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Submission declined on 14 November 2025 by WeirdNAnnoyed (talk). This draft's references do not show that the subject qualifies for a Wikipedia article. In summary, the draft needs multiple published sources that are: in-depth (not just passing mentions about the subject) reliable secondary independent of the subject Make sure you add references that meet these criteria before resubmitting. Learn about mistakes to avoid when addressing this issue. If no additional references exist, the subject is not suitable for Wikipedia. If you would like to continue working on the submission, click on the "Edit" tab at the top of the window. If you have not resolved the issues listed above, your draft will be declined again and potentially deleted. If you need extra help, please ask us a question at the AfC Help Desk or get live help from experienced editors. Please do not remove reviewer comments or this notice until the submission is accepted. Where to get help If you need help editing or submitting your draft, please ask us a question at the AfC Help Desk or get live help from experienced editors. These venues are only for help with editing and the submission process, not to get reviews. If you need feedback on your draft, or if the review is taking a lot of time, you can try asking for help on the talk page of a relevant WikiProject. Some WikiProjects are more active than others so a speedy reply is not guaranteed. How to improve a draft Wikipedia:Contributing to Wikipedia – a basic overview on how to edit Wikipedia. Help:Wikitext – how to use the markup Help:Referencing for beginners – how to include references Wikipedia:Article development – how to develop your article Wikipedia:Writing better articles – how to improve your article Wikipedia:Verifiability – make sure your article includes reliable third-party sources You can also browse Wikipedia:Featured articles and Wikipedia:Good articles to find examples of Wikipedia's best writing on topics similar to your proposed article. Improving your odds of a speedy review To improve your odds of a faster review, tag your draft with relevant WikiProject tags using the button below. This will let reviewers know a new draft has been submitted in their area of interest. For instance, if you wrote about a female astronomer, you would want to add the Biography, Astronomy, and Women scientists tags. Add tags to your draft Editor resources Easy tools: Citation bot (help) | Advanced: Fix bare URLs Declined by WeirdNAnnoyed 32 days ago. Last edited by Vodnir 8 days ago. Reviewer: Inform author. This draft has been resubmitted and is currently awaiting re-review.

• Comment: I'm not convinced this compound is notable per usual standards because all sources cited (as far as I can tell) are primary. If secondary sources can be found then cite them and we can reconsider. Also, the article needs some cleanup. Please use the Greek characters rather than "a-helix" and "f-sheet" (these can be found under "special characters" in the editing window). The last section (Treatment) is unsourced; either provide a citation or remove this part. WeirdNAnnoyed (talk) 12:13, 14 November 2025 (UTC)

Av3 (also: ATX III, Delta-actitoxin-Avd2a, Delta-AITX-AVd2a, neurotoxin 3) is a 27-residue polypeptide neurotoxin produced by Anemonia viridis (also Anemonia sulcata). Av3 produces neurotoxic symptoms in crustaceans by reducing sodium channel inactivation, which prolongs the action potential in excitable tissues.

Av3 is an abbreviation from Anemonia viridis toxin 3. Originally Av3 was called ATX-III, which is an acronym for Anemonia sulcata toxin 3. In recent literature, researchers use the species name Anemonia viridis as a synonym for Anemonia sulcata and use the abbreviation Av3 to refer to the neurotoxin ^[1][2][3][4], whether Anemonia viridis and Anemonia sulcata should be recognized as synonyms remains a matter of dispute.^[5]

Av3 is isolated from the venom of the sea anemones Anemonia viridis and Anemonia sulcata. Av3 was the third toxin isolated from the venom of Anemonia sulcata, the first and second being ATX-I and ATX-II.^[6]

Av3 is a small neurotoxin consisting of 27 amino acids stabilized by three disulfide bridges.^[2] The polypeptide contains no regular α-helix or β-sheet and instead consists of a network of reverse turns.^[7] The molecule can be divided into three regions: a polar N-terminal dipeptide, a predominantly hydrophobic central region (residues 3-14), and a polar C-terminal segment.^[8]

Av3 is structurally unique compared to bioactive surfaces of toxins with a similar target and consists mainly of aromatic residues as well as glycine residues. Glycine residues make up nearly 20% of the total amino acid content.^[2][8]

Av3 acts on invertebrate voltage-gated sodium channels (Na_v).^[4] Specifically, Av3 binds to a cleft in S6 of domain I ^[1] and likely also has contact with the S4 region of domain IV, which is proximal to the pore module of domain I.^[3]  

Av3 has an effect on sodium channels in insects, but not on mammalian sodium channels. ^[1][2][4]. At 10 µM, Av3 has no effect on the mammalian Na_v subtypes: Na_v1.2, Na_v1.4, and Na_v1.6, and a ‘negligible effect’ on mammalian subtype Na_v1.5.^[2] Another study also found that 10 µM Av3 had no effect on the Na_v1.2a channel, while the toxin did inhibit Drosophila melanogaster DmNa_v1 inactivation.^[1] A similar effect on sodium channel activity is also found for crayfish neurons.^[9]

Competition binding assays demonstrate that Av3 competes with the scorpion α-toxin LqhαIT, which is known to bind site-3 on the extracellular region of the α-subunit of insect Na_vs, confirming the classification of Av3 as a site-3 toxin.^[2]

Av3 selectively targets voltage-gated sodium channels (Na_v) on the extracellular region of the α-subunit.^[10] Through this interaction, the toxin functions as a gating modifier that inhibits the fast inactivation, increases peak sodium current at more negative membrane potentials, and shifts activation to lower voltages, resulting in a sustained inward sodium current and prolonged action potentials.^[9]

The binding of Av3 is voltage dependent: depolarizing the membrane increases the toxin's dissociation rate from the channel, indicating stronger interactions with sodium channels in their resting and early open states than when they are strongly activated.^[11] For example, the dissociation rate increases by approximately two orders of magnitude when the membrane potential is shifted from –100 mV to 0 mV.^[11]

In crayfish neurons, it was found that Av3 shifts the voltage dependence of activation to more negative potentials, causing voltage channels to open earlier and neurons to become hyperexcitable.^[9]

These combined effects initially lead to repetitive firing, but as depolarization persists and sodium channels fail to recover, action potential propagation is disrupted, consistent with the paralysis observed in crustaceans.^[6][9]

Av3 produces neurotoxic symptoms in crustaceans, typically causing cramp-like reactions followed by paralysis of the extremities when injected into Carcinus maenas.^[6] The toxicity reflects the toxin's high selectivity for invertebrate sodium channels.^[1][2] Although the symptoms in arthropods are well described, quantitative LD₅₀ data have not been reported. In contrast, i.p. LD₅₀ in mice is greater than 18 mg/kg, indicating low toxicity in mammals.^[12]