Creative Biolabs has established a proficient and advanced custom Synthetic Polymer Modification service platform, including monomethoxypolyethylene glycol (mPEG) and dextran bioconjugation with protein, peptide, enzymes, DNA, RNA, siRNA, drugs, fluorescent dye, lipid, small molecule particles, solid surface and et al. Many derivatives form mPEG and dextran are also available in Creative Biolabs. Through synthetic polymer modification, molecules such as oligonucleotide, proteins gain a great deal of advantages that includes reducing immune response, processing long half-lives, increasing stability, and et al.
Some of our featured bioconjugation targets are listed below:
Oligonucleotide | Proteins | Others |
Oligo | Amino acid | Drug |
DNA | Peptide | Fluorescent dye |
RNA | Cytokine | Dye |
siRNA | Enzyme | Small Molecule |
Genome | Antibody | Metal chelator |
sdAb | Lipid |
Some of our featured derivatives form mPEG and dextran for bioconjugations
mPEG | Dextran |
Trichloro-s-triazine (TsT)–mPEG | Polyaldehyde-Dextran |
Succinimidyl succinate (SS)–mPEG | Amine-terminal dextran |
Succinimidyl carbonate (SC)-mPEG | Carboxyl-terminal dextran |
Succinylated mPEG | Hydrazide–dextran |
N,N′-Carbonyldiimidazole (CDI)-mPEG | Ethylenediamine–dextran |
Epichlorohydrin-mPEG | Carboxymethyl–dextran |
Epoxide-dextran | |
Sulfhydryl-dextran | |
N-succinimidyl 3-(2-pyridyldithio)propionate (SPDP)- dextran |
Any questions and requirements, please contact us at
All listed services and products are For Research Use Only. Do Not use in any diagnostic or therapeutic applications.