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Oxyopinin 1

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Oxyopinin 1 is an antimicrobial peptide found in wolf spider Oxyopes kitabensis (Oxyopes foliiformis). It has activity against gram-negative bacteria, gram-positive bacteria and Mammalian cells.

Category
Functional Peptides
Catalog number
BAT-011873
CAS number
457115-59-2
Molecular Formula
C235H409N71O60S
Molecular Weight
5221.33
Synonyms
M-oxotoxin-Ot1a; Oxki1; Oxyopinin-Ι; M-OXTX-Ot1a; Recombinant Oxyopes takobius M-oxotoxin-Ot1a
Appearance
Lyophilized Powder or Liquid
Purity
>85%
Sequence
FRGLAKLLKIGLKSFARVLKKVLPKAAKAGKALAKSMADENAIRQQNQ
Storage
Store at -20°C
1. Oxyopinins, large amphipathic peptides isolated from the venom of the wolf spider Oxyopes kitabensis with cytolytic properties and positive insecticidal cooperativity with spider neurotoxins
Gerardo Corzo, Elba Villegas, Froylan Gómez-Lagunas, Lourival D Possani, Olga S Belokoneva, Terumi Nakajima J Biol Chem. 2002 Jun 28;277(26):23627-37. doi: 10.1074/jbc.M200511200. Epub 2002 Apr 25.
Five amphipathic peptides with antimicrobial, hemolytic, and insecticidal activity were isolated from the crude venom of the wolf spider Oxyopes kitabensis. The peptides, named oxyopinins, are the largest linear cationic amphipathic peptides from the venom of a spider that have been chemically characterized at present. According to their primary structure Oxyopinin 1 is composed of 48 amino acid residues showing extended sequence similarity to the ant insecticidal peptide ponericinL2 and to the frog antimicrobial peptide dermaseptin. Oxyopinins 2a, 2b, 2c, and 2d have highly similar sequences. At least 27 out of 37 amino acid residues are conserved. They also show a segment of sequence similar to ponericinL2. Circular dichroism analyses showed that the secondary structure of the five peptides is essentially alpha-helical. Oxyopinins showed disrupting activities toward both biological membranes and artificial vesicles, particularly to those rich in phosphatidylcholine. Electrophysiological recordings performed on insect cells (Sf9) showed that the oxyopinins produce a drastic reduction of cell membrane resistance by opening non-selective ion channels. Additionally, a new paralytic neurotoxin named Oxytoxin 1 was purified from the same spider venom. It contains 69 amino acid residue cross-linked by five disulfide bridges. Application of mixtures containing oxyopinins and Oxytoxin 1 to insect larvae showed a potentiation phenomenon, by which an increase lethality effect is observed. These results suggest that the linear amphipathic peptides in spider venoms and neuropeptides cooperate to capture insects efficiently.
2. Novel lynx spider toxin shares common molecular architecture with defense peptides from frog skin
Peter V Dubovskii, et al. FEBS J. 2011 Nov;278(22):4382-93. doi: 10.1111/j.1742-4658.2011.08361.x. Epub 2011 Oct 17.
A unique 30-residue cationic peptide oxyopinin 4a (Oxt 4a) was identified in the venom of the lynx spider Oxyopes takobius (Oxyopidae). Oxt 4a contains a single N-terminally located disulfide bond, Cys4-Cys10, and is structurally different from any spider toxin studied so far. According to NMR findings, the peptide is disordered in water, but assumes a peculiar torpedo-like structure in detergent micelles. It features a C-terminal amphipathic α-helical segment (body; residues 12-25) and an N-terminal disulfide-stabilized loop (head; residues 1-11), and has an unusually high density of positive charge in the head region. Synthetic Oxt 4a was produced and shown to possess strong and broad-spectrum cytolytic and antimicrobial activity. cDNA cloning showed that the peptide is synthesized in the form of a conventional prepropeptide with an acidic prosequence. Unlike other arachnid toxins, Oxt 4a exhibits striking similarity with defense peptides from the skin of ranid frogs that contain the so-called Rana-box motif (a C-terminal disulfide-enclosed loop). Parallelism or convergence is apparent on several levels: the structure, function and biosynthesis of a lynx spider toxin are mirrored by those of Rana-box peptides from frogs.
3. Improving therapeutic potential of antibacterial spider venom peptides: coarse-grain molecular dynamics guided approach
Peter V Dubovskii, Anastasia A Ignatova, Pavel E Volynsky, Igor A Ivanov, Maxim N Zhmak, Alexey V Feofanov, Roman G Efremov Future Med Chem. 2018 Oct 1;10(19):2309-2322. doi: 10.4155/fmc-2018-0170. Epub 2018 Sep 14.
Aim: Spider venom is a rich source of antibacterial peptides, whose hemolytic activity is often excessive. Methodology: How to get rid of it? Using latarcins from Lachesana tarabaevi and oxyopinin Oxt 4a from Oxyopes takobius spider venoms we performed coarse-grained molecular dynamics simulations of these peptides in the presence of lipid bilayers, mimicking erythrocyte membranes. This identified hemolytically active fragments within Oxt 4a and latarcins. Then, we synthesized five 20-residue peptides, containing different parts of the Oxt 4a and latarcin-1 sequence, carrying mutations within the identified regions. Conclusion: The antibacterial and hemolytic tests suggested that the three of the synthesized peptides demonstrated substantial decrease in hemolytic activity, retaining, or even exceeding antibacterial potential of the parent peptides.
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