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1 iated delivery mechanism; they are therefore venomous.
2 such as diisopropyl fluorophosphate (DFP) or venomous agent X, creating a major challenge for enzyme
3 tedly complex secretome of 410 proteins with venomous and lytic but also adhesive or fibrous properti
4 ty is inversely related to the capacity of a venomous animal to physically subdue prey.
5 e toxoglossate mollusks are a large group of venomous animals (>10,000 species) conventionally divide
6                          Protein toxins from venomous animals exhibit remarkably specific and selecti
7                          Several toxins from venomous animals have been identified that target ASICs
8                                              Venomous animals have toxins associated with delivery me
9                                              Venomous animals immobilize prey using protein toxins th
10                                              Venomous animals produce an enormous variety of peptide
11                                 A variety of venomous animals produce small protein toxins that impai
12                                              Venomous animals produce small protein toxins that inhib
13                                Consequently, venomous animals serve as models for a rich source of mi
14 ain success in the evolutionary "arms race," venomous animals such as scorpions produce diverse neuro
15 ce homology to polypeptide toxins from other venomous animals that interact with voltage-gated K(+) c
16 s have been considered poisonous rather than venomous because delivery mechanisms are absent.
17 spectrum neutralization and sequestration of venomous biomacromolecules is possible via a single opti
18 oi) are more toxic than the venoms of deadly venomous Brazilian pitvipers, genus Bothrops; C. greenin
19                     More than 100 species of venomous cone snails (genus Conus) are highly effective
20                 The 500 different species of venomous cone snails (genus Conus) use small, highly str
21 toxins are peptide neurotoxins isolated from venomous cone snails that display exquisite selectivity
22                                 One clade of venomous cone snails, Asprella, appears to be significan
23                          However, mimicry of venomous coral snakes has remained controversial because
24                        Bites and stings from venomous creatures can produce pain and inflammation as
25 r, termed Sj7170, was characterized from the venomous gland cDNA library of the scorpion Scorpiops je
26 ors that are caused by bacterial infections, venomous injuries and biological weaponry.
27 tipedes, one of the oldest yet least-studied venomous lineages, appear to defy this rule.
28 tamate (Gla)-rich neuroactive peptide from a venomous marine snail, can self-associate in the presenc
29 sulfide-rich structural domains expressed by venomous marine snails in the superfamily Conoidea.
30                                         Many venomous organisms produce toxins that disrupt neuromusc
31 nt new mechanism for the evolution of spider venomous peptides.
32 ion capable of sequestering and neutralizing venomous phospholipase A2 (PLA2), we demonstrate that br
33 re, this optimized NP showed selectivity for venomous PLA2 over abundant serum proteins, was not cyto
34 led a micropredatory feeding strategy in non-venomous Plagiotremus spp.
35  geographus venom fit an emerging pattern in venomous predators, with one nicotinic antagonist target
36                                              Venomous predatory animals, such as snakes, spiders, sco
37              This peptide, isolated from the venomous scorpion Parabuthus transvaalicus, inhibits low
38 nario in which exocytic vesicles harboring a venomous secretome assembled a sophisticated predatory s
39 les in the co-evolutionary arms race between venomous snake toxins to cope with different membrane re
40 e sequenced and interrogated the genome of a venomous snake, the king cobra (Ophiophagus hannah), and
41 e the imagination like a rapid strike from a venomous snake.
42 t of crotaline envenomation, the predominant venomous snakebite in the United States, has drastically
43 icularly when dispatching larger lizards and venomous snakes [5].
44 consequences of a missed strike when hunting venomous snakes can be deadly [5], so the kicking strike
45                                              Venomous snakes produce an array of toxic compounds, inc
46 aptations such as the toxic proteins used by venomous snakes to subdue and digest prey is an importan
47 venom proteins in closely related species of venomous snakes.
48 s for a rich source of mimicry types, as non-venomous species benefit from reductions in predation ri
49  responses, although valuable for preying on venomous species, is rare, likely because it comes with
50  cnidarians, including the delivery of their venomous sting.
51 function for each selected molecule from the venomous structures of L. obliqua.
52  we have constructed cDNA libraries from two venomous structures of the caterpillar, namely the tegum
53                                              Venomous teeth are rare in fishes, which typically utili
54  In contrast to the platypus, the only other venomous vertebrate with a sequenced genome, we find tha

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