-
60950-10
Thomas Scientific
( )trans-2,5-bis-(3,4,5-Trimethoxyphenyl)-1,3-dioxolane-10 mg
Price: $569.06List Price: $632.28trans-BTP Dioxolane is a PAF receptor antagonist. This compound demonstrates competitive antagonism of PAF in a rabbit washed platelet assay (Ki = 0.3 µM). -
10006692-1Cloprostenol is a synthetic PGF2&alpha analog and a potent FP receptor agonist. (+)-15-epi Cloprostenol is the 15(S), or 15&beta-hydroxy enantiomer of (+)-cloprostenol.
-
10006692-10Cloprostenol is a synthetic PGF2&alpha analog and a potent FP receptor agonist. (+)-15-epi Cloprostenol is the 15(S), or 15&beta-hydroxy enantiomer of (+)-cloprostenol.
-
10006692-5Cloprostenol is a synthetic PGF2&alpha analog and a potent FP receptor agonist. (+)-15-epi Cloprostenol is the 15(S), or 15&beta-hydroxy enantiomer of (+)-cloprostenol.
-
10008887-1An analog of goniothalesdiol, a tetrahydrofuran compound known to have significant cytotoxic effects against P388 murine leukemia cells and pesticidal activities.
-
10008887-10An analog of goniothalesdiol, a tetrahydrofuran compound known to have significant cytotoxic effects against P388 murine leukemia cells and pesticidal activities.
-
10008887-5An analog of goniothalesdiol, a tetrahydrofuran compound known to have significant cytotoxic effects against P388 murine leukemia cells and pesticidal activities.
-
10004970-1A minor impurity produced in the synthesis of (+)-cloprostenol 20-fold less active than (+)-cloprostenol in terminating pregnancy in the hamster.
-
10004970-10A minor impurity produced in the synthesis of (+)-cloprostenol 20-fold less active than (+)-cloprostenol in terminating pregnancy in the hamster.
-
10004970-25A minor impurity produced in the synthesis of (+)-cloprostenol 20-fold less active than (+)-cloprostenol in terminating pregnancy in the hamster.
-
10004970-5A minor impurity produced in the synthesis of (+)-cloprostenol 20-fold less active than (+)-cloprostenol in terminating pregnancy in the hamster.
-
10073-1A plant hormone with diverse roles in disease resistance, plant development, and response to stresses regulates gene expression and may contribute to epigenetic changes at the chromatin level.