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Literature DB >> 16499989

How did Saccharomyces evolve to become a good brewer?

Jure Piskur¹, Elzbieta Rozpedowska, Silvia Polakova, Annamaria Merico, Concetta Compagno.

Abstract

Brewing and wine production are among the oldest technologies and their products are almost indispensable in our lives. The central biological agents of beer and wine fermentation are yeasts belonging to the genus Saccharomyces, which can accumulate ethanol. Recent advances in comparative genomics and bioinformatics have made it possible to elucidate when and why yeasts produce ethanol in high concentrations, and how this remarkable trait originated and developed during their evolutionary history. Two research groups have shed light on the origin of the genes encoding alcohol dehydrogenase and the process of ethanol accumulation in Saccharomyces cerevisiae.

Entities: Chemical Species

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Year: 2006 PMID： 16499989 DOI： 10.1016/j.tig.2006.02.002

Source DB: PubMed Journal: Trends Genet ISSN： 0168-9525 Impact factor: 11.639

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Cited

134 in total

1. Comparative functional genomics of the fission yeasts.

Authors: Nicholas Rhind; Zehua Chen; Moran Yassour; Dawn A Thompson; Brian J Haas; Naomi Habib; Ilan Wapinski; Sushmita Roy; Michael F Lin; David I Heiman; Sarah K Young; Kanji Furuya; Yabin Guo; Alison Pidoux; Huei Mei Chen; Barbara Robbertse; Jonathan M Goldberg; Keita Aoki; Elizabeth H Bayne; Aaron M Berlin; Christopher A Desjardins; Edward Dobbs; Livio Dukaj; Lin Fan; Michael G FitzGerald; Courtney French; Sharvari Gujja; Klavs Hansen; Dan Keifenheim; Joshua Z Levin; Rebecca A Mosher; Carolin A Müller; Jenna Pfiffner; Margaret Priest; Carsten Russ; Agata Smialowska; Peter Swoboda; Sean M Sykes; Matthew Vaughn; Sonya Vengrova; Ryan Yoder; Qiandong Zeng; Robin Allshire; David Baulcombe; Bruce W Birren; William Brown; Karl Ekwall; Manolis Kellis; Janet Leatherwood; Henry Levin; Hanah Margalit; Rob Martienssen; Conrad A Nieduszynski; Joseph W Spatafora; Nir Friedman; Jacob Z Dalgaard; Peter Baumann; Hironori Niki; Aviv Regev; Chad Nusbaum
Journal: Science Date: 2011-04-21 Impact factor: 47.728

2. Evaluation of gene modification strategies for the development of low-alcohol-wine yeasts.

Authors: C Varela; D R Kutyna; M R Solomon; C A Black; A Borneman; P A Henschke; I S Pretorius; P J Chambers
Journal: Appl Environ Microbiol Date: 2012-06-22 Impact factor: 4.792

3. Switch between life history strategies due to changes in glycolytic enzyme gene dosage in Saccharomyces cerevisiae.

Authors: Shaoxiao Wang; Aymé Spor; Thibault Nidelet; Pierre Montalent; Christine Dillmann; Dominique de Vienne; Delphine Sicard
Journal: Appl Environ Microbiol Date: 2010-11-12 Impact factor: 4.792

Review 4. How do yeast cells become tolerant to high ethanol concentrations?

Authors: Tim Snoek; Kevin J Verstrepen; Karin Voordeckers
Journal: Curr Genet Date: 2016-01-12 Impact factor: 3.886

5. Relaxation of yeast mitochondrial functions after whole-genome duplication.

Authors: Huifeng Jiang; Wenjun Guan; David Pinney; Wen Wang; Zhenglong Gu
Journal: Genome Res Date: 2008-07-30 Impact factor: 9.043

6. Use of non-conventional yeast improves the wine aroma profile of Ribolla Gialla.

Authors: Sofia Dashko; Nerve Zhou; Tinkara Tinta; Paolo Sivilotti; Melita Sternad Lemut; Kajetan Trost; Amparo Gamero; Teun Boekhout; Lorena Butinar; Urska Vrhovsek; Jure Piskur
Journal: J Ind Microbiol Biotechnol Date: 2015-04-23 Impact factor: 3.346

How did Saccharomyces evolve to become a good brewer?

1. Comparative functional genomics of the fission yeasts.

2. Evaluation of gene modification strategies for the development of low-alcohol-wine yeasts.

3. Switch between life history strategies due to changes in glycolytic enzyme gene dosage in Saccharomyces cerevisiae.

Review 4. How do yeast cells become tolerant to high ethanol concentrations?

5. Relaxation of yeast mitochondrial functions after whole-genome duplication.

6. Use of non-conventional yeast improves the wine aroma profile of Ribolla Gialla.

7. Genome survey sequencing of the wine spoilage yeast Dekkera (Brettanomyces) bruxellensis.

Review 8. Engineering for biofuels: exploiting innate microbial capacity or importing biosynthetic potential?

Review 9. Rearrangements of the transcriptional regulatory networks of metabolic pathways in fungi.

10. The degree of redundancy in metabolic genes is linked to mode of metabolism.