133852-23-0Relevant articles and documents
Orthogonal enzymatic reactions to control supramolecular hydrogelations
Chen, Guoqin,Ren, Chunhua,Wang, Ling,Xu, Bing,Yang, Zhimou
, p. 53 - 58 (2012)
Enzyme-responsive hydrogels have great potential in applications of controlled drug release, tissue engineering, etc. In this study, we reported on a supramolecular hydrogel that showed responses to two enzymes, phosphatase which was used to form the hydrogels and esterase which could trigger gel-sol phase transitions. The gelation process and visco-elasticity property of the resulting gel, morphology of the nanostructures in hydrogel, and peptide conformation in the self-assembled nanostructure were characterized by rheology, transmission electron microscope (TEM), and circular dichroism (CD), respectively. Potential application of the enzyme-responsive hydrogel in drug release was also demonstrated in this study. Though only one potential application of drug release was proved in this study, the responsive hydrogel system in this study might have potentials for the applications in fields of cell culture, controlled-drug release, etc. Copyright
Efficient Building Blocks for Solid-Phase Peptide Synthesis of Spin Labeled Peptides for Electron Paramagnetic Resonance and Dynamic Nuclear Polarization Applications
Brodrecht, Martin,Herr, Kevin,Bothe, Sarah,de Oliveira, Marcos,Gutmann, Torsten,Buntkowsky, Gerd
, p. 1475 - 1487 (2019/05/22)
Specific spin labeling allows the site-selective investigation of biomolecules by EPR and DNP enhanced NMR spectroscopy. A novel spin labeling strategy for commercially available Fmoc-amino acids is developed. In this approach, the PROXYL spin label is covalently attached to the hydroxyl side chain of three amino acids hydroxyproline (Hyp), serine (Ser) and tyrosine (Tyr) by a simple three-step synthesis route. The obtained PROXYL containing building-blocks are N-terminally protected by the Fmoc-protection group, which makes them applicable for the use in solid-phase peptide synthesis (SPPS). This approach allows the insertion of the spin label at any desired position during SPPS, which makes it more versatile than the widely used post synthetic spin labeling strategies. For the final building-blocks, the radical activity is proven by EPR. DNP enhanced solid-state NMR experiments employing these building-blocks in a TCE solution show enhancement factors of up to 26 for 1H and 13C (1H→13C cross-polarization). To proof the viability of the presented building-blocks for insertion of the spin label during SPPS the penta-peptide Acetyl-Gly-Ser(PROXYL)-Gly-Gly-Gly was synthesized employing the spin labeled Ser building-block. This peptide could successfully be isolated and the spin label activity proved by EPR and DNP NMR measurements, showing enhancement factors of 12.1±0.1 for 1H and 13.9±0.5 for 13C (direct polarization).
A gene vaccine carrier, preparation method and application thereof
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Paragraph 0036; 0038; 0040; 0041, (2017/08/26)
The invention discloses a gene vaccine vector, and a preparation method and an application thereof; the gene vaccine vector is a supramolecular hydrogel formed through phosphatase catalysis of a small-molecular peptide; the small-molecular peptide has the structural formula represented by the formula (I), wherein when m=1, n=0, 1, 2 or 3; when n=1, m=1, 2 or 3. The gene vaccine vector after being loaded with DNA has the advantages of strong immunogenicity, large load capacity, no obvious toxicity and injectable immunity. The gene vaccine vector is mild in preparation conditions and simple in process.