



- Director Javier Read de Alaniz, a UCSB professor of chemistry and biochemistry and associate director of CNSI at UCSB.
- Co-director Heather Maynard, UCLA’s Dr. Myung Ki Hong Professor in Polymer Science and associate director of CNSI at UCLA.
- Executive director Tal Margalith, executive director of technology at CNSI at UCSB.
- UCLA site executive director Adam Stieg, associate director of CNSI at UCLA.
The BioPACIFIC MIP’s senior faculty from UCLA are members of the chemistry and biochemistry department in the UCLA College and of the departments of chemical and biomolecular engineering and of bioengineering in the UCLA Samueli School of Engineering.
Supporting innovative programs, facilities and education
The BioPACIFIC MIP includes 13 senior faculty from UCSB and seven from UCLA, supported by seven scientific staff across both campuses. The project also aims to engage a broad swath of students and researchers, not only from the two campuses but nationwide, providing them with the tools, samples, data, software and knowledge to advance investigations into the creation of biobased polymers.
“The CNSIs at UCLA and UCSB were established as two nodes of the same entity,” said Maynard, who is also a UCLA professor of chemistry and biochemistry. “I see [the BioPACIFIC MIP] as a perfect partnership, because we have complementary characterization tools and complementary expertise, and when we put them together, we can make a user facility that will be unprecedented in the science it will enable and the services it will provide.”
The project is envisioned as a scientific system comprising every aspect of developing biobased polymers: design and discovery, building, testing, and learning, with built-in feedback loops.
“This partnership applies unique strengths at UCLA and UCSB to address a problem with broad societal impact,” said Jeff F. Miller, UCLA’s Fred Kavli Professor of NanoSystems Sciences and the director of the CNSI at UCLA. “The team behind the BioPACIFIC MIP has set an ambitious goal — producing advanced, biologically based plastics — that will benefit from our campus’s excellence in developing new polymers, engineering materials from microbes and implementing cutting-edge analytical techniques.”
One of the aims of the BioPACIFIC MIP is to identify microorganisms that can be used as living bioreactors — like tiny biological factories — to generate the building blocks of new plastics with properties that are superior to existing petroleum-based polymers. Experts in biosynthesis will explore new techniques for inducing yeast, fungi and bacteria to produce these building blocks, seeking to improve efficiency and increase yield, and open up new possibilities for designing biobased plastics. These synthetic biologists will work closely with experts in polymerization technology, the analysis of materials, polymer physics and computer simulation.
“People have been wanting to move toward sustainable, biobased polymer materials, but it’s really challenging to move away from petroleum-based ones, which we already know how to engineer into high-performance materials,” Read de Alaniz said. “The holy grail question is, ‘How do we engineer high-performance biobased materials?’ That hasn’t been identified yet. That is our goal.”
The broad-based skills of the BioPACIFIC MIP’s core faculty will be coupled with an automated high-throughput living bioreactor platform and robotic automation, allowing for the rapid preparation of libraries of biobased polymers. The endeavor also will provide outside researchers with access to the robust facilities at UCLA and UCSB, both of which house state-of-the-art tools for fabricating devices, profiling the characteristics of materials and screening molecules for their biochemical activity.
“Providing outside users with the instruments for discovery and innovation — as well as the guidance they need to use those instruments — is a crucial function of the BioPACIFIC MIP,” Stieg said. “Extending access to newly invented tools and state-of-the-art facilities means extending the opportunities for creativity. We’re excited to see the new ground that will be broken in biobased polymers.”
One other important component of the BioPACIFIC MIP is its plan to prepare the next generation of scientists and engineers in interdisciplinary biomaterials discovery and high-throughput experimentation. A focus on outreach and fellowships will bring graduate students and postdoctoral scholars into BioPACIFIC MIP facilities to receive training and help drive investigations.
The project’s organizers will engage young researchers who represent the diversity seen in California. Fellows will have access to a cluster of educational offerings and mentorship opportunities. A weeklong summer session led by experts from industry, academia and national laboratories will provide guidance to fellows, facility users, and undergraduate and graduate students.
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Penny Jennings, UCLA Department of Chemistry & Biochemistry, penny@chem.ucla.edu.