AdipoGen Life Sciences

Hydroxyectoine

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Product Details
Synonyms (4S,5S)-1,4,5,6-Tetrahydro-5-hydroxy-2-methyl-4-pyrimidinecarboxylic acid; β-Hydroxyectoine; Pyrostatine A
Product Type Chemical
Properties
Formula

C6H10N2O3

MW 158.2
CAS 165542-15-4
Source/Host Chemicals Isolated from halophilic bacteria Halomonas elongata.
Purity Chemicals ≥95% (HPLC)
Appearance White solid.
Solubility Soluble in water (660mg/ml).
Identity Determined by 1H-NMR.
Declaration Manufactured by bitop AG, Dortmund/Germany.
InChi Key KCGUHAQZLWJNFK-WHFBIAKZSA-M
Smiles C[c+]1[nH][C@H](C([O-])=O)[C@@H](O)C[nH]1
Shipping and Handling
Shipping AMBIENT
Short Term Storage +4°C
Long Term Storage +4°C
Handling Advice Hygroscopic.
Keep cool and dry.
Protect from moisture.
Use/Stability Stable for at least 2 years after receipt when stored at +4°C.
Documents
MSDS Download PDF
Product Specification Sheet
Datasheet Download PDF
Description
  • The ectoines belong to the class of compatible solutes also called extremolytes (osmolytes from extremophiles). Extremolytes stabilize biological structures and macromolecules such as lipid membranes and proteins against a variety of stress factors, including high temperature, freeze-thaw cycles, drying and degradation. These very stable, non-toxic, animal-free protective agents are powerful additives in various Life Science applications, ranging from cryoprotection of animal cells over protein storage to PCR. They are protective osmolytes selected by nature for stabilization of all proteins in the cell against denaturing environmental stress without altering their functional activity. The stabilizing effect is based on the fact, that the protective osmolytes are strong water-structure formers and as such are preferentially excluded from the protein surface. This causes an increased water density at the surface ("preferential hydration") promoting the protein’s natural conformation with hydrophobic patches buried. This reduces the potential to unfold in response to physical or chemical stress and enhances the stability of the protein. Therefore, these compounds have also been termed chemical chaperones. Several studies have demonstrated the ability of extremolytes to also stabilize cell membranes and whole cells. Therefore, the extremolytes are also useful additives for the cold storage and cryostabilization of mammalian and bacterial cells.
  • Ectoines are the best characterized extremolytes and their ability to stabilize a variety of proteins, nucleic acids, membranes and whole cells is well documented. They surpass the efficiency of common compatible solutes like betaine and trehalose in applications like protein stabilization and stabilization of desiccated bacterial cells. The ectoines are highly water-soluble, zwitterionic low-molecular weight molecules, chemically and physically stable, biologically inert and compatible with most enzymatic and binding reactions (intracellular concentrations in their producer organisms can exceed 1 M).
  • Ectoines can be used in a wide range of applications for the protection and stabilization of biological macromolecules and whole cells, animal as well as bacterial. Ectoines protect and stabilize proteins, especially globular proteins like antibodies, in vitro and in vivo and provide an integrated solution for the optimization of protein production. They are protein-free low molecular weight additives that can be used to, i) culture media to increase the stability and solubility of expressed proteins, ii) prevent protein aggregation and proteolytic degradation during downstream processing in solutions, iii) assist in refolding of inclusion bodies in refolding buffers, iv) prevent the loss of activity due to freeze-thawing, lyophilization and damage (aggregation, proteolysis) during storage in solution, v) promote crystal formation vs. protein aggregation and to improve crystal size and quality during crystallization of proteins.
  • Next to its stabilizing effects, ectoines show cell protective, antioxidant, neuroprotective and anti-inflammatory mode of actions that have been verified in various in vitro and in vivo studies and include protection of lipid membrane, radical-scavenging activity and protection against UVA or oxidative stress. Ectoines have protective (e.g. UV-A radiation) and destabilizing effects on dsDNA, depending on the concentration. At high ectoine concentration (2.5 M), direct interactions between compatible solute and DNA molecules are possible and provides new perspectives for biotechnical applications. Ectoine is already in use for in vitro diagnostics as an enhancer for PCR. Therefore, this molecule would be a promising candidate in facilitating isothermal DNA amplification such as recombinase polymerase amplification. In-house studies have shown that ectoine inhibits the binding of the spike protein of COVID-19 virus to lung cells.
Product References
  1. Extrinsic protein stabilization by the naturally occurring osmolytes beta-hydroxyectoine and betaine: S. Knapp, et al.; Extremophiles 3, 191 (1999)
  2. Ectoine and hydroxyectoine inhibit aggregation and neurotoxicity of Alzheimer's beta-amyloid: M. Kanapathipillai, et al.; FEBS Lett. 579, 4775 (2005)
  3. The effect of compatible solute ectoines on the structural organisation of lipid monolayer and bilayer membranes: R.K. Harishchandra, et al.; Biophys. Chem. 150, 37 (2010)
  4. Ectoine-mediated protection of enzyme from the effect of pH and temperature stress: a study using Bacillus halodurans xylanase as a model: Appl. Microbiol. Biotechnol. 97, 6271 (2013)
  5. Glass-forming property of hydroxyectoine is the cause of its superior function as a desiccation protectant: C. Tanne, et al.; Front. Microbiol. 5, 150 (2014)
  6. Bacteria-Derived Compatible Solutes Ectoine and 5α-Hydroxyectoine Act as Intestinal Barrier Stabilizers to Ameliorate Experimental Inflammatory Bowel Disease: H. Abdel-Aziz, et al.; J. Nat. Prod. 78, 1309 (2015)
  7. Role of the Extremolytes Ectoine and Hydroxyectoine as Stress Protectants and Nutrients: Genetics, Phylogenomics, Biochemistry, and Structural Analysis: L. Czech, et al.; Genes 9, 177 (2018)
  8. Stabilization of dry protein coatings with compatible solutes: M.S. Killian, et al.; Biointerphases 13, 06E401 (2018)
  9. Hydration in aqueous solutions of ectoine and hydroxyectoine: C.J. Sahle, et al.; Phys. Chem. Chem. Phys. 20, 27917 (2018)
  10. Ectoine interaction with DNA: influence on ultraviolet radiation damage: M.B. Hahn, et al.; Phys. Chem. Chem. Phys. 22, 6984 (2020)
  11. Protective effect of the extremolytes ectoine and hydroxyectoine in a porcine organ culture: T. Tsai, et al.; Graefes Arch. Clin. Exp. Ophthalmol. 258, 2185 (2020)
  12. Ectoine and Hydroxyectoine Stabilize Antibodies in Spray-Dried Formulations at Elevated Temperature and during a Freeze/Thaw Process: P.K. Nayak, et al.; Mol. Pharm. 17, 3291 (2020)
  13. The ups and downs of ectoine: structural enzymology of a major microbial stress protectant and versatile nutrient: L. Hermann, et al.; Biol. Chem. 401, 1443 (2020)
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