Yeast flocculation: Reconciliation of physiological and genetic viewpoints

Stratford, Malcolm

doi:10.1002/yea.320080103

Cited by 83 publications

(50 citation statements)

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“…The sensitivity of flocculation to mannose and/or glucose is explained by the lectin theory, which states that lectin-like protein on one cell binds in a Ca-dependent way to sugar receptors on a neighbouring cell. The MS group corresponds to the Flo1 phenotype, while the GMS group corresponds to the NewFlo phenotype (reviewed by Stratford, 1992). The FLO1 gene is one constituent of the Flo1 phenotype (Teunissen et al, 1993;Watari et al, 1994).…”

Section: Discussionmentioning

confidence: 99%

“…Flocculation determined by the FLO5 (Bidard et al, 1994) and FLO8 genes also belong phenotypically to the Flo1/MS group (Masy et al, 1992). No genetic determinants have been described or cloned for the NewFlo group, although it is anticipated that the gene(s) involved should code as well for a lectin-like protein (Stratford, 1992). Little is known about the mechanism of flocculation in MI strains.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Constitutive Flocculation inSaccharomyces cerevisiae Through Overexpression of theGTS1 Gene, coding for a ‘Glo’-type Zn-finger-containing Protein

Bossier

Goethals

Rodrigues-Pousada

1997

Yeast

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Constitutive Flocculation inSaccharomyces cerevisiae Through Overexpression of theGTS1 Gene, coding for a ‘Glo’-type Zn-finger-containing Protein

Bossier

Goethals

Rodrigues-Pousada

1997

Yeast

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“…Further work is required to elucidate the FLO2 function. Some controversial data has involved the dominant FLO8 gene [87][88][89][90][91][92][93]. Finally, Kobayashi and collaborators [94] cloned the FLO8 gene and their results suggested that the FLO8 gene mediates flocculation via transcriptional activation of the FLO1 gene.…”

Section: Genetics Of Yeast Flocculationmentioning

confidence: 99%

Applications of yeast flocculation in biotechnological processes

Domingues

Vicente

Lima

et al. 2000

Biotechnol. Bioprocess Eng.

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A review on the main aspects associated with yeast flocculation and its application in biotechnological processes is presented. This subject is addressed following three main aspects -the basics of yeast flocculation, the development of "new" flocculating yeast strains and bioreactor development. In what concerns the basics of yeast flocculation, the state of the art on the most relevant aspects of mechanism, physiology and genetics of yeast flocculation is reported. The construction of flocculating yeast strains includes not only the recombinant constitutive flocculent brewer's yeast, but also recombinant flocculent yeast for lactose metabolisation and ethanol production. Furthermore, recent work on the heterologous β-galactosidase production using a recombinant flocculent Saccharomyces cerevisiae is considered. As bioreactors using flocculating yeast cells have particular properties, mainly associated with a high solid phase hold-up, a section dedicated to its operation is presented. Aspects such as bioreactor productivity and culture stability as well as bioreactor hydrodynamics and mass transfer properties of flocculating cell cultures are considered. Finally, the paper concludes describing some of the applications of high cell density flocculation bioreactors and discussing potential new uses of these systems.

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“…It was reported by Straver et al (1994) that two flocculation phenotypes were distinguished by sugar inhibition, and further, they suggested the existence of at least two distinct lectin-encoding flocculation genes. To date, many genetic studies on flocculation in S. cerevisiae have reported several chromosomal genes affecting flocculation (for reviews, see Stratford, 1992;Watari et al,1994b).FLO1, which is one of the dominant flocculation genes, has been cloned and sequenced by three groups (Bidard et al, 1995;Teunissen et al, 1993;Watari et al, 1994b). Recently it was shown that FLO1 should be a structural gene coding for a cell surface protein, which has a key role in the mechanism of yeast flocculation, because of the localization of its product (Bidard et al, 1995), the similarity of the N-terminal sequence between the putative FLO1 product and a protein that was purified from flocculent yeast cell surface, and the stimulative effect on the flocculation ability of the yeast cells (Straver, 1994 Bunkyo-ku, Tokyo 113-8657, Japan (Received July 17, 1998; Accepted October 8, 1998) A nonflocculent industrial polyploid yeast strain, Saccharomyces cerevisiae 396-9-6V, was converted to a flocculent one by introducing a functional FLO1 gene at the URA3 locus.…”

mentioning

confidence: 99%

mentioning

confidence: 99%

Breeding of flocculent industrial alcohol yeast strains by self-cloning of the flocculation gene FLO1 and repeated-batch fermentation by transformants.

Ishida-Fujii

Goto

Sugiyama

et al. 1998

J. Gen. Appl. Microbiol.

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Flocculent yeasts are useful for alcohol production because of the easy and efficient separation of yeast cells from fermenting mash. Their use will result in energy-saving in the separation of yeast cells from fermentation mash, labor-saving in the preparation of seed mash for each fermentation batch, and a higher alcohol production rate. We had already proposed an alcohol production process that used flocculent yeasts, named repeated-batch fermentation system (Saiki et al., 1996). For this system, excellent flocculent yeast strains are required.The mechanism of flocculation in S. cerevisiae cells is explained by the lectin-like theory, which assumes that specific bondings occur between surface proteins (lectins) on flocculent cells and the sugar residues intrinsic to the mannan that comprises cell walls (Miki et al., 1982). The yeast flocculation is likely under genetic control in addition to physiological and environmental factors. It was reported by Straver et al. (1994) that two flocculation phenotypes were distinguished by sugar inhibition, and further, they suggested the existence of at least two distinct lectin-encoding flocculation genes. To date, many genetic studies on flocculation in S. cerevisiae have reported several chromosomal genes affecting flocculation (for reviews, see Stratford, 1992;Watari et al.,1994b).FLO1, which is one of the dominant flocculation genes, has been cloned and sequenced by three groups (Bidard et al., 1995;Teunissen et al., 1993;Watari et al., 1994b). Recently it was shown that FLO1 should be a structural gene coding for a cell surface protein, which has a key role in the mechanism of yeast flocculation, because of the localization of its product (Bidard et al., 1995), the similarity of the N-terminal sequence between the putative FLO1 product and a protein that was purified from flocculent yeast cell surface, and the stimulative effect on the flocculation ability of the yeast cells (Straver, 1994 Bunkyo-ku, Tokyo 113-8657, Japan (Received July 17, 1998; Accepted October 8, 1998) A nonflocculent industrial polyploid yeast strain, Saccharomyces cerevisiae 396-9-6V, was converted to a flocculent one by introducing a functional FLO1 gene at the URA3 locus. The flocculent strain FSC27 obtained was a so-called self-cloned strain, having no bacterial DNA. FSC27 cells could be easily recovered for reuse from fermentation mash without any physical energy. The strain produced a concentration of alcohol as high as 396-9-6V, although the fermentation rate of FSC27 was slightly lower than that of 396-9-6V. When uracil was added to the medium or when URA3 was reintroduced into FSC27 (named FSCU-L18), the fermentation rate and the growth rate increased, and the ethanol concentration produced was higher than that produced by the parent strain. The stable flocculation and high ethanol productivity were observed by using FSCU-L18 during 10 cycles of repeated-batch fermentation test.

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Yeast flocculation: Reconciliation of physiological and genetic viewpoints

Cited by 83 publications

References 93 publications

Constitutive Flocculation inSaccharomyces cerevisiae Through Overexpression of theGTS1 Gene, coding for a ‘Glo’-type Zn-finger-containing Protein

Constitutive Flocculation inSaccharomyces cerevisiae Through Overexpression of theGTS1 Gene, coding for a ‘Glo’-type Zn-finger-containing Protein

Applications of yeast flocculation in biotechnological processes

Breeding of flocculent industrial alcohol yeast strains by self-cloning of the flocculation gene FLO1 and repeated-batch fermentation by transformants.

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