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Literature DB >> 21846500

Biotechnological routes based on lactic acid production from biomass.

Abstract

Lactic acid, the most important hydroxycarboxylic acid, is now commercially produced by the fermentation of sugars present in biomass. In addition to its use in the synthesis of biodegradable polymers, lactic acid can be regarded as a feedstock for the green chemistry of the future. Different potentially useful chemicals such as pyruvic acid, acrylic acid, 1,2-propanediol, and lactate ester can be produced from lactic acid via chemical and biotechnological routes. Here, we reviewed the current status of the production of potentially valuable chemicals from lactic acid via biotechnological routes. Although some of the reactions described in this review article are still not applicable at current stage, due to their "greener" properties, biotechnological processes for the production of lactic acid derivatives might replace the chemical routes in the future.

Entities: Chemical

Mesh：

Substances：
Lactic Acid

Year: 2011 PMID： 21846500 DOI： 10.1016/j.biotechadv.2011.07.022

Source DB: PubMed Journal: Biotechnol Adv ISSN： 0734-9750 Impact factor: 14.227

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Cited

34 in total

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Authors: Fei Su; Ke Xu; Bo Zhao; Cui Tai; Fei Tao; Hongzhi Tang; Ping Xu
Journal: J Bacteriol Date: 2011-11 Impact factor: 3.490

2. Draft genome sequence of Sporolactobacillus inulinus strain CASD, an efficient D-lactic acid-producing bacterium with high-concentration lactate tolerance capability.

Authors: Bo Yu; Fei Su; Limin Wang; Ke Xu; Bo Zhao; Ping Xu
Journal: J Bacteriol Date: 2011-10 Impact factor: 3.490

3. Toward the construction of a technology platform for chemicals production from methanol: D-lactic acid production from methanol by an engineered yeast Pichia pastoris.

Authors: Ryosuke Yamada; Koichi Ogura; Yusuke Kimoto; Hiroyasu Ogino
Journal: World J Microbiol Biotechnol Date: 2019-02-04 Impact factor: 3.312

4. A Bacterial Multidomain NAD-Independent d-Lactate Dehydrogenase Utilizes Flavin Adenine Dinucleotide and Fe-S Clusters as Cofactors and Quinone as an Electron Acceptor for d-Lactate Oxidization.

Authors: Tianyi Jiang; Xiaoting Guo; Jinxin Yan; Yingxin Zhang; Yujiao Wang; Manman Zhang; Binbin Sheng; Cuiqing Ma; Ping Xu; Chao Gao
Journal: J Bacteriol Date: 2017-10-17 Impact factor: 3.490

5. Relative catalytic efficiency of ldhL- and ldhD-encoded products is crucial for optical purity of lactic acid produced by lactobacillus strains.

Authors: Zhaojuan Zheng; Binbin Sheng; Cuiqing Ma; Haiwei Zhang; Chao Gao; Fei Su; Ping Xu
Journal: Appl Environ Microbiol Date: 2012-02-17 Impact factor: 4.792

6. Genome sequence of Lactobacillus rhamnosus strain CASL, an efficient L-lactic acid producer from cheap substrate cassava.

Authors: Bo Yu; Fei Su; Limin Wang; Bo Zhao; Jiayang Qin; Cuiqing Ma; Ping Xu; Yanhe Ma
Journal: J Bacteriol Date: 2011-12 Impact factor: 3.490

7. NAD-Independent L-Lactate Dehydrogenase Required for L-Lactate Utilization in Pseudomonas stutzeri A1501.

Authors: Chao Gao; Yujiao Wang; Yingxin Zhang; Min Lv; Peipei Dou; Ping Xu; Cuiqing Ma
Journal: J Bacteriol Date: 2015-04-27 Impact factor: 3.490

8. Genome sequence of the lactate-utilizing Pseudomonas aeruginosa strain XMG.

Authors: Chao Gao; Chunhui Hu; Cuiqing Ma; Fei Su; Hao Yu; Tianyi Jiang; Peipei Dou; Yujiao Wang; Tong Qin; Min Lv; Ping Xu
Journal: J Bacteriol Date: 2012-09 Impact factor: 3.490

9. Comparative genomics and transcriptome analysis of Lactobacillus rhamnosus ATCC 11443 and the mutant strain SCT-10-10-60 with enhanced L-lactic acid production capacity.

Authors: Liang Sun; Zhilong Lu; Jianxiu Li; Feifei Sun; Ribo Huang
Journal: Mol Genet Genomics Date: 2017-11-20 Impact factor: 3.291

10. Metabolic engineering of a glycerol-oxidative pathway in Lactobacillus panis PM1 for utilization of bioethanol thin stillage: potential to produce platform chemicals from glycerol.

Authors: Tae Sun Kang; Darren R Korber; Takuji Tanaka
Journal: Appl Environ Microbiol Date: 2014-10-03 Impact factor: 4.792