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Laing, G. D., A. S. Kamiguti, et al. (1995). "Characterisation of a purified phospholipase A2 from the venom of the Papuan black snake (Pseudechis papuanus)." Biochim-Biophys-Acta 1250(2): 137-43.
Lalloo, D., A. Trevett, et al. (1994). "Neurotoxicity and haemostatic disturbances in patients envenomed by the Papuan black snake (Pseudechis papuanus)." Toxicon 32(8): 927-36.
Leonardi, T. M., M. E. H. Howden, et al. (1979). "A lethal myotoxin isolated from the venom of the Australian king brown snake ( Pseudechis australis)." Toxicon 17(6): 549-55.
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Mebs, D., Y. M. Chen, et al. (1978). "Biochemistry and pharmacology of toxins from Australian snake venoms." Toxicon Volume Date 1976, Suppl. 1(Toxins: Anim., Plant Microb.): 365-73.
Mebs, D., M. Ehrenfeld, et al. (1983). "Local necrotizing effect of snake venoms on skin and muscle: relationship to serum creatine kinase." Toxicon 21(3): 393-404.
Mebs, D. and Y. Samejima (1980). "Purification, from Australian elapid venoms, and properties of phospholipases A which cause myoglobinuria in mice." Toxicon 18(4): 443-54.
Moon, K. E. and A. Rys (1984). "Amino terminal analysis of pseudexin from the venom of the Australian red-bellied black snake (Pseudechis porphyriacus)." Toxicon 22(1): 165-7.
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Nishida, S. and N. Tamiya (1991). "Tryptophan residues of phospholipase A2 from the venom of an Australian elapid snake ( Pseudechis australis)." Toxicon 29(4-5): 429-39.
Nishida, S., M. Terashima, et al. (1985). "Isolation and properties of two phospholipases A2 from the venom of an Australian elapid snake (Pseudechis australis)." Toxicon 23(1): 73-85.
Nishida, S., M. Terashima, et al. (1985). "Amino acid sequences of phospholipases A2 from the venom of an Australian elapid snake (king brown snake, Pseudechis australis)." Toxicon 23(1): 87-104.
Ponraj, D. and P. Gopalakrishnakone (1995). "Morphological changes induced by a generalized myotoxin (Myoglobinuria-inducing toxin) from the venom of Pseudechis australis (King brown snake) in skeletal muscle and kidney of mice." Toxicon 33(11): 1453-67.
Ponraj, D. and P. Gopalakrishnakone (1996). "Establishment of an animal model for myoglobinuria by use of a myotoxin from Pseudechis australis (king brown snake) venom in mice." Lab. Anim. Sci. 46(4): 393-398.
Rowan, E. G., A. L. Harvey, et al. (1989). "Neuromuscular effects of three phospholipases A2 from the venom of the Australian king brown snake Pseudechis australis." Toxicon 27(5): 551-60.
Schmidt, J. J. and J. L. Middlebrook (1989). "Purification, sequencing and characterization of pseudexin phospholipases A2 from Pseudechis porphyriacus (Australian red-bellied black snake)." Toxicon 27(7): 805-18.
Sharp, P. J., S. L. Berry, et al. (1989). "A basic phospholipase A from the venom of the Australian king brown snake (Pseudechis australis) showing diverse activities against membranes." Comp-Biochem-Physiol-B 92(3): 501-8.
Stiles, B. G., F. W. Sexton, et al. (1994). "Characterization of monoclonal antibodies against Naja naja oxiana neurotoxin I." Biochem-J 303(Pt 1): 163-70.
Stiles, B. G., F. W. Sexton, et al. (1991). "Antibacterial effects of different snake venoms: purification and characterization of antibacterial proteins from Pseudechis australis (Australian king brown or mulga snake) venom." Toxicon 29(9): 1129-41.
Takasaki, C. (1989). "Amino acid sequence of a long-chain neurotoxin homologue, Pa ID, from the venom of an Australian elapid snake, Pseudechis australis." J-Biochem-Tokyo 106(1): 11-6.
Takasaki, C., A. Sugama, et al. (1990). "Effects of chemical modifications of Pa-11, a phospholipase A2 from the venom of Australian king brown snake ( Pseudechis australis), on its biological activities." Toxicon 28(1): 107-17.
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Vaughan, G. T., T. B. Sculley, et al. (1981). "Isolation of a hemolytic, toxic phospholipase from the venom of the Australian red-bellied black snake ( Pseudechis porphyriacus)." Toxicon 19(1): 95-101.
Weinstein, S. A., R. C. Bell, et al. (1992). "Pathologic changes induced by phospholipase A2 isolated from the venom of Collett's snake, Pseudechis colletti: a light and electron microscopic study." Toxicon 30(2): 171-85.
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