Please note that T3DB is currently undergoing changes to improve data quality and
website features. You can access the original version of T3DB
here.
Browsing toxins
| T3DB ID | Name CAS Number |
Formula Weight |
Structure | Type | Mechanism of Action |
|---|---|---|---|---|---|
| T3D0352 | Mercury(I) bromide 15385-58-7 |
Br2Hg2 560.99 |
|
|
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 |
| T3D0353 | Mercury(II) bromide 7789-47-1 |
Br2Hg 360.4 |
|
|
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 |
| T3D0354 | Mercury(II) nitrate 10045-94-0 |
HHgNO3 263.6 |
|
|
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 |
| T3D0355 | Mercury(I) nitrate 10415-75-5 |
HHgNO3 263.6 |
|
|
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 |
| T3D0356 | Mercury(II) thiocyanate 592-85-8 |
C4HgK2N4S4 511.12 |
|
|
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 |
| T3D0357 | Mercury(II) sulfate 7783-35-9 |
|
|
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 | |
| T3D0358 | Mercury(I) sulfate 7783-36-0 |
HgO4S 296.65 |
|
|
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 |
| T3D0360 | Methylmercuric chloride 125-09-3 |
CH3ClHg 251.08 |
|
|
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 |
| T3D0361 | Dimethyl mercury 593-74-8 |
C2H6Hg 230.66 |
|
|
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 |
| T3D0362 | Mercuric potassium iodide 7783-33-7 |
HgI4K2 786.4 |
|
|
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 |
| T3D0363 | Mercury(II) cyanide 592-04-1 |
C2HgN2 252.62 |
|
|
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 |
| T3D0364 | Cadmium acetate 543-90-8 |
|
|
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 | |
| T3D0367 | Cadmium arsenide 12006-15-4 |
As2Cd3 487.076 |
|
|
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 |
| T3D0368 | Cadmium bromate 14518-94-6 |
Br2CdO6 368.215 |
|
|
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 |
| T3D0369 | Cadmium bromide 7789-42-6 |
Br2Cd 272.219 |
|
|
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 |
| T3D0370 | Cadmium carbonate 513-78-0 |
CCdO3 172.42 |
|
|
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 |
| T3D0371 | Cadmium chloride 10108-64-2 |
CdCl2 183.317 |
|
|
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 |
| T3D0372 | Cadmium fluoborate 14486-19-2 |
B2CdF8 286.02 |
|
|
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 |
| T3D0373 | Cadmium fluoride 7790-79-6 |
CdF2 150.408 |
|
|
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 |
| T3D0374 | Cadmium fluosilicate 17010-21-8 |
CdF6Si 254.487 |
|
|
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 |
| T3D0375 | Cadmium hydroxide 21041-95-2 |
|
|
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 | |
| T3D0376 | Cadmium iodide 7790-80-9 |
CdI2 366.22 |
|
|
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 |
| T3D0377 | Cadmium lactate 16039-55-7 |
C6H10CdO6 290.551 |
|
|
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 |
| T3D0378 | Cadmium nitrate 10325-94-7 |
CdN2O6 236.421 |
|
|
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 |
| T3D0380 | Cadmium oxide fume 1306-19-0 |
CdO 128.41 |
|
|
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 |