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31392

Sigma-Aldrich

Dextrane from Leuconostoc spp.

Mr 450,000-650,000

Synonyme(s) :

6-O-(6-O-beta-D-Glucopyranosyl-beta-D-glucopyranosyl)-D-glucose, Manninotriose

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About This Item

Formule linéaire :
(C6H10O5)n
Numéro CAS:
Numéro CE :
Numéro MDL:
Code UNSPSC :
12352201
Nomenclature NACRES :
NA.25

Source biologique

(Leuconostoc spp)

Niveau de qualité

Forme

powder

Poids mol.

Mr 450,000-650,000

Technique(s)

cell based assay: suitable

Perte

≤7% loss on drying

Couleur

white

Pf

483  °C ((901 °F ))

Solubilité

water: 1.5 g/10 mL, clear, colorless

Absorption

≤0.05 at 375 nm in H2O at 10%

Adéquation

suitable for additive or modifier in the separation of proteins or peptides
suitable for microfluidics/nanofluidics

Application(s)

clinical research
filtration
life science and biopharma
metabolomics
plasma purification

Température de stockage

room temp

InChI

1S/C18H32O16/c19-1-5(21)9(23)10(24)6(22)3-31-17-16(30)14(28)12(26)8(34-17)4-32-18-15(29)13(27)11(25)7(2-20)33-18/h1,5-18,20-30H,2-4H2

Clé InChI

FZWBNHMXJMCXLU-UHFFFAOYSA-N

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Description générale

Dextran, a biodegradable bacterial exopolysaccharide, is a member of the polysaccharide family predominantly composed of glucose units linked through α-(1→6) bonds in the main chain, often with α-(1→2), α-(1→3), and α-(1→4) branching. This versatile compound is typically derived from lactic acid bacteria like Leuconostoc, Lactobacillus, Streptococcus, Weissella, and Pediococcus, presenting a molecular weight range from 1,000 to 40,000,000 daltons (Da). The specific structure of dextran varies depending on the microbial strain responsible for its production. Dextran exhibits solubility in water and in few organic solvents and can be chemically modified to create diverse structures such as spheres, tubes, and 3D networks. This adaptability allows dextran to be blended with bioactive agents or hydrophobic polymers for various applications. With its remarkable water solubility, biocompatibility, and non-toxic properties, dextran serves as a valuable molecular scaffold, solute stabilizer, and cryoprotectant in cell culture and bioprocessing. These attributes make dextrans essential in a wide array of biomedical fields, including cell culture, drug delivery, nanomedicine, and various applications within the realm of biochemical research.

Application

Dextran from Leuconostoc spp. has been used:

  • in the isolation of human neutrophils from blood samples
  • for blood sedimentation
  • in the resuspension of human umbilical vein cells (HUVECs) for 3D microfluidic cellular adhesion assay
  • in studying aqueous two-phase system (ATPS) droplets In microfluidic systems and biocompatible applications
  • to study its mechanical properties through single-molecule force spectroscopy

Actions biochimiques/physiologiques

Dextran′s mechanism of action for various applications:

  • Osmotic Balance: Dextran helps maintain osmotic balance by increasing the solute concentration in a solution. This prevents excessive water movement across cell membranes, thus maintaining cell integrity and function.
  • Cryoprotection: Dextran acts as a cryoprotectant by forming a protective barrier around cells and tissues during freezing. This barrier inhibits the formation of ice crystals, which can damage cell membranes and structures.
  • Viscosity Control: Dextran can alter the viscosity of solutions by increasing the molecular weight of the solution. This change in viscosity affects the flow properties of the solution, making it useful for controlling the thickness of solutions in various processes.
  • Drug Delivery: Modified dextran serves as a carrier for controlled drug delivery. Dextran can encapsulate drugs and release them gradually, enhancing drug solubility and controlling the release profiles to improve therapeutic outcomes.
  • Gel Electrophoresis: Dextran increases the density of sample-loading solutions in gel electrophoresis. This increased density helps samples sink into the gel matrix, allowing for more precise separation of molecules based on size and charge during electrophoresis.
  • Enzyme Stabilization: Dextran stabilizes enzymes by providing a protective environment. It forms a stable matrix around enzymes, enhancing their activity and extending their lifespan in various biochemical reactions. This protection prevents enzyme denaturation and inactivation, allowing enzymes to function more effectively.

Caractéristiques et avantages

  • Dextran with an average molecular weight range of 450,000-650,000
  • Freely soluble in Water, DMSO, formamide, ethylene glycol, and glycerol
  • Versatile and adaptable for wide variety of laboratory and research applications

Autres remarques

For additional information on our range of Biochemicals, please complete this form.
To gain a comprehensive understanding of our extensive range of Dextrans for your research, we encourage you to visit our Carbohydrates Category page.

Code de la classe de stockage

11 - Combustible Solids

Classe de danger pour l'eau (WGK)

WGK 2

Équipement de protection individuelle

Eyeshields, Gloves, type N95 (US)


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Consulter la Bibliothèque de documents

Peng Kai Ong et al.
American journal of physiology. Heart and circulatory physiology, 298(6), H1870-H1878 (2010-03-30)
Formation of a cell-free layer is an important dynamic feature of microcirculatory blood flow, which can be influenced by rheological parameters, such as red blood cell aggregation and flow rate. In this study, we investigate the effect of these two
Sheldon J J Kwok et al.
Investigative ophthalmology & visual science, 60(7), 2563-2570 (2019-06-19)
Photochemical crosslinking of the sclera is an emerging technique that may prevent excessive eye elongation in pathologic myopia by stiffening the scleral tissue. To overcome the challenge of uniform light delivery in an anatomically restricted space, we previously introduced the
Aude Thiriot et al.
BMC biology, 15(1), 45-45 (2017-05-21)
Intravascular leukocyte recruitment in most vertebrate tissues is restricted to postcapillary and collecting venules, whereas capillaries and arterioles usually support little or no leukocyte adhesion. This segmental restriction is thought to be mediated by endothelial, rather than hemodynamic, differences. The
Marie-Elena Brett et al.
Integrative biology : quantitative biosciences from nano to macro, 10(4), 242-252 (2018-04-07)
Numerous studies have demonstrated the importance of altered hyaluronan metabolism to malignant progression of multiple tumor types, including breast carcinomas. Increased hyaluronan (HA) metabolism in the stroma of primary tumors promotes activation of oncogenic signaling pathways that impact tumor initiation
Martí Ortega-Ribera et al.
Biotechnology and bioengineering, 115(10), 2585-2594 (2018-06-26)
Maintenance of the complex phenotype of primary hepatocytes in vitro represents a limitation for developing liver support systems and reliable tools for biomedical research and drug screening. We herein aimed at developing a biosystem able to preserve human and rodent

Contenu apparenté

Learn about C6H10O6 or dextran formation, classes and naming. Dextrans are polysaccharides with molecular weights ≥1,000 Dalton, which have a linear backbone of α-linked d-glucopyranosyl repeating units.

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