Browsing Toxins By Category
Displaying toxin 1126 - 1150 of 3678 in total
| T3DB ID | Name CAS Number | Formula Weight | Structure | Type | Mechanism of Toxicity |
|---|---|---|---|---|---|
| T3D1349 | Mercuric oleate 1191-80-6 | C36H66HgO4 763.500 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1350 | Methylmercuric dicyanamide 502-39-6 | C3H6HgN4 298.700 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 88 |
| T3D1351 | Ethylmercuric phosphate 2235-25-8 | C2H7HgO4P 326.640 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1352 | Methoxyethelmercuric acetate 151-38-2 | C5H10HgO3 318.720 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1353 | Ethoxyethyl hydroxy mercury 26983-51-7 | C4H10HgO2 290.710 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1354 | Phenylmercuric chloride 100-56-1 | C6H5ClHg 313.150 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 51 |
| T3D1355 | Phenylmercuric nitrate 55-68-5 | C6H5HgNO3 339.700 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 59 |
| T3D1356 | Mercurol 12002-19-6 | C4H4Hg 252.660 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1357 | Mercaptomerin 20223-84-1 | C16H27HgNO6S 562.040 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1358 | Diethyl mercury 627-44-1 | C4H10Hg 258.710 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1359 | Ethylmercury chloride 107-27-7 | C2H5ClHg 265.100 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 51 |
| T3D1360 | Meralluride 140-20-5 | C9H16HgN2O6 448.820 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1361 | Merbromin 129-16-8 | C20H8Br2HgNa2O6 750.650 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 56 |
| T3D1362 | Mersalyl acid 486-67-9 | C12H14HgNNaO7 507.820 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1363 | Phenylmercuric borate 102-98-7 | C6H7BHgO3 338.520 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 50 |
| T3D1364 | Thiomersal 54-64-8 | C9H9HgNaO2S 404.810 g/mol |  |
| High-affinity binding of the divalent mercuric ion to thiol or sulfhydryl groups of proteins is believed to be the major mechanism for the activity of mercury. Through...more Number of Targets: 53 |
| T3D1367 | Cadmium cyclohexane-butyrate 55700-14-6 | C20H34CdO4 450.893 g/mol |  |
| Cadmium initially binds to metallothionein and is transported to the kidney. Toxic effects are observed once the concentration of cadmium exceeds that of available met...more Number of Targets: 19 |
| T3D1371 | Cadmium 3-ethylhexanoate 2420-98-6 | C16H30CdO4 398.818 g/mol |  |
| Cadmium initially binds to metallothionein and is transported to the kidney. Toxic effects are observed once the concentration of cadmium exceeds that of available met...more Number of Targets: 19 |
| T3D1372 | Cadmium cyanide 542-83-6 | C2CdN2 164.446 g/mol |  |
| Cadmium initially binds to metallothionein and is transported to the kidney. Toxic effects are observed once the concentration of cadmium exceeds that of available met...more Number of Targets: 61 |
| T3D1373 | Zinc cadmium sulfide 68583-45-9 | CdS2Zn 241.950 g/mol |  |
| Anaemia results from the excessive absorption of zinc suppressing copper and iron absorption, most likely through competitive binding of intestinal mucosal cells. Unba...more Number of Targets: 20 |
| T3D1374 | Cadmium(I) tetrachloroaluminate 79110-87-5 | Cd2Al2Cl8 562.412 g/mol |  |
| Cadmium initially binds to metallothionein and is transported to the kidney. Toxic effects are observed once the concentration of cadmium exceeds that of available met...more Number of Targets: 21 |
| T3D1375 | Beryllium silicate 13598-00-0 | Be2O4Si 110.108 g/mol |  |
| Once in the body, beryllium acts as a hapten and interacts with human leucocyte antigen (HLA) DP presenting cells in the lungs, becoming physically associated with a m...more Number of Targets: 3 |
| T3D1376 | Zinc beryllium silicate 39413-47-3 | BeO4SiZn 166.504 g/mol |  |
| Anaemia results from the excessive absorption of zinc suppressing copper and iron absorption, most likely through competitive binding of intestinal mucosal cells. Unba...more Number of Targets: 4 |
| T3D1377 | Basic beryllium carbonate 66104-24-3 | C2H2Be3O8 181.069 g/mol |  |
| Once in the body, beryllium acts as a hapten and interacts with human leucocyte antigen (HLA) DP presenting cells in the lungs, becoming physically associated with a m...more Number of Targets: 3 |
| T3D1383 | Cobalt(III) hydroxide 1307-86-4 | CoH6O3 112.979 g/mol |  |
| Cobalt is believed to exhibit its toxicity through a oxidant-based and free radical-based processes. It produces oxygen radicals and may be oxidized to ionic cobalt, c...more Number of Targets: 35 |