Cell Cycle/Checkpoint
The cell cycle is consisted of 4 main phases: Gap 1 (G1), DNA replication (S), Gap 2 (G2), and mitosis (M). There are “checkpoints” mechanism regulates the transition between these phases, at the G1/S boundary, in the S-phase and during G2/M phases. Cell can only pass through these checkpoints when signaling factors are activated and free of DNA damage. Important proteins that control cell cycle events and checkpoints are cullins, cyclins, cyclin-dependent kinases (Cdks), p53 and their inhibitors etc. Cdks family (Cdk2, Cdk3, Cdk4 and Cdk6) are Ser/Thr kinases that regulate cell cycle progression in association with cyclin binding partners (cyclin D, cyclin E and cyclin A) during all four phases. p53 halts the cell cycle if the DNA is damaged and allowing time for DNA repair to progress; it can also initiate apoptosis if DNA damage is too severe to be repaired.
-
B6076 MyoseverinSummary: microtubule-binding molecule -
C3889 FerulenolSummary: antimycobacterial activity and stimulates tubulin polymerization
-
B5870 ELR510444Summary: Novel microtubule disruptor
-
B5922 CevipabulinSummary: Anti-microtubule agent
-
C4087 MebendazoleSummary: broad-spectrum anthelmintic that inhibits intestinal microtubule synthesis
-
C4226 Phomopsin ASummary: cyclic hexapeptide mycotoxin that binds β-tubulin
-
B4757 INH6Summary: Hec1/Nek2 inhibitor, potent
-
B7788 MPC 6827 hydrochlorideSummary: Potent microtubule inhibitor
-
B4892 TAI-1Target: Hec1Summary: Hec1 inhibitor, potent, first-in-class
-
B3386 Eribulin mesylateSummary: synthetic analogue of halichondrin B