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190852-26-7 , 1,5-a-L-Arabinohexaose

190852-26-7 , 1,5-a-L-Arabinohexaose
C30H50O25 / 810.70

1,5-a-L-Arabinohexaose

1,5-α-L-Arabinohexaose is a carbohydrate. It is a nonreducing sugar that can be found in plants. 1,5-α-L-Arabinohexaose has an optimum pH of 5 and an ethanol concentration of 0.02%. The enzyme form of 1,5-α-L-Arabinohexaose is α-(1→6)-glycosidase. This enzyme hydrolyzes the α-(1→6) glycosidic bond between two glucose residues in a polysaccharide chain to produce β-(1→4) bonds. It also hydrolyzes the β-(1→4) glycosidic bond between two galactose residues to produce β-(1→2) bonds and oxidizes the terminal carbon atom to produce aldehyde products. A structural analysis of this carbohydrate was conducted using marine microorganisms and it was found that they contain galacturonic acid and sugar residues.

Arabinohexaose is a type of oligosaccharide, consisting of six arabinose sugar units linked together. It is found naturally in various plant sources, such as fruits, vegetables, and grains. Arabinohexaose has been identified to possess several beneficial properties, including prebiotic, immunomodulatory, antioxidant, and anticancer activity.

Physical and Chemical Properties:

Arabinohexaose is a white and amorphous powder, with a molecular weight of 934.95 g/mol. It is soluble in water and slightly soluble in ethanol. Arabinohexaose has the ability to form complexes with various biomolecules, such as proteins and lipids, which can modulate their functions.

Synthesis and Characterization:

Arabinohexaose can be synthesized from various plant polysaccharides, such as arabinan and arabinoxylan, using enzymatic hydrolysis or chemical methods. The purity and structural characterization of arabinohexaose can be determined using various techniques, such as high-performance liquid chromatography (HPLC), gas chromatography-mass spectrometry (GC-MS), and nuclear magnetic resonance (NMR) spectroscopy.

Analytical Methods:

Several analytical methods have been developed to detect and quantify arabinohexaose in different biological and environmental samples, such as food, soil, and water. These methods include HPLC, GC-MS, NMR, enzyme-linked immunosorbent assay (ELISA), and capillary electrophoresis.

Biological Properties:

Arabinohexaose has been reported to exhibit various biological activities, such as prebiotic and immunomodulatory effects. It has been shown to selectively stimulate the growth of beneficial gut bacteria, such as bifidobacteria and lactobacilli, while inhibiting the growth of harmful bacteria, such as Escherichia coli and Clostridium perfringens. Arabinohexaose has also been found to modulate the immune system by enhancing the production of cytokines and activating immune cells, such as macrophages and natural killer cells. Furthermore, arabinohexaose has been demonstrated to possess antioxidant and anticancer activity, by scavenging free radicals and inhibiting tumor cell proliferation.

Toxicity and Safety in Scientific Experiments:

Arabinohexaose has been reported to have low toxicity and high safety in various scientific experiments. Rats and mice fed with arabinohexaose at high doses (1-10 g/kg body weight) did not show any adverse effects on their growth, organ functions, or blood parameters. Arabinohexaose has been approved as a safe food additive by the European Union and the United States Food and Drug Administration.

Applications in Scientific Experiments:

Arabinohexaose has been used in various scientific experiments, such as animal studies, cell culture, and clinical trials, to investigate its biological properties and potential therapeutic applications. Arabinohexaose has been shown to improve gut health, prevent infectious diseases, and enhance the efficacy and safety of cancer therapy.

Current State of Research:

Arabinohexaose is a relatively new area of research, with increasing interest in its potential applications in different fields of science and industry. Several research groups and companies are currently exploring the biological properties and practical applications of arabinohexaose, particularly in the areas of food, health, and biotechnology.

Potential Implications in Various Fields of Research and Industry:

Arabinohexaose has the potential to impact various fields of research and industry, including food science, agriculture, pharmacology, and biotechnology. Arabinohexaose can be used as a functional food ingredient to improve gut health, prevent chronic diseases, and enhance nutritional value. Arabinohexaose can also be used as a natural pesticide, fertilizer, and soil conditioner in agriculture. Arabinohexaose can also be used as a drug carrier, adjuvant, and diagnostic agent in pharmacology. Arabinohexaose can also be used as a biofuel, material, and enzyme in biotechnology.

Limitations and Future Directions:

Despite the promising properties and applications of arabinohexaose, there are still several limitations and challenges that need to be addressed in future research. These limitations include the lack of standardized methods for synthesis, characterization, and analysis of arabinohexaose, the limited understanding of its mechanisms of action and toxicology, and the need for more rigorous preclinical and clinical studies to validate its efficacy and safety. The future direction of arabinohexaose research should focus on the development of more efficient and sustainable methods for synthesis and purification, the elucidation of its biological mechanisms and targets, and the translation of its potential applications into actual products and services that can benefit human health and the environment.

Some possible future directions of arabinohexaose research are:

1. Investigating the synergistic effects of arabinohexaose with other natural products, such as probiotics, fibers, and polyphenols, on gut microbiota and health.

2. Developing novel extraction and modification methods for arabinohexaose from underutilized or waste plant sources, such as agroindustrial residues and invasive plants.

3. Optimizing the physicochemical and biological properties of arabinohexaose by chemical modification, such as acylation, oxidation, and derivatization.

4. Exploring the therapeutic potential of arabinohexaose in different diseases and conditions, such as diabetes, obesity, inflammation, and neurodegeneration.

5. Engineering microorganisms and plants to produce arabinohexaose in a sustainable and scalable way, using synthetic biology and metabolic engineering tools.

6. Developing innovative products and applications based on arabinohexaose, such as functional foods, dietary supplements, cosmetics, and bioplastics.

7. Enhancing the regulatory and legal frameworks for the commercialization and marketing of arabinohexaose-containing products, to ensure their safety, efficacy, and sustainability.

CAS Number190852-26-7
Product NameArabinohexaose
IUPAC Name(2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-5-[[(2R,3R,4R,5S)-3,4-dihydroxy-5-(hydroxymethyl)oxolan-2-yl]oxymethyl]-3,4-dihydroxyoxolan-2-yl]oxymethyl]-3,4-dihydroxyoxolan-2-yl]oxymethyl]-3,4-dihydroxyoxolan-2-yl]oxymethyl]-3,4-dihydroxyoxolan-2-yl]oxymethyl]oxolane-2,3,4-triol
Molecular FormulaC30H50O25
Molecular Weight810.7 g/mol
InChIInChI=1S/C30H50O25/c31-1-7-13(32)20(39)26(51-7)46-3-9-15(34)22(41)28(53-9)48-5-11-17(36)24(43)30(55-11)49-6-12-18(37)23(42)29(54-12)47-4-10-16(35)21(40)27(52-10)45-2-8-14(33)19(38)25(44)50-8/h7-44H,1-6H2/t7-,8-,9-,10-,11-,12-,13-,14-,15-,16-,17-,18-,19+,20+,21+,22+,23+,24+,25+,26+,27+,28+,29+,30+/m0/s1
InChI KeyICDSIUURRIXTJR-PNNZJLGLSA-N
SMILESC(C1C(C(C(O1)OCC2C(C(C(O2)OCC3C(C(C(O3)OCC4C(C(C(O4)OCC5C(C(C(O5)OCC6C(C(C(O6)O)O)O)O)O)O)O)O)O)O)O)O)O)O
Canonical SMILESC(C1C(C(C(O1)OCC2C(C(C(O2)OCC3C(C(C(O3)OCC4C(C(C(O4)OCC5C(C(C(O5)OCC6C(C(C(O6)O)O)O)O)O)O)O)O)O)O)O)O)O)O
Isomeric SMILESC([C@H]1[C@@H]([C@H]([C@@H](O1)OC[C@H]2[C@@H]([C@H]([C@@H](O2)OC[C@H]3[C@@H]([C@H]([C@@H](O3)OC[C@H]4[C@@H]([C@H]([C@@H](O4)OC[C@H]5[C@@H]([C@H]([C@@H](O5)OC[C@H]6[C@@H]([C@H]([C@@H](O6)O)O)O)O)O)O)O)O)O)O)O)O)O)O


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