Browsing Toxins By Category
T3DB ID | Name CAS Number | Formula Weight | Structure | Type | Mechanism of Toxicity |
---|---|---|---|---|---|
T3D2505 | Heteropodatoxin 189120-72-7 | Not Available 3917.380 g/mol |
| Heteropodatoxin blocks A-type, transient voltage-gated potassium channels by acting as a gating modifier. As a result, a larger depolarization is needed to open the ch...more Number of Targets: 3 | |
T3D2506 | Agitoxin 155646-21-2 | Not Available 4020.835 g/mol |
| Agitoxin binds to and blocks the Shaker potassium channel in Drosophila as well as to its mammalian homologue. (A157) Number of Targets: 8 | |
T3D2507 | Charybdotoxin 95751-30-7 | Not Available 6673.890 g/mol |
| Charybdotoxin is a neurotoxin that blocks calcium-activated and voltage gated potassium channels by binding to one of four independent, overlapping binding sites. This...more Number of Targets: 10 | |
T3D2508 | Chlorotoxin 163515-35-3 | Not Available 4004.725 g/mol |
| Chlorotoxin blocks small conductance chloride channels. (L1043) Number of Targets: 15 | |
T3D2509 | Cobatoxin 211688-17-4 | Not Available 7131.365 g/mol |
| Cobatoxin blocks calcium-activated and voltage-gated potassium channels. (L1045) Number of Targets: 7 | |
T3D2511 | kappa-Hefutoxin 478621-50-0 | Not Available 2659.865 g/mol |
| kappa-Hefutoxin blocks voltage-gated potassium channels and also slows down their activation kinetics. (L1048) Number of Targets: 2 | |
T3D2513 | Imperatoxin-A 172451-37-5 | Not Available 3764.370 g/mol |
| Imperatoxin-A is an activator which enhances the influx of Ca2+ from the sarcoplasmatic reticulum into the cell. Imperatoxin-A acts on the Ryanodine receptors (RyR), w...more Number of Targets: 3 | |
T3D2514 | Imperatoxin-1 Not Available | Not Available 18663.670 g/mol |
| Imperatoxin-I is an inhibitor which decreases the influx of Ca2+ from the sarcoplasmatic reticulum into the cell. Imperatoxin-I acts on the Ryanodine receptors (RyR), ...more Number of Targets: 3 | |
T3D2515 | Kaliotoxin 145199-73-1 | Not Available 6461.905 g/mol |
| Kaliotoxin is a neurotoxin that binds to voltage-gated and calcium-activated potassium channels. It binds to the extracellular surface and blocks the channel, affectin...more Number of Targets: 6 | |
T3D2516 | Kaliotoxin-1 150769-72-5 | Not Available 4155.975 g/mol |
| Kaliotoxin is a neurotoxin that binds to voltage-gated and calcium-activated potassium channels. It binds to the extracellular surface and blocks the channel, affectin...more Number of Targets: 6 | |
T3D2517 | Kaliotoxin-2 159605-22-8 | Not Available 6392.840 g/mol |
| Kaliotoxin is a neurotoxin that binds to voltage-gated and calcium-activated potassium channels. It binds to the extracellular surface and blocks the channel, affectin...more Number of Targets: 6 | |
T3D2518 | Kaliotoxin-3 223246-26-2 | Not Available 4027.840 g/mol |
| Kaliotoxin is a neurotoxin that binds to voltage-gated and calcium-activated potassium channels. It binds to the extracellular surface and blocks the channel, affectin...more Number of Targets: 6 | |
T3D2519 | Kurtoxin 820959-57-7 | Not Available 7394.400 g/mol |
| Kurtoxin affects the gating of voltage-gated sodium channels and calcium channels. In calcium channels Kurtoxin binds close to the channel voltage sensor and thereby p...more Number of Targets: 14 | |
T3D2520 | Margatoxin 145808-47-5 | Not Available 4184.990 g/mol |
| Margatoxin blocks potassium channels, resulting in a loss of outward current and affecting neurotransmitter release. (L1057) Number of Targets: 1 | |
T3D2521 | Maurotoxin 188240-41-7 | Not Available 3621.205 g/mol |
| Maurotoxin acts by blocking several types of voltage-gated potassium channel. (L1059) Number of Targets: 7 | |
T3D2522 | Noxiustoxin 85205-49-8 | Not Available 4201.920 g/mol |
| Noxiustoxin blocks voltage-gated non-inactivating potassium channels and unblocks inactivating potassium channels blocked by alpha-dendrotoxin in synaptosomes. It also...more Number of Targets: 23 | |
T3D2523 | Scyllatoxin 142948-19-4 | Not Available 3430.130 g/mol |
| Scyllatoxin blocks small conductance calcium-activated potassium channels. This inhibits the slow after-hyperpolarisation that follows an action potential in some nerv...more Number of Targets: 3 | |
T3D2525 | Tamapin 508220-81-3 | Not Available 3465.100 g/mol |
| Tamapin is a selective, potent, and reversible blocker of small conductance calcium-dependent potassium channels. It inhibits SK2 with the highest affinity, SK3 with a...more Number of Targets: 3 | |
T3D2526 | Tityustoxin (Tityus serrulatus ) 39465-37-7 | Not Available 6997.935 g/mol |
| Tityustoxin binds to voltage-dependent sodium and potassium channels. alpha-Type tityustoxin inhibits the inactivation of the activated sodium channels by binding to s...more Number of Targets: 14 | |
T3D2580 | Mastoparan (Vespa tropica) 72093-21-1 | Not Available 1625.055 g/mol |
| Mastoparan causes varying types of exocytosis, depending on its location. In mast cells it causes histamine secretion, while in platelets and chromaffin cells the rele...more Number of Targets: 0 | |
T3D2581 | Hongotoxin 203526-59-4 | Not Available 4226.080 g/mol |
| Hongotoxin inhibits voltage-gated potassium channels. (L1049) Number of Targets: 4 | |
T3D2582 | Maurocalcin 269745-22-4 | Not Available 3864.570 g/mol |
| Maurocalcin potently and reversibly modifies channel gating behaviour of the type 1 ryanodine receptor by inducing prominent subconductance behaviour. (T170) Number of Targets: 1 | |
T3D2624 | Melittin (Apis mellifera) 20449-79-0 | Not Available 7584.775 g/mol |
| Melittin has strong haemolytic activity. It integrates into cell membranes and has multiple effects, probably, as a result of its interaction with negatively charged p...more Number of Targets: 12 | |
T3D2625 | Lopap Not Available | Not Available 22432.280 g/mol |
| Lopap activates thrombin by cleavage of prothrombin, causing thrombus formation, fibrinogen depletion, uncoagulable blood, decreased platelet count, inhibition of coll...more Number of Targets: 0 | |
T3D2627 | mu-Agatoxin 120500-28-9 | Not Available 4272.715 g/mol |
| mu-Agatoxins modify presynaptic voltage-activated sodium channels in the neuromuscular joints of insects. Modifying sodium channels leads to an increased sensitivity o...more Number of Targets: 0 |