Venomics Profiling of Thamnodynastes strigatus Unveils Matrix Metalloproteinases and Other Novel Proteins Recruited to the Toxin Arsenal of Rear-Fanged Snakes

Rear-fanged and aglyphous snakes are usually considered not dangerous to humans because of their limited capacity of injecting venom. Therefore, only a few studies have been dedicated to characterizing the venom of the largest parcel of snake fauna. Here, we investigated the venom proteome of the re...

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Published inJournal of proteome research Vol. 11; no. 2; pp. 1152 - 1162
Main Authors Ching, Ana T. C, Paes Leme, Adriana F, Zelanis, André, Rocha, Marisa M. T, Furtado, Maria de Fátima D, Silva, Débora Andrade, Trugilho, Monique R. O, da Rocha, Surza L. G, Perales, Jonas, Ho, Paulo L, Serrano, Solange M. T, Junqueira-de-Azevedo, Inácio L. M
Format Journal Article
LanguageEnglish
Published United States American Chemical Society 03.02.2012
Subjects
Amino Acid Sequence
Animals
Colubridae - metabolism
Matrix Metalloproteinases - chemistry
Matrix Metalloproteinases - classification
Molecular Sequence Data
Phylogeny
Protein Binding
Proteome - chemistry
Proteome - classification
Proteomics - methods
Sequence Alignment
Snake Venoms - antagonists & inhibitors
Snake Venoms - chemistry
Snake Venoms - classification
Snake Venoms - metabolism
Transcriptome
snake
matrix metalloproteinase
venom
toxin
transcriptome
proteome
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Summary:Rear-fanged and aglyphous snakes are usually considered not dangerous to humans because of their limited capacity of injecting venom. Therefore, only a few studies have been dedicated to characterizing the venom of the largest parcel of snake fauna. Here, we investigated the venom proteome of the rear-fanged snake Thamnodynastes strigatus , in combination with a transcriptomic evaluation of the venom gland. About 60% of all transcripts code for putative venom components. A striking finding is that the most abundant type of transcript (∼47%) and also the major protein type in the venom correspond to a new kind of matrix metalloproteinase (MMP) that is unrelated to the classical snake venom metalloproteinases found in all snake families. These enzymes were recently suggested as possible venom components, and we show here that they are proteolytically active and probably recruited to venom from a MMP-9 ancestor. Other unusual proteins were suggested to be venom components: a protein related to lactadherin and an EGF repeat-containing transcript. Despite these unusual molecules, seven toxin classes commonly found in typical venomous snakes are also present in the venom. These results support the evidence that the arsenals of these snakes are very diverse and harbor new types of biologically important molecules.
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ISSN:1535-3893
1535-3907
DOI:10.1021/pr200876c