2022
DOI: 10.1186/s42825-022-00103-5
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Characterization of recombinant humanized collagen type III and its influence on cell behavior and phenotype

Abstract: Collagen made a tremendous impact in the field of regenerative medicine as a bioactive material. For decades, collagen has been used not only as a scaffolding material but also as an active component in regulating cells' biological behavior and phenotype. However, animal-derived collagen as a major source suffered from problems of immunogenicity, risk of viral infection, and the unclear relationship between bioactive sequence and function. Recombinant humanized collagen (rhCol) provided alternatives for regene… Show more

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Cited by 17 publications
(5 citation statements)
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“…The intersection of G and G gradually increased with increasing concentration, and the corresponding frequencies were mainly distributed in 14.68-21.54, 14.68-21.54 Hz, 31.62-46.42 Hz, 46.42-68.13 Hz, and 46.42-68.13 Hz. The findings were superior to earlier studies on bovine collagen [21], which could be attributed to the camel's colossal body weight, hostile environment, camel hoof protein composition, and molecular structure [11]. Figure 6c shows the changes in tan δ as a function of frequency.…”
Section: Rheological Analysiscontrasting
confidence: 67%
See 1 more Smart Citation
“…The intersection of G and G gradually increased with increasing concentration, and the corresponding frequencies were mainly distributed in 14.68-21.54, 14.68-21.54 Hz, 31.62-46.42 Hz, 46.42-68.13 Hz, and 46.42-68.13 Hz. The findings were superior to earlier studies on bovine collagen [21], which could be attributed to the camel's colossal body weight, hostile environment, camel hoof protein composition, and molecular structure [11]. Figure 6c shows the changes in tan δ as a function of frequency.…”
Section: Rheological Analysiscontrasting
confidence: 67%
“…Type I collagen is mainly involved in forming protofibrils in tendons, ligaments, and bones [19]. Type III collagen and type VI collagen are primarily associated with developing type III and V collagen trimers and assembling collagen fibers and other multimeric structures [20,21]. The CHC had the highest percentage (Figure 1) of type I collagen (48.85% for IBAQ), followed by type III collagen (α1) and type VI collagen (α1, α2, α3).…”
Section: Proteome Identificationmentioning
confidence: 99%
“…Type I collagen (Col I) was prepared in the laboratory. 17 HA-MA and Col-MA were synthesized using a method adapted from Kong et al and Dong et al 14,18 The degree of substitution (DS) of HA-MA and Col-MA was analyzed using 1 H NMR (400 MHz, Bruker/AV11) with D 2 O and DMSO as solvents, respectively. MestReNova was used for data analysis.…”
Section: Synthesis and Characterization Of Ha-ma And Col-mamentioning
confidence: 99%
“…Specifically, based on the liquid crystal properties of ASC, an artificial stroma was created to promote the adhesion and proliferation of epithelial cells, thereby contributing to corneal recovery [168]. With regards to recombinant collagen, it is commonly manufactured into scaffolds with structured micro-architecture for the regeneration of corneal stroma by facilitating cellular growth and collagen deposition [169]. Common modifications to collagen are used in corneal repair, such as the application of hydroxypropyl methylcellulose to improve light transmittance and refractive indices [170], riboflavin to enhance the biochemical properties [171], and hyaluronic acid to improve biocompatibility [172].…”
Section: Corneal Repairingmentioning
confidence: 99%