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Literature DB >> 29345898

Engineered Phage Matrix Stiffness-Modulating Osteogenic Differentiation.

Hee-Sook Lee^1,2, Jeong-In Kang^3,4,5, Woo-Jae Chung⁶, Do Hoon Lee⁷, Byung Yang Lee⁷, Seung-Wuk Lee¹, So Young Yoo^3,4.

Abstract

Herein, we demonstrate an engineered phage mediated matrix for osteogenic differentiation with controlled stiffness by cross-linking the engineered phage displaying Arg-Gly-Asp (RGD) and His-Pro-Gln (HPQ) with various concentrations of streptavidin or polymer, poly(diallyldimethylammonium)chloride (PDDA). Osteogenic gene expressions showed that they were specifically increased when MC3T3 cells were cultured on the stiffer phage matrix than the softer one. Our phage matrixes can be easily functionalized using chemical/genetic engineering and used as a stem cell tissue matrix stiffness platform for modulating differential cell expansion and differentiation.

Entities: Chemical

Keywords: differentiation; matrix; osteogenic; phage; stiffness

Mesh：

Substances：
Hydrogels

Year: 2018 PMID： 29345898 DOI： 10.1021/acsami.7b17871

Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN： 1944-8244 Impact factor: 9.229

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Cited

5 in total

Engineered Phage Matrix Stiffness-Modulating Osteogenic Differentiation.

Review 1. Bacteriophage Capsid Modification by Genetic and Chemical Methods.

2. Chimeric Adeno-Associated Virus-Mediated Cardiovascular Reprogramming for Ischemic Heart Disease.

Review 3. Phage-Based Artificial Niche: The Recent Progress and Future Opportunities in Stem Cell Therapy.

Review 4. A Review on the Design of Hydrogels With Different Stiffness and Their Effects on Tissue Repair.

5. A Cancer-Favoring, Engineered Vaccinia Virus for Cholangiocarcinoma.