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TRUE9

Sigma-Aldrich

TrueGel3D Hydrogel Kits

SLO-PVA, PEG non cell-degradable crosslinker

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About This Item

UNSPSC Code:
12352207
NACRES:
NA.71

shipped in

dry ice

storage temp.

−70°C

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General description

The gel is formed by stable thioether bonds between thiol groups on PEG non cell-degradable crosslinker and thio-reactive groups on SLO-PVA. The polymer, SLO-PVA is functionalized with thiol-reactive groups which react with crosslinker at slower rate than maleimides in FAST-PVA. SLO-PVA does not have sites for cell attachment, but it can be customized to conjugate RGD peptide using TrueGel3D RGD peptide (TRUERGD-1EA) prior to the crosslinking step.

Application

TRUE9-1KT is used to generate hydrogels of different stiffness (0.15 to 5 KPa shear modulus) to mimic in-vivo conditions and to investigate the effect of matrix stiffness on cell physiology and behavior.SLO-PVA based gels are used to grow cells that do not need attachment to hydrogel for survival but rather use their secreted extracellular matrix. The SLO-PVA based hydrogels are preferred over dextran-based gels for long-term culture of cells producing carbohydrate degrading enzymes. TrueGel3DTM Hydrogel Kits has been used in the generation of 3D gel based tumor models.

Features and Benefits

  • Slow gelling (takes 6 minutes to 25 minutes, depends on gel stiffness)
  • Flexibility in modulating gel stiffness
  • Does not allow cell migration
  • Does not allow cell recovery and post-culture analyses
  • Cell inert hydrogel (if not customized with RGD peptide)

Components

TRUE9-1KT contains SLO-PVA solution in phosphate buffer and lyophilized PEG non cell-degradable crosslinker with reconstitution buffer and water.

Caution

Avoid prolong exposure of PEG non cell-degradable crosslinker to air and store SLO-PVA in small portions to avoid frequent freeze-thaw cycles.

Pictograms

Corrosion

Signal Word

Warning

Hazard Statements

Hazard Classifications

Eye Irrit. 2 - Met. Corr. 1 - Skin Irrit. 2

Storage Class Code

8A - Combustible corrosive hazardous materials

WGK

WGK 3


Certificates of Analysis (COA)

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Design of Spherically Structured 3D In vitro Tumor Models-Advances and Prospects
Ferreira LP, et al.
Acta Biomaterialia (2018)

Articles

Troubleshoot TrueGel3D™ hydrogel formation and cell viability issues with RGD-degradable polymer and CD cell-degradable crosslinker.

Troubleshoot TrueGel3D™ hydrogel formation and cell viability issues with RGD-degradable polymer and CD cell-degradable crosslinker.

Troubleshoot TrueGel3D™ hydrogel formation and cell viability issues with RGD-degradable polymer and CD cell-degradable crosslinker.

Troubleshoot TrueGel3D™ hydrogel formation and cell viability issues with RGD-degradable polymer and CD cell-degradable crosslinker.

See All

Protocols

TrueGel3D™ is a chemically defined hydrogel for 3D cell growth, facilitating microchannel filling with slow gelation.

TrueGel3D™ is a chemically defined hydrogel for 3D cell growth, facilitating microchannel filling with slow gelation.

TrueGel3D™ is a chemically defined hydrogel for 3D cell growth, facilitating microchannel filling with slow gelation.

TrueGel3D™ is a chemically defined hydrogel for 3D cell growth, facilitating microchannel filling with slow gelation.

See All

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