Ubiquitin E3 Ligases

Ubiquitin E3 ligases (EC 6.3.2.19) attach ubiquitin molecules onto lysine residues of proteins in order to target the protein for a specific cellular process, such as proteasomal degradation or an alteration in subcellular localization.

Products
Background
文献 (3)
Gene Data

Ubiquitin E3 Ligase Inhibitors

Cat. No. 产品名称/活性
5397 A01
High affinity Smurf1 inhibitor; enhances BMP signaling
5747 Apcin
Cdc20 inhibitor; inhibits Cdc20-substrate interaction
7715 C25-140
TRAF6-Ubc13 interaction inhibitor
8044 CHIPOpt
CHIP/STUB1 E3 ligase inhibitor
7089 CSN5i-3
Potent and selective CSN5 (COP9 signalosome) inhibitor
7852 EM12-SO2F
Potent covalent inhibitor of Cereblon
8045 FITC-CHIPOpt
Fluorescent CHIP/STUB1 E3 ligase inhibitor
5636 GS 143
β-TrCP1 ligase inhibitor
5433 Heclin
HECT E3 ubiquitin ligase inhibitor
3503 HLI 373
Hdm2 inhibitor; activates p53-dependent transcription
6904 Idasanutlin
Potent MDM2 inhibitor; inhibits MDM2-p53 interaction
7289 Nimbolide
RNF114 inhibitor
3984 Nutlin-3
MDM2 antagonist; inhibits MDM2-p53 interaction
6075 Nutlin 3a
MDM2 antagonist; active enantiomer of Nutlin-3 (Cat. No. 3984)
5047 PRT 4165
Inhibitor of Bmi1/Ring1A; blocks histone H2A ubiquitination
2443 RITA
MDM2-p53 interaction inhibitor
7542 SJ 1008066
MAGE-A11 inhibitor; disrupts MAGE-A11:PCF11 interaction
4375 SMER 3
Selective inhibitor of E3 ubiquitin ligase
7192 SMIP 004
SKP2 (S-phase kinase-associated protein 2) inhibitor; upregulates p27 and arrests cell cycle in G1 phase
5332 SP 141
High affinity MDM2 inhibitor
7498 SPOP-i-6lc
SPOP E3 ubiquitin ligase inhibitor
5076 SZL P1-41
Selective Skp2 inhibitor; suppresses E3 ligase activity
0652 Thalidomide
Binds cereblon; also TNF-α synthesis inhibitor
7774 VH 032
Inhibitor of VHL; blocks interaction of VHL and HIF-α
6156 VH 298
High-affinity inhibitor of VHL
7903 VL 285
VHL inhibitor
7055 WS 383
Potent, selective and reversible DCN1-UBC12 interaction inhibitor

Ligands

Cat. No. 产品名称/活性
7476 EN 219
Covalent RNF114 ligand

Degraders

Cat. No. 产品名称/活性
6416 CM 11
Homo-PROTAC® for self-degradation of pVHL30
7219 CRBN PROTAC® 14a
Cereblon Degrader (PROTAC®)
6948 CRBN-6-5-5-VHL
Potent and selective cereblon Degrader; cell-permeable

Controls

Cat. No. 产品名称/活性
6157 cis VH 298
Negative control for VH 298
7532 CSN5i-3-NEG
Negative control for CSN5i-3 (Cat. No. 7089)
7716 N-methylated pomalidomide
Pomalidomide negative control; also functionalized cereblon ligand for generating Degrader negative controls

Other

Cat. No. 产品名称/活性
7857 BDY FL Lenalidomide
Fluorescent cereblon ligand
7633 BDY FL Thalidomide
High affinity fluorescent probe for TR-FRET cereblon binding assay
7483 BDY FL VH032
High-affinity VHL fluorescent probe for TR-FRET and FP assays
7287 FAM-DEALA-Hyp-YIPD
Fluorescent HIF-1α peptide; can be used to evaluate the effect of VHL binding on degradation activity
6782 Indisulam
Molecular glue; pre-mRNA splicing modulator
6305 Lenalidomide
Cereblon binder; induces ubiquitination and degradation of CK1α by E3 ubiquitin ligase
6302 Pomalidomide
Cereblon binder; also TNF-α inhibitor and antiangiogenic
7288 Thalidomide-Cyanine 5
High affinity cereblon fluorescent probe

Ubiquitin E3 ligases (EC 6.3.2.19) attach ubiquitin molecules onto lysine residues of proteins in order to target the protein for a specific cellular process, such as proteasomal degradation or an alteration in subcellular localization. In addition to the specific ubiquitin ligases such as MDM2, E3A and anaphase-promoting complex (APC), many other proteins also contain domains that possess ubiquitin ligase activity. Almost all known ubiquitin E3 ligases contain one of three domains: a HECT, RING or A20-type zinc finger domain. Hundreds of E3 ligases have been identified so far, and their relative abundance in comparison to E1 and E2 enzymes is thought to confer specificity to the process of ubiquitination.

Ubiquitin ligases function in a complex with an E1-activating enzyme, an E2-conjugating enzyme and an E3 ubiquitin ligase. Using ATP, E1 activates the ubiquitin molecule and transfers it to E2. E2 interacts with E3 partners to transfer the ubiquitin moeity to the target protein. Generally multiple ubiquitin molecules are attached to a protein, in a process known as polyubiquitination, but the addition of single ubiquitin molecules ('monoubiquitination') may also occur within cells.

The ubiquitin ligase MDM2 is best known for its negative regulation of the tumor suppressor p53. It does this in two ways: by binding the N-terminal of p53 and inhibiting transcriptional activation; and by targeting p53 for degradation by the 26S proteasome. The latter is accomplished by polyubiquitination of p53, a consequence of MDM2's E3 ubiquitin ligase activity. Due to its inhibition of tumor suppressor activity, MDM2 is considered to be an oncoprotein, and therefore a cancer target. MDM2 may also ubiquitinate itself, though this can be reversed by the activity of USP7 (ubiquitin-specific protease 7). When DNA damage is evident, however, MDM2 is phosphorylated by ATM kinase; this lowers its affinity for USP7, permits its proteasomal degradation, and enables p53-mediated DNA repair.

External sources of pharmacological information for Ubiquitin E3 Ligases :

    Literature for Ubiquitin E3 Ligases

    Tocris offers the following scientific literature for Ubiquitin E3 Ligases to showcase our products. We invite you to request* your copy today!

    *Please note that Tocris will only send literature to established scientific business / institute addresses.


    TPD and Induced Proximity Research Product Guide

    TPD and Induced Proximity Research Product Guide

    This brochure highlights the tools and services available from Bio-Techne to support your Targeted Protein Degradation and Induced Proximity research, including:

    • Active Degraders
    • TAG Degradation Platform
    • Degrader Building Blocks
    • Assays for Protein Degradation
    • Induced Proximity Tools
    Programmed Cell Death Poster

    Programmed Cell Death Poster

    There are two currently recognized forms of programmed cell death: apoptosis and necroptosis. This poster summarizes the signaling pathways involved in apoptosis, necroptosis and cell survival following death receptor activation, and highlights the influence of the molecular switch, cFLIP, on cell fate.

    Targeted Protein Degradation Poster

    Targeted Protein Degradation Poster

    Degraders (e.g. PROTACs) are bifunctional small molecules, that harness the Ubiquitin Proteasome System (UPS) to selectively degrade target proteins within cells. They consist of three covalently linked components: an E3 ubiquitin ligase ligand, a linker and a ligand for the target protein of interest. Authored in-house, this poster outlines the generation of a toolbox of building blocks for the development of Degraders. The characteristics and selection of each of these components are discussed. Presented at EFMC 2018, Ljubljana, Slovenia

    Ubiquitin E3 Ligase Gene Data

    Gene Species Gene Symbol Gene Accession No. Protein Accession No.
    MDM2 Human MDM2 NM_006880 Q00987
    Mouse Mdm2 NM_010786 P23804
    Rat Mdm2 NM_001108099 NP_001101569
    SKP2 Human SKP2 NM_005983 Q13309
    Mouse Skp2 NM_145468 Q9Z0Z3
    Rat Skp2 NM_001106416 NP_001099886