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5461-96-1 ,Ammonium-D-xylonate, CAS:5461-96-1

5461-96-1 ,Ammonium-D-xylonate,
CAS:5461-96-1
C5H9O6·NH4 / 183.16
MFCD00080760

D-Xylonic acid ammonium salt

D-木糖酸铵,

Ammonium-D-xylonate (ADX) is a water-soluble organic acid compound formed by the fermentation of xylose using Pseudomonas stutzeri. ADX is a potential natural preservative due to its antimicrobial properties and is also used as a potential platform chemical in the production of biodegradable plastics, surfactants, and biofuels. In the following paper, we will discuss the background of ADX, its physical and chemical properties, synthesis and characterization, analytical methods, biological properties, toxicity and safety in scientific experiments, applications in scientific experiments, current state of research, potential implications in various fields of research and industry, limitations, and future directions.

Physical and Chemical Properties

ADX is a white crystalline powder with a density of 1.7 g/cm^3 and a melting point of 178-182°C. It dissolves well in water and can undergo both acidic and basic hydrolysis. The pKa value of ADX is 3.6, indicating that it is a weak acid. The compound has a pH of 2.5-3.0 and exhibits a characteristic sweet, sour, and astringent taste. ADX has a molecular weight of 194.14 g/mol and is highly stable under most pH and temperature conditions.

Synthesis and Characterization

ADX is primarily synthesized using the bacterial strain Pseudomonas stutzeri. This bacterium is capable of converting D-xylose into ADX through a metabolic pathway that involves the intermediate formation of D-xylonolactone. The synthesized ADX can be further purified and characterized using various analytical techniques such as HPLC, FTIR, and NMR.

Analytical Methods

Various analytical methods have been developed to analyze ADX. High-performance liquid chromatography (HPLC) is commonly used to measure the purity of ADX. Fourier-transform infrared (FTIR) spectroscopy provides information on the functional groups present in ADX. Nuclear magnetic resonance (NMR) spectroscopy is used to determine the structure of ADX.

Biological Properties

ADX exhibits antimicrobial properties against a wide range of microorganisms, including bacteria, fungi, and viruses. The compound is also known to inhibit the growth of certain cancer cells. ADX has been found to be non-toxic to humans and animals at concentrations used in scientific and industrial applications.

Toxicity and Safety in Scientific Experiments

Few studies have been conducted to assess the toxicity of ADX. However, in vitro and in vivo studies have shown that ADX is non-toxic to humans and animals. ADX has not been found to cause any adverse effects in short-term or long-term exposure studies.

Applications in Scientific Experiments

ADX has a wide range of potential applications in various fields of research and industry. In the food industry, it can be used as a natural preservative due to its antimicrobial properties. It can also be used as a flavor enhancer in food products. ADX also has potential applications in the pharmaceutical industry due to its ability to inhibit cancer cell growth. It can be used as a starting material for the synthesis of biodegradable plastics, surfactants, and biofuels.

Current State of Research

Research on ADX has primarily focused on its antimicrobial properties and potential use as a natural preservative. The compound's potential use in the development of biodegradable plastics and surfactants has also been explored. Recent studies have also explored the use of ADX as an ingredient in functional foods and beverages.

Potential Implications in Various Fields of Research and Industry

ADX has immense potential in various fields of research and industry. As a natural preservative, it has the potential to replace synthetic preservatives and contribute to food safety. The compound's antimicrobial properties and non-toxic nature make it a viable alternative to harmful chemicals commonly used in the food industry. The production of ADX from renewable resources such as biomass and agricultural waste can contribute to the development of a sustainable bio-based economy. ADX's potential use in the development of biodegradable plastics and surfactants can also contribute to reducing plastic waste and environmental pollution.

Limitations and Future Directions

One of the major limitations associated with ADX is its high cost of production, which currently limits its industrial potential. Further research is needed to develop cost-effective methods for the production and purification of ADX. Additional studies are needed to evaluate the compound's long-term safety and potential adverse effects. Future research should also explore the potential use of ADX as a platform chemical for the production of value-added chemicals and materials. Finally, the application of ADX in various fields of research and industry should be explored to identify new opportunities for its use.

Conclusion

ADX is a potential natural preservative and platform chemical that is synthesized via the bacterial fermentation of xylose. It exhibits antimicrobial properties, is non-toxic to humans, and has potential applications in various fields of research and industry. Further research is needed to explore its potential use in the development of biodegradable plastics and surfactants, as well as its cost-effective production, long-term safety, and novel applications. ADX represents an important step towards the development of a sustainable bio-based economy and the reduction of environmental pollution.

CAS Number5461-96-1
Product NameAmmonium-D-xylonate
IUPAC Nameazane;2,3,4,5-tetrahydroxypentanoic acid
Molecular FormulaC5H13NO6
Molecular Weight183.16 g/mol
InChIInChI=1S/C5H10O6.H3N/c6-1-2(7)3(8)4(9)5(10)11;/h2-4,6-9H,1H2,(H,10,11);1H3
InChI KeyVUOKJALMVMFERM-UHFFFAOYSA-N
SMILESC(C(C(C(C(=O)O)O)O)O)O.N
Canonical SMILESC(C(C(C(C(=O)O)O)O)O)O.N
CAS No: 5461-96-1 Synonyms: Ammonium-D-xylonate MDL No: MFCD00080760 Chemical Formula: C5H9O6·NH4 Molecular Weight: 183.16


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