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Biological upgrading of 3,6-anhydro-l-galactose from agarose to a new platform chemical

Authors
Kim, Dong HyunLiu, Jing-JingLee, Jae WonPelton, Jeffrey G.Yun, Eun JuYu, SoraJin, Yong-SuKim, Kyoung Heon
Issue Date
7-3월-2020
Publisher
ROYAL SOC CHEMISTRY
Citation
GREEN CHEMISTRY, v.22, no.5, pp.1776 - 1785
Indexed
SCIE
SCOPUS
Journal Title
GREEN CHEMISTRY
Volume
22
Number
5
Start Page
1776
End Page
1785
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/57313
DOI
10.1039/c9gc04265b
ISSN
1463-9262
Abstract
Recently, the utilization of renewable biomass instead of fossil fuels for producing fuels and chemicals has received much attention due to the global climate change. Among renewable biomass, marine algae are gaining importance as third generation biomass feedstocks owing to their advantages over lignocellulose. Particularly, red macroalgae have higher carbohydrate contents and simpler carbohydrate compositions than other marine algae. In red macroalgal carbohydrates, 3,6-anhydro-l-galactose (AHG) is the main sugar composing agarose along with d-galactose. However, AHG is not a common sugar and is chemically unstable. Thus, not only AHG but also red macroalgal biomass itself cannot be efficiently converted or utilized. Here, we biologically upgraded AHG to a new platform chemical, its sugar alcohol form, 3,6-anhydro-l-galactitol (AHGol), an anhydrohexitol. To accomplish this, we devised an integrated process encompassing a chemical hydrolysis process for producing agarobiose (AB) from agarose and a biological process for converting AB to AHGol using metabolically engineered Saccharomyces cerevisiae to efficiently produce AHGol from agarose with high titers and yields. AHGol was also converted to an intermediate chemical for plastics, isosorbide. To our knowledge, this is the first demonstration of upgrading a red macroalgal biomass component to a platform chemical via a new biological route, by using an engineered microorganism.
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