Rho GTPases
Rho GTPases regulate many aspects of actin dynamics and are involved in processes that are dependent on changes to cell morphology and movement, including phagocytosis, mitosis and wound healing. They also regulate neuron dendrite spine growth, a key feature of synaptic plasticity that underlies learning and memory.
Rho GTPase Inhibitors |
|
|---|---|
| Cat. No. | 产品名称/活性 |
| 6701 | 1A-116 |
| Rac1 inhibitor; blocks Rac1-P-Rex1 interaction | |
| 5050 | CASIN |
| Cdc42 inhibitor | |
| 4568 | CPYPP |
| DOCK2-Rac1 interaction inhibitor | |
| 6248 | EHop 016 |
| Rac inhibitor | |
| 3872 | EHT 1864 |
| Potent Rac family inhibitor | |
| 4266 | ML 141 |
| Selective Cdc42 Rho family inhibitor | |
| 2161 | NSC 23766 |
| Selective inhibitor of Rac1-GEF interaction; antioncogenic | |
| 5003 | Rhosin hydrochloride |
| Rho inhibitor | |
Rho GTPase Activators |
|
| Cat. No. | 产品名称/活性 |
| 7089 | CSN5i-3 |
| Increases expression and activity of Rho GTPases; also CSN5 (COP9 signalosome) inhibitor | |
Other |
|
| Cat. No. | 产品名称/活性 |
| 7091 | Miro1 Reducer |
| Promotes mitochondrial Rho GTPase 1 (Miro1) degradation | |
| 3715 | Narciclasine |
| Stimulates RhoA activation; antiproliferative agent that slows cell cycle progression | |
Rho GTPases regulate many aspects of actin dynamics and are involved in processes that are dependent on changes to cell morphology and movement, including phagocytosis, mitosis and wound healing. To enable cells to respond to external cues, these processes require rapidly activated and spatio-temporally regulated signaling networks, of which Rho GTPases are a key component.
Three Rho GTPases have been widely studied: Cdc42, Rac1 and RhoA. For these enzymes, over 60 targets have been identified including Rho-Kinases (ROCKs), phospholipases and ion channels. As with other small GTPases, the activity of Rho GTPases is regulated by GEFs and GAPs. Inactive Rho GTPases are sequestered to the cytosol by Rho-specific guanine nucleotide dissociation inhibitors (GDIs), preventing their membrane association. Of the 20 Rho family members, 10 have been identified as being constitutively bound to GTP and so are constitutively active and have alternative regulation mechanisms.
Neuronal dendrite spine growth is dependent on Rho GTPases. This process is key to synaptic plasticity and long-term potentiation/depression, which underly learning and memory. RhoA and Cdc42 are activated by CamKII, which is activated by the influx of Ca2+ through NMDA receptors upon glutamate binding.
External sources of pharmacological information for Rho GTPases :
Rho GTPases Gene Data
| Gene | Species | Gene Symbol | Gene Accession No. | Protein Accession No. |
|---|---|---|---|---|
| CDC42 | Human | CDC42 | NM_001791 | P60953 |
| Mouse | Cdc42 | NM_009861 | P60766 | |
| Rat | Cdc42 | NM_080689 | P21575 | |
| Rac1 | Human | RAC1 | NM_018890 | P63000 |
| Mouse | Rac1 | NM_001347530 | P63001 | |
| Rat | Rac1 | NM_134366 | NP_599193 | |
| RHOA | Human | RHOA | NM_001664 | P61586 |
| Mouse | Rhoa | NM_016802 | Q9QUI0 | |
| Rat | Rhoa | NM_057132 | NP_476473 |