extracts harvested from bacterial membranes. Membrane scaffold protein MSP1D1 encases the lipid mixture and forms a stable disc roughly 10 nanometers wide. The resulting particles retain the full complement of native bacterial lipids, arranged in a membrane?like environment that supports realistic biological interactions without requiring synthetic lipids or live cells. Technical Description The method adapts established nanodisc assembly techniques to incorporate entire bacterial lipid extracts rather than defined synthetic lipid mixtures. Total lipids from a pathogen are solubilized, combined with MSP1D1 and dialyzed under controlled conditions to allow the scaffold protein to form a discoidal structure around the heterogeneous lipid population. The process yields nanoparticles that represent the membrane environment of the source organism, including amphiphilic molecules that typically resist purification or structural study when isolated from their native context. The approach was demonstrated using Yersinia pestis, chosen to illustrate how membrane characterization can proceed without the hazards associated with live Tier 1 pathogens. The method captures lipopolysaccharides (LPS) and diverse immunogenic lipids in an arrangement that mirrors their natural organization. Researchers can evaluate binding interactions, immune?stimulating properties and potential antigenic targets in a stable platform that avoids the limitations of outer membrane vesicle purification. Furthermore, using this platform we have identified antibodies specific to E. coli LPS and Y. pestis membrane lipids. These antibodies are independently licensable. Advantages � Provides membrane?like structures using native bacterial lipids � Avoids the safety challenges of handling live pathogens � Offers a broader and more realistic lipid environment than synthetic nanodiscs � Enables improved assessment of membrane antigens and immune responses � Supports analysis of diverse bacterial species using a unified workflow � Creates consistent nanoscale particles suitable for research and development settings Market Applications � Life Sciences Research (membrane biology, immunology) � Vaccine Development (bacterial antigen discovery) � Drug Discovery (membrane?associated targets) � Diagnostics (lipid biomarker exploration) � Biodefense Research (safe pathogen characterization) Development Status: TRL 3 U.S. Patent pending LA-UR-26-24920 LANL Tech Partnerships: Unlock the Innovative Potential Los Alamos National Laboratory offers a wide range of cutting-edge technologies and capabilities that may provide your company with a competitive edge in the market and unlock the innovative potential that can enhance, refine, and revolutionize your products. LANL�s licensing program focuses on moving inventions developed by our researchers to commercial innovations. Patented and patent pending inventions and copyrighted software are available to existing and start-up companies through exclusive and non-exclusive licensing agreements. For specific discussions, please contact licensing@lanl.gov. Note: This is not a call for external services for the development of this technology. https://www.lanl.gov/engage/collaboration/feynman-center/partner-with-us/licensing-technology m.lanl.gov/tech-search
What similar awards have paid
Real federal awards already on the books in a similar lane — so you can size the opportunity, not guess. This is public history, not a bid price, cost estimate, or prediction that you will win.
Typical award size
$178,003
Middle of the pack for similar past awards
Most similar awards fall between $59,962 and $500,000
Who has won work like this
Public awardees in this lane — useful for competitor scan or teaming ideas, not a ranked list of “best” firms.
- 1REGENTS OF THE UNIVERSITY OF CALIFORNIA, THE1 award$77.49M
- 2THE REGENTS OF THE UNIVERSITY OF COLORADO1 award$36.31M
- 3UNIVERSITY OF ALASKA FAIRBANKS1 award$34.90M
- 4AUBURN UNIVERSITY1 award$21.85M
- 5ANALYTICAL MECHANICS ASSOCIATES, INC.8 awards$18.85M
- 7GENESIS ENGINEERING SOLUTIONS, INC.1 award$8.90M
- 8MISSISSIPPI STATE UNIVERSITY2 awards$8.32M
Recent examples
A few of the newest similar awards in our index.
- CONSOLIDATED SAFETY SERVICES INCORPORATEDSep 30, 2025Environmental Protection Agency$407,009Source
- ROCHESTER INSTITUTE OF TECHNOLOGYSep 30, 2025Department of Health and Human Services$4.51MSource
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- CHARLES RIVER LABORATORIES, INC.Sep 29, 2025Department of Health and Human Services$374,769Source
- RESEARCH TRIANGLE INSTITUTESep 29, 2025Environmental Protection Agency$1.06MSource
- CHARLES RIVER LABORATORIES, INC.Sep 29, 2025Department of Health and Human Services$296,136Source
Drawn from official USAspending contract records in our index. Always confirm requirements on the SAM.gov notice before you bid.
Intelligence only — not legal advice or a guarantee of award. Always verify requirements on the official SAM.gov notice. Past award amounts are public history, not a suggested bid or prediction. Notice ID ea9c93c2cf62484ea00df94e9a665890.