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1.
J Proteome Res ; 10(5): 2440-64, 2011 May 06.
Article in English | MEDLINE | ID: mdl-21417486

ABSTRACT

The venom composition of Pseudechis australis, a widely distributed in Australia reptile, was analyzed by 2-DE and mass spectrometric analysis. In total, 102 protein spots were identified as venom toxins. The gel is dominated by horizontal trains of spots with identical or very similar molecular masses but differing in the pI values. This suggests possible post-translational modifications of toxins, changing their electrostatic charge. The results demonstrate a highly specialized biosynthesis of toxins destroying the hemostasis (P-III metalloproteases, SVMPs), antimicrobial proteins (L-amino acid oxidases, LAAOs, and transferrin-like proteins, TFLPs), and myotoxins (phospholipase A(2)s, PLA(2)s). The three transferrin isoforms of the Australian P. australis (Elapidae snake) venom are highly homologous to the body transferrin of the African Lamprophis fuliginosus (Colubridae), an indication for the recruitment of body transferrin. The venomic composition suggests an adaptation for a defense against microbial pathogens from the prey. Transferrins have not previously been reported as components of elapid or other snake venoms. Ecto-5'-nucleotidases (5'-NTDs), nerve growth factors (VNGFs), and a serine proteinase inhibitor (SPI) were also identified. The venom composition and enzymatic activities explain the clinical manifestation of the king brown snakebite. The results can be used for medical, scientific, and biotechnological purposes.


Subject(s)
Adaptation, Biological/genetics , Elapid Venoms/chemistry , Elapidae , Proteomics/methods , Transferrin/analysis , 5'-Nucleotidase/analysis , Animals , Electrophoresis, Gel, Two-Dimensional , Mass Spectrometry , Nerve Growth Factors/analysis , Serine Proteinase Inhibitors/analysis , Transferrin/metabolism
2.
J Proteome Res ; 9(5): 2422-37, 2010 May 07.
Article in English | MEDLINE | ID: mdl-20329766

ABSTRACT

The venom proteome of Bothrops alternatus, a venomous snake widespread in South America, was analyzed by 2-D electrophoresis followed by mass spectrometric analysis and determination of enzymatic activities. The venomic composition revealed that metallo- and serine proteinases play primary roles in the pathogenesis of the envenomation by this pitviper. The identified 100 venom components with molecular masses from 10 to 100 kDa belong to six protein families: metalloproteinases, serine/thrombin-like proteinases, phospholipases A(2), L-amino acid oxidases, disintegrins and thrombin inhibitors. Metalloproteinases predominate and belong exclusively to the P-III class including the most potent hemorrhagic toxins. They represent 50% of all identified proteins. Two isoforms were identified: homologous to jararhagin, a hemorrhagic toxin, and to beritractivase, a nonhemorrhagic and pro-coagulant metalloproteinase. The B. alternatus venom is a rich source of proteins influencing the blood coagulation system with a potential for medical application. The isoelectric points of the components are distributed in the acidic pH range (the pI values are between 4 and 7) and no basic proteins were detected.


Subject(s)
Bothrops/metabolism , Crotalid Venoms/metabolism , Crotalid Venoms/pharmacology , Proteomics/methods , Serine Proteases/chemistry , Thrombin/chemistry , Amino Acid Sequence , Animals , Crotalid Venoms/chemistry , Crotalid Venoms/enzymology , Electrophoresis, Gel, Two-Dimensional , Female , Male , Mass Spectrometry , Molecular Sequence Data , Proteins/chemistry , Proteins/metabolism , Serine Proteases/metabolism , Thrombin/metabolism
3.
J Proteome Res ; 9(5): 2302-16, 2010 May 07.
Article in English | MEDLINE | ID: mdl-20205475

ABSTRACT

The snake venomic of Crotalus durissus terrificus was analyzed by 2-D and 1-D electrophoresis and subsequent MS/MS and enzymatic assays. The venomic of the South American rattlesnake comprises toxins from seven protein families: phospholipases A(2), serine proteinases, ecto-5'-nucleotidases, metalloproteinases, nerve growth factors, phosphodiesterases, and glutaminyl cyclase. The venom toxin composition correlates with the clinical manifestation of the crotalinae snake bites and explains pathological effects of the venom such as neurotoxicity, systemic myonecrosis, hemostatic disorders, myoglobinuria, and acute renal failure. The vast majority of toxins are potentially involved in neurotoxicity, myotoxicity, and coagulopathy. The predominant venom components are neurotoxic phospholipases A(2) and serine proteinases. The venom is a rich source of 5'-nucleotidases (7.8% of the identified toxins) inducing hemostatic disorders. Analysis of the venom protein composition provided a catalogue for secreted toxins. The venomic composition of Crotalus d. terrificus and venom gland transcriptome of the synonymous subspecies Crotalus d. collilineatus show differences in the occurrence of protein families and in the abundance of toxins. Some of the venom components identified by the proteomic analysis were not reported in the transcriptome of the Crotalus d. collilineatus venom gland. Enzymatic activities of the Crotalus d. terrificus venom were determined and correlated with the proteomic composition.


Subject(s)
Crotalid Venoms/analysis , Crotalus , Proteins/analysis , Proteomics/methods , Amino Acid Sequence , Animals , Crotalid Venoms/enzymology , Crotalid Venoms/metabolism , Crotalid Venoms/pharmacology , Electrophoresis, Gel, Two-Dimensional , Gene Expression Profiling , Molecular Sequence Data , Proteins/metabolism , Proteins/pharmacology , Species Specificity , Spectrometry, Mass, Electrospray Ionization
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