Cellobiosan (CAS 35405-71-1)
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Cellobiosan, a disaccharide derivative of glucose, has garnered attention in scientific research due to its potential applications in renewable energy and sustainable chemistry. One notable area of investigation is its role as a precursor for biofuel production. Researchers have explored enzymatic and chemical methods to convert cellobiosan into biofuels such as ethanol and butanol. This compound serves as a promising substrate for enzymatic hydrolysis by cellobiose-degrading enzymes, leading to the production of fermentable sugars for bioethanol fermentation processes. Moreover, cellobiosan can undergo chemical transformations, including hydrogenation and catalytic conversion, to yield valuable platform chemicals and fuel additives. Its chemical structure, consisting of two glucose units linked by a β-1,4-glycosidic bond, allows for efficient cleavage and modification to generate high-value products. Additionally, cellobiosan has found applications in the development of biodegradable materials and as a model compound for studying enzymatic degradation mechanisms of cellulose, a ubiquitous biopolymer in biomass. Researchers employ cellobiosan as a substrate in enzymatic assays to explain the catalytic mechanisms of cellulolytic enzymes and to engineer improved biocatalysts for biomass conversion processes. Overall, the versatility of cellobiosan as a renewable feedstock and its utility in fundamental research make it a valuable chemical compound for advancing sustainable energy and green chemistry initiatives.
Cellobiosan (CAS 35405-71-1) References
- High performance thin layer chromatography determination of cellobiosan and levoglucosan in bio-oil obtained by fast pyrolysis of sawdust. | Tessini, C., et al. 2011. J Chromatogr A. 1218: 3811-5. PMID: 21570078
- On-line mass spectrometric methods for the determination of the primary products of fast pyrolysis of carbohydrates and for their gas-phase manipulation. | Hurt, MR., et al. 2013. Anal Chem. 85: 10927-34. PMID: 24098979
- Mass spectrometric studies of fast pyrolysis of cellulose. | Degenstein, JC., et al. 2015. Eur J Mass Spectrom (Chichester). 21: 321-6. PMID: 26307712
- Identification of Soil Microbes Capable of Utilizing Cellobiosan. | Lian, J., et al. 2016. PLoS One. 11: e0149336. PMID: 26872347
- Conversion of levoglucosan and cellobiosan by Pseudomonas putida KT2440. | Linger, JG., et al. 2016. Metab Eng Commun. 3: 24-29. PMID: 29468111
- Isolation of levoglucosan-utilizing thermophilic bacteria. | Iwazaki, S., et al. 2018. Sci Rep. 8: 4066. PMID: 29511307
- Conversion of levoglucosan into glucose by the coordination of four enzymes through oxidation, elimination, hydration, and reduction. | Kuritani, Y., et al. 2020. Sci Rep. 10: 20066. PMID: 33208778
- Isolation and Characterization of Levoglucosan-Metabolizing Bacteria. | Arya, AS., et al. 2022. Appl Environ Microbiol. 88: e0186821. PMID: 34910566
- Obtaining the best temperature parameters for co-carbonization of lignite (yatağan)-biomass (peach seed shell) by structural characterization. | Gündüz, F., et al. 2022. Heliyon. 8: e10636. PMID: 36158104
- Bioupgrading of the aqueous phase of pyrolysis oil from lignocellulosic biomass: a platform for renewable chemicals and fuels from the whole fraction of biomass. | Ashoor, S., et al. 2023. Bioresour Bioprocess. 10: 34. PMID: 38647900
Ordering Information
| Product Name | Catalog # | UNIT | Price | Qty | FAVORITES | |
Cellobiosan, 10 mg | sc-221413 | 10 mg | $120.00 | |||
Cellobiosan, 100 mg | sc-221413A | 100 mg | $460.00 |