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Literature DB >> 19560336

Engineering algae for biohydrogen and biofuel production.

Laura L Beer¹, Eric S Boyd, John W Peters, Matthew C Posewitz.

Abstract

There is currently substantial interest in utilizing eukaryotic algae for the renewable production of several bioenergy carriers, including starches for alcohols, lipids for diesel fuel surrogates, and H2 for fuel cells. Relative to terrestrial biofuel feedstocks, algae can convert solar energy into fuels at higher photosynthetic efficiencies, and can thrive in salt water systems. Recently, there has been considerable progress in identifying relevant bioenergy genes and pathways in microalgae, and powerful genetic techniques have been developed to engineer some strains via the targeted disruption of endogenous genes and/or transgene expression. Collectively, the progress that has been realized in these areas is rapidly advancing our ability to genetically optimize the production of targeted biofuels.

Entities: Chemical Disease Species

Mesh：

Year: 2009 PMID： 19560336 DOI： 10.1016/j.copbio.2009.06.002

Source DB: PubMed Journal: Curr Opin Biotechnol ISSN： 0958-1669 Impact factor: 9.740

Keyword Cloud
Cited

48 in total

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Journal: Crit Rev Biotechnol Date: 2012-07-06 Impact factor: 8.429

Review 2. Intermediary metabolism in protists: a sequence-based view of facultative anaerobic metabolism in evolutionarily diverse eukaryotes.

Authors: Michael L Ginger; Lillian K Fritz-Laylin; Chandler Fulton; W Zacheus Cande; Scott C Dawson
Journal: Protist Date: 2010-10-30

Review 3. Agrigenomics for microalgal biofuel production: an overview of various bioinformatics resources and recent studies to link OMICS to bioenergy and bioeconomy.

Authors: Namrata Misra; Prasanna Kumar Panda; Bikram Kumar Parida
Journal: OMICS Date: 2013-09-17

Review 4. Genetic Engineering Strategies for Enhanced Biodiesel Production.

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Journal: Mol Biotechnol Date: 2015-07 Impact factor: 2.695

5. The proteome of copper, iron, zinc, and manganese micronutrient deficiency in Chlamydomonas reinhardtii.

Authors: Scott I Hsieh; Madeli Castruita; Davin Malasarn; Eugen Urzica; Jonathan Erde; M Dudley Page; Hiroaki Yamasaki; David Casero; Matteo Pellegrini; Sabeeha S Merchant; Joseph A Loo
Journal: Mol Cell Proteomics Date: 2012-10-13 Impact factor: 5.911

6. Monster potential meets potential monster: pros and cons of deploying genetically modified microalgae for biofuels production.

Authors: K J Flynn; A Mitra; H C Greenwell; J Sui
Journal: Interface Focus Date: 2013-02-06 Impact factor: 3.906

7. Metabolite profiling and integrative modeling reveal metabolic constraints for carbon partitioning under nitrogen starvation in the green algae Haematococcus pluvialis.

Authors: Lee Recht; Nadine Töpfer; Albert Batushansky; Noga Sikron; Yves Gibon; Aaron Fait; Zoran Nikoloski; Sammy Boussiba; Aliza Zarka
Journal: J Biol Chem Date: 2014-09-02 Impact factor: 5.157

8. The green microalga Chlamydomonas reinhardtii has a single ω-3 fatty acid desaturase that localizes to the chloroplast and impacts both plastidic and extraplastidic membrane lipids.

Authors: Hoa Mai Nguyen; Stéphan Cuiné; Audrey Beyly-Adriano; Bertrand Légeret; Emmanuelle Billon; Pascaline Auroy; Fred Beisson; Gilles Peltier; Yonghua Li-Beisson
Journal: Plant Physiol Date: 2013-08-19 Impact factor: 8.340

9. Comparative biochemical characterization of three exolytic oligoalginate lyases from Vibrio splendidus reveals complementary substrate scope, temperature, and pH adaptations.

Authors: Sujit Sadashiv Jagtap; Jan-Hendrik Hehemann; Martin F Polz; Jung-Kul Lee; Huimin Zhao
Journal: Appl Environ Microbiol Date: 2014-05-02 Impact factor: 4.792

10. Protein-protein interaction network of the marine microalga Tetraselmis subcordiformis: prediction and application for starch metabolism analysis.

Authors: Chaofan Ji; Xupeng Cao; Changhong Yao; Song Xue; Zhilong Xiu
Journal: J Ind Microbiol Biotechnol Date: 2014-05-31 Impact factor: 3.346