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Key Documents

G9391

Sigma-Aldrich

Bovine Gelatin

from bovine skin, Type B, powder, suitable for cell culture

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About This Item

Numéro CAS:
Numéro CE :
Numéro MDL:
Code UNSPSC :
12352202
Nomenclature NACRES :
NA.75

product name

Gelatin from bovine skin, Type B, powder, BioReagent, suitable for cell culture

Source biologique

bovine skin

Niveau de qualité

Stérilité

sterile

Type

Type B

Gamme de produits

BioReagent

Forme

powder

Conditionnement

pkg of 100 g
pkg of 500 g

Technique(s)

cell culture | mammalian: suitable

Résistance du gel

~225 g Bloom

Solubilité

H2O: soluble 50 mg/mL, hazy to strongly hazy, faintly yellow to yellow

Conditions d'expédition

ambient

Température de stockage

room temp

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Description générale

Gelatin is a heterogeneous mixture of water-soluble proteins of high average molecular masses, present in collagen. Proteins are extracted by boiling the relevant skin, tendons, ligaments, bones, etc. in water. Type A gelatin is derived from acid-cured tissue. Type B is derived from lime-cured tissue. Gelatin is a hydrocolloid and is rich in glycine, proline and hydroxyproline, which impart structural stability. It is synthesized from the alkaline digestion of collagen from bovine skin and is referred as type B. It has wide applications in food industry. Gelatin takes up random coil structure after digestion from the triple helical collagen. The most common source for industrial production of gelatin is slaughter byproducts. The type A gelatin from porcine and type B differ in their isoelectric pH. The N-terminal sequence of bovine gelatin is unique for its identification. It has gelling property and displays surface behaviour for use in foams and adhesions.

Application

Gelatin has been used:
  • in coating cell culture to improve attachment of cells,
  • in PCR to stabilize Taq DNA, as a blocking reagent in Western blotting, ELISA, and immunochemistry,
  • as a component of media for species differentiation in bacteriology
  • as a biocompatible polymer
  • as a delivery vehicle for the release of active biomolecules
  • in the generation of scaffolds for tissue engineering applications.
  • to study long-chain fatty acid-induced changes in gene expression in neonatal cardiac monocytes
  • to study to test mobilization of capillary endothelium in-vitro induced by effectors of angiogenesis in vivo
This product is recommended as a cell culture substratum at 1-5 μg/cm2 or 0.5-50 μg/mL. The optimal concentration depends on cell type and the application and research objectives.

Actions biochimiques/physiologiques

Gelatin is commonly used in place of collagen due to its reduced immune antigenicity and cost-effectiveness. This macromolecule contains arginine-glycine-aspartic acid (RGD) sequences, known to promote osteoblast adhesion and enhance osteointegration. Its similar properties make gelatin a favorable substitute for collagen in many applications. Gelatin finds extensive use in enhancing cell attachment across various cell types. Moreover, it serves as a biocompatible polymer with applications in delivering bioactive molecules and creating scaffolds for tissue engineering purposes. This versatile material contributes to improved cell adhesion, controlled release of bioactive substances, and the development of tissue-engineered scaffolds.

Composants

Gelatin is a heterogeneous mixture of water-soluble proteins of high average molecular masses, present in collagen. Proteins are extracted by boiling the relevant skin, tendons, ligaments, bones, etc. in water. Type A gelatin is derived from acid-cured tissue. Type B is derived from lime-cured tissue.

Attention

Dry gelatin, when stored in airtight containers at room temperature, will remain unchanged for many years. When heated at 100°C in the presence of air, it swells becomes soft and disintegrates to a carbonaceous mass with evolution of pyridine bases and ammonia.

Notes préparatoires

This product is derived from bovine skin. Gelatin is soluble in hot than in cold water. It is practically insoluble in most organic solvents such as alcohol, chloroform, carbon disulfide, carbon tetrachloride, ether, benzene, acetone, and oils. The Bloom number, determined by the Bloom gelometer, is an indication of the strength of a gel formed from a solution of the known concentration. The Bloom number is proportional to the average molecular mass. Bloom numbers of porcine skin Gelatin vary from 90 to 300 g.

Code de la classe de stockage

11 - Combustible Solids

Classe de danger pour l'eau (WGK)

nwg

Point d'éclair (°F)

Not applicable

Point d'éclair (°C)

Not applicable

Équipement de protection individuelle

Eyeshields, Gloves, type N95 (US)


Certificats d'analyse (COA)

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Consulter la Bibliothèque de documents

Tao Jiang et al.
Scientific reports, 7(1), 4575-4575 (2017-07-06)
Human tumour progression is a dynamic process involving diverse biological and biochemical events such as genetic mutation and selection in addition to physical, chemical, and mechanical events occurring between cells and the tumour microenvironment. Using 3D bioprinting we have developed
bFGF-containing electrospun gelatin scaffolds with controlled nano-architectural features for directed angiogenesis
Montero RB, et al.
Acta Biomaterialia, 8(5), 1778-1791 (2012)
Kathryn E Drzewiecki et al.
Biophysical journal, 111(11), 2377-2386 (2016-12-08)
Type-I collagen assembles in a stepwise, hierarchic fashion from the folding of the triple helix to the assembly of fibrils into fibers. The mature assembled fibers are crucial for tissue structure and mechanics, cell interactions, and other functions in vivo. Although triple
Investigation and Application of HA Composite Coating on the Ti Alloy
Qiang W, et al.
Journal of Separation Science (2013)
A microparticle approach to morphogen delivery within pluripotent stem cell aggregates
Bratt-Leal AM, et al.
Biomaterials, 34(30), 7227-7235 (2013)

Articles

The extracellular matrix (ECM) and its attachment factor components are discussed in this article in relation to their function in structural biology and their availability for in vitro applications.

The extracellular matrix (ECM) and its attachment factor components are discussed in this article in relation to their function in structural biology and their availability for in vitro applications.

The extracellular matrix (ECM) and its attachment factor components are discussed in this article in relation to their function in structural biology and their availability for in vitro applications.

The extracellular matrix (ECM) and its attachment factor components are discussed in this article in relation to their function in structural biology and their availability for in vitro applications.

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Protocoles

This gelatin coating protocol for cell culture applications offers information regarding types of gelatin, surface coverage concentration, and tips for optimization.

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