Biotin-Ahx-SUMO2-Dha
an activity-based probe for the SUMO ligation pathway, labeled with biotin on the N-terminus
Additional information
| Weight | 0.005 kg |
|---|---|
| catalogue | |
| wholesale | |
| Applications | Crystallization, Pull down, Purification, Western Blot, Phenotypic protein profiling, Target inhibitor profiling |
| target | |
| source | |
| shipping | |
| purity | |
| molecular weight | |
| storage | Powder at −20°C; solution at −80°C. Protect from light. Please avoid multiple freeze/thaw cycles. |
| sample preparation | For detailed sample preparation see product sheet. |
| regulatory statement |
€350.00
- Description
- Additional information
- references
Description
Biotin-Ahx-SUMO2-Dha (UbiQ-159) is an activity-based probe for the SUMO ligation pathway. It is based on the SUMO2 sequence in which the C-terminal Gly has been replaced by a dehydroalanine residue. The native Cys48 has been mutated to a Ser residue. The N-terminus is labeled with biotin; an aminohexanoic acid (Ahx) linker is used to create extra space between the biotin and Ub protein for efficient access of biotin binding entities. It has been prepared by total chemical synthesis and is therefore well-defined in terms of biotinylation site. UbiQ-159 is processed in a native manner by SUMO E1, E2 and E3 ligases and during this process it forms an electrophilic intermediate that can react with the active site Cys residue of the E1, E2 and E3 enzymes, thereby creating a covalent bond.
Additional information
| Weight | 0.005 kg |
|---|---|
| catalogue | |
| wholesale | |
| Applications | Crystallization, Pull down, Purification, Western Blot, Phenotypic protein profiling, Target inhibitor profiling |
| target | |
| source | |
| shipping | |
| purity | |
| molecular weight | |
| storage | Powder at −20°C; solution at −80°C. Protect from light. Please avoid multiple freeze/thaw cycles. |
| sample preparation | For detailed sample preparation see product sheet. |
| regulatory statement |
Mulder et al., A cascading activity-based probe sequentially targets E1–E2–E3 ubiquitin enzymes. Nature Chem Bio (2016) https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5108872/