A Natural Solution for California's Herds: African Catfish Peptides

California's cattle producers and agricultural communities are all too familiar with the rising challenge of antibiotic resistance, making common bacterial infections harder to treat in livestock. But imagine a future where we could tackle these infections with a natural, powerful alternative. Our research points to just that: antimicrobial peptides (AMPs) found in African catfish.

We're really excited about these peptides because African catfish thrive in pathogen-rich freshwater, naturally producing these robust immune compounds in their skin mucus as a defense. This natural origin makes them highly appealing alternatives to synthetic drugs.

Predicted Safety and Potent Action

One of the most compelling aspects of these AMPs is their predicted safety for mammals. Our initial computer analyses suggest that various catfish AMPs are generally recognized as safe (GRAS). We predict they'll be absorbed in the human intestine without causing liver, brain, or heart toxicity. Furthermore, lab tests on a promising peptide, NACAP-II, confirmed it was non-hemolytic, meaning it didn't damage rabbit red blood cells—a strong indicator of its potential safety for mammalian cells.

Beyond safety, these peptides demonstrate effectiveness against problematic bacteria. One study revealed NACAP-II's strong activity against Extended-Spectrum Beta-Lactamase (ESBL)-producing Escherichia coli—a critical concern for both animal and human health due to its resistance to many common antibiotics. Another peptide, ACAP-IV, also showed antibacterial activity against E. coli and Staphylococcus aureus. We believe these AMPs work by directly disrupting bacterial cell membranes, a mechanism that makes it harder for bacteria to develop resistance compared to how they resist traditional antibiotics.

Central Coast Rangeland Coalition: Page

The Importance of Livestock Pond Restoration

The Importance of Livestock Pond Restoration in Central Coast Rangelands Maintaining water sources and wildlife habitat in the uplands Tuesday, October 18, 2022 SFPUC Sunol Corp Yard, 505 Paloma Way, Sunol, CA 94586This workshop will provide an overview of the creation of livestock ponds and how the...
View Page
Central Coast Rangeland Coalition: Page

Cattle Grazing and Wildfire Fuels

Thursday, April 20, 2023 8:00 am to 4:00 pm Location: Little Farm located at Tilden Nature Area Environmental Educational Center 1500 Central Park Drive, Berkeley, CAThis workshop will provide the latest research on cattle grazing and fire behavior.
View Page
Central Coast Rangeland Coalition: Page

Rangeland Restoration & Improvement

October 17, 2024 8:30 am to 4:30 pm Cal Poly Beef Center, San Luis ObispoRangeland Restoration and Improvement: what it is and how it can meet your land management needs Restoration and improvement plays an important role in the management of rangeland systems and consists of many different complex...
View Page
Quantitative Biology & Epidemiology Research Group: Page

Dr Tania Brenes Arguedas

Dr Tania Brenes-Arguedas Tania is a plant ecologist and biostatistician. Before joining QBE she worked on a range of research and consultancy positions in South, Central and North America.
View Page
Quantitative Biology & Epidemiology Research Group: Page

Citrus Research

We collaborated with colleagues at UC Riverside and across UC ANR to compile a summary of current research being carried out to combat the threat of HLB to California's iconic citrus industry.
View Page
Quantitative Biology & Epidemiology Research Group: Page

People

Dr Tania Brenes-Arguedas Tania is a plant ecologist and biostatistician. Before joining QBE she worked on a range of research and consultancy positions in South, Central and North America.
View Page
Quantitative Biology & Epidemiology Research Group: Page

Glassy-winged Sharpshooter (GWSS)

This page provides access to work in QBE group on the dynamics of Glassy-winged Sharpshooter (GWSS) [Homalodisca vitripennis] an invasive insect for California, which is the main vector of concern in the spread of the bacterium Xyllela fastidiosa, the cause of Pierce's disease in grape.
View Page
Quantitative Biology & Epidemiology Research Group: Page

Research

Phase space diagrams for model systems. Upper pair are population models with second order auto-regressive (AR) characteristics; left is purely deterministic model with unregulated oscillations, right is one realization of the same model with stochastic AR parameters.
View Page
Quantitative Biology & Epidemiology Research Group: Page

Extension

Much of the research we do involves working alongside people who are trying to manage plant diseases and, in addition to helping with those efforts, studying the process of disease control.
View Page