Department Seminar

Seminars are held on Wednesdays at 4:00pm. All are invited to attend.

Upcoming Seminar

Natural and Synthetic Conductive Proteins: from Rock-Breathing Bacteria to de novo Peptide Nanowires
Dr. Allon Hochbaum, UC Irvine

October 29, 2025
4:00pm-5:00pm in HSCI-103

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Allon Hochbaum

Abstract

Electronic signals are the default carriers of information in solid-state devices, while biology mainly traffics in chemical and ionic signals. Materials that can transduce biological and electronic signals are key to bridging living systems with synthetic devices such as soft robotics, therapeutic and prosthetic implants, bioenergy technologies, and wearable sensors. Nature has evolved protein assemblies that conduct electronic charge over nanometer to centimeter distances as part of an anaerobic respiratory metabolic pathway called extracellular electron transfer. Our findings show that such assemblies in the model anaerobe, Geobacter sulfurreducens, are filaments made of cytochrome polymers that array heme in one-dimensional chains along the fiber axes. This alignment of redox active heme supports long-range electron transport along the nanowires to facilitate oxidation of remote electron acceptors. Our work seeks to understand structural determinants of their biochemical and electron transport properties.

Inspired by design heme-free and heme-binding peptides that self-assemble into conducting filaments and mimic the environmental responsiveness of other biological filaments. We developed a platform for the programmable assembly of de novo peptides by balancing order and disorder inducing peptide sequence motif. This approach provides control over the hierarchical assembly of complex supramolecular peptide nanostructures. The gating of supramolecular interactions in response to pH, redox, and biochemical stimuli represent key advances towards the interconversion of biological signals across bionic interfaces and the integration of synthetic biology with a synthetic materials toolkit.

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Fig.: Natural and synthetic conductive proteins.

Seminar Coordinator

For information and suggestions about our Department Seminar series, please contact the seminar coordinator:

Dr. Michael Schramm
Michael.Schramm@csulb.edu


Schedule

The schedule for Fall 2025 is as follows. Additional details may be added as the semester progresses.

Upcoming Seminars
DateTitleSpeaker and Affiliation
October 29, 2025Natural and Synthetic Conductive Proteins: from Rock-Breathing Bacteria to de novo Peptide NanowiresDr. Allon Hochbaum, UC Irvine
November 5, 2025(topic: physical)David Mobley, UC Irvine
November 12, 2025(topic: engineering)Haizhou Liu, UC Riverside
November 19, 2025(topic: biochemistry)Zhixiang Tong, Genentech
December 3, 2025First Year TalksChemistry students, CSU Long Beach
December 10, 2025(topic: organic)Osvaldo Gutierrez, UCLA

Previous Seminars

Previous Seminars
DateTitleSpeaker and Affiliation
October 22, 2025Gating of Ionic Transport at the Nanoscale. Lessons from Nature and PhysicsDr. Zuzanna Siwy, UC Irvine
October 15, 2025An Exploration of MOF Chemistry in Research and Teaching Labs at the University of San DiegoDr. Lauren Benz, University of San Diego
October 1, 2025New Reactivity to Solve Chemical ChallengesDr. Elias Picazo, USC
September 17, 2025Solvent Driven Cross-Coupling of Fluorenones for Dibenzo[g,p]chrysenesDr. Tetsuo Iwasawa, Ryukoku University, Shiga, Japan
September 10, 2025Uncovering Iron Surface Chemistry and Mineral Film Growth at Complex InterfacesDr. Kathryn Perrine, Michigan Technological University
September 3, 2025Building at the Nanoscale with Programmable Peptide-Based Building BlocksDr. Andrea Merg, UC Merced

The Seminar Archive has Department Seminars from previous semesters.


The Department Seminar is supported by The Allergan Foundation.