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Literature DB >> 28219529

Challenges and prospects of xylitol production with whole cell bio-catalysis: A review.

Diptarka Dasgupta¹, Sheetal Bandhu¹, Dilip K Adhikari¹, Debashish Ghosh².

Abstract

Xylitol, as an alternative low calorie sweetener is well accepted in formulations of various confectioneries and healthcare products. Worldwide it is industrially produced by catalytic hydrogenation of pure d-xylose solution under high temperature and pressure. Biotechnological xylitol production is a potentially attractive replacement for chemical process, as it occurs under much milder process conditions and can be based on sugar mixtures derived from low-cost industrial and agri-waste. However, microbial fermentation route of xylitol production is not so far practiced industrially. This review highlights the challenges and prospects of biotechnological xylitol production considering possible genetic modifications of fermenting microorganisms and various aspects of industrial bioprocessing and product downstreaming.

Entities: Chemical

Keywords: Bioprocess; Co-factor; Gene modification; Xylitol; Yeast

Mesh：

Substances：

Year: 2017 PMID： 28219529 DOI： 10.1016/j.micres.2016.12.012

Source DB: PubMed Journal: Microbiol Res ISSN： 0944-5013 Impact factor: 5.415

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Cited

10 in total

Review 1. Valorisation of xylose to renewable fuels and chemicals, an essential step in augmenting the commercial viability of lignocellulosic biorefineries.

Authors: Vivek Narisetty; Rylan Cox; Rajesh Bommareddy; Deepti Agrawal; Ejaz Ahmad; Kamal Kumar Pant; Anuj Kumar Chandel; Shashi Kant Bhatia; Dinesh Kumar; Parmeswaran Binod; Vijai Kumar Gupta; Vinod Kumar
Journal: Sustain Energy Fuels Date: 2021-10-26 Impact factor: 6.367

Review 2. Pineapple processing waste (PPW): bioactive compounds, their extraction, and utilisation: a review.

Authors: L Meena; Animesh Singh Sengar; Rooman Neog; C K Sunil
Journal: J Food Sci Technol Date: 2021-10-08 Impact factor: 3.117

3. Single-cell Protein and Xylitol Production by a Novel Yeast Strain Candida intermedia FL023 from Lignocellulosic Hydrolysates and Xylose.

Authors: Jiaqiang Wu; Jinlong Hu; Shumiao Zhao; Mingxiong He; Guoquan Hu; Xiangyang Ge; Nan Peng
Journal: Appl Biochem Biotechnol Date: 2017-11-02 Impact factor: 2.926

4. Biovalorisation of crude glycerol and xylose into xylitol by oleaginous yeast Yarrowia lipolytica.

Authors: Ashish A Prabhu; Dominic J Thomas; Rodrigo Ledesma-Amaro; Gary A Leeke; Angel Medina; Carol Verheecke-Vaessen; Frederic Coulon; Deepti Agrawal; Vinod Kumar
Journal: Microb Cell Fact Date: 2020-06-03 Impact factor: 5.328

5. Identification of genes involved in xylose metabolism of Meyerozyma guilliermondii and their genetic engineering for increased xylitol production.

Authors: Denise Atzmüller; Nadine Ullmann; Alexander Zwirzitz
Journal: AMB Express Date: 2020-04-20 Impact factor: 3.298

6. Enhanced xylitol production using non-detoxified xylose rich pre-hydrolysate from sugarcane bagasse by newly isolated Pichia fermentans.

Authors: Ashish A Prabhu; Ekkarin Bosakornranut; Yassin Amraoui; Deepti Agrawal; Frederic Coulon; Vivekanand Vivekanand; Vijay Kumar Thakur; Vinod Kumar
Journal: Biotechnol Biofuels Date: 2020-12-29 Impact factor: 6.040

7. Activation of cryptic xylose metabolism by a transcriptional activator Znf1 boosts up xylitol production in the engineered Saccharomyces cerevisiae lacking xylose suppressor BUD21 gene.

Authors: Pattanan Songdech; Rawitsara Intasit; Yodying Yingchutrakul; Chutikarn Butkinaree; Khanok Ratanakhanokchai; Nitnipa Soontorngun
Journal: Microb Cell Fact Date: 2022-03-05 Impact factor: 5.328