Unlocking the venom vault: Museum venomics reveals an untapped biochemical archive in natural history collections

Venoms are powerful weapons that shape ecological interactions across the animal kingdom. They also have high medical importance, causing thousands of human fatalities annually, while offering a rich resource for drug discovery. Despite this, considerable logistical, safety and ethical challenges mean only a fraction of the worlds venoms have been profiled quantitatively. Natural history collections offer opportunities to greatly expand our knowledge of venom systems. We used quantitative proteomic mass spectrometry on preserved venom glands, spanning 0-57 years in age, from 37 venomous snake species (32 elapids and 5 viperids), alongside fresh venom samples from most of the same taxa. Preserved glands and fresh venoms from the same species showed strong concordance in venom composition across multiple metrics. Critically, specimen age did not degrade data quality, indicating that decades-old material yields reliable quantitative profiles, opening the possibility for vast quantities of existing museum specimens to be used. When we integrate our data with published profiles, we confirm known elapid vs viper broad diversity patterns while revealing substantial Australasian elapid venom diversity. Our findings demonstrate the potential of natural history collections as a vast, largely untapped biochemical archive for high-throughput "museum venomics," enabling evolutionary and temporal analyses of venom diversity at unprecedented scale.