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The L. tredecimguttatus venom was collected by electrical stimulation and systematically analyzed. Gel electrophoresis and RP-HPLC showed that the venom consisted primarily of proteins with molecular weights above 10 kDa, most of which were high-molecular-mass acidic proteins, with fewer proteins and peptides below 10 kDa. The most abundant proteins in the venom were concentrated at around 100 kDa, which included latrotoxins- the principal toxic components of the venom. Injection of the venom in mice and cockroaches P. americana gave rise to obvious poisoned symptoms, with LD50 values of 0.16 mg/kg and 1.87 microg/g, respectively. Electrophysiological experiments showed that the venom could block the neuromuscular transmission in isolated mouse phrenic nerve-hemidiaphragm and rat vas deferens preparations. The low-molecular-weight fraction (<10 kDa) of the venom had no effect on the transmission. Enzymatic analysis indicated that the venom possess activities of several kinds of hydrolases including hyaluronidase and proteases. These results demonstrated that L. tredecimguttatus venom was basically a large-protein-constituted venom and is one of the most poisonous spider venoms known in the world. The mammalian toxicity of the venom was based on its larger proteins rather than on smaller proteins and peptides, and its hydrolase activities might be involved in the latrodectism. The use of electrical stimulation method to collect the venom has the advantages of avoiding contamination and repeated use of the valuable L. tredecimguttatus venom resources.