fbpx
Wikipedia

Yeast flocculation

February 15, 2024

Yeast flocculation typically refers to the clumping together (flocculation) of brewing yeast once the sugar in a wort has been fermented into beer. In the case of "top-fermenting" ale yeast (Saccharomyces cerevisiae), the yeast creates a krausen, or barm on the top of the liquid, unlike "bottom-fermenting" lager yeast (Saccharomyces pastorianus) where the yeast falls to the bottom of the brewing vessel.[citation needed]

Process edit

Cell aggregation occurs throughout microbiology, in bacteria, filamentous algae, fungi and yeast.[1] Yeast are capable of forming three aggregates; mating aggregates, for DNA exchange; chain formation; and flocs as a survival strategy in adverse conditions.[2] Industrial brewing strains rarely mate. Therefore, only chain formation and flocculation are of relevance to the brewing industry.

Yeast flocculation is distinct from agglomeration (‘grit’ formation), which is irreversible and occurs most commonly in baker's yeast when strains fail to separate when resuspended. [3] Agglomeration only occurs following the pressing and rehydration of yeast cakes and both flocculent and non-flocculent yeast strains have been shown to demonstrate agglomeration.[4] It is also distinct from the formation of biofilms, which occur on a solid substrate.

Louis Pasteur is erroneously credited with first describing flocculation of brewer’s yeast. Brewer's yeast flocculation has been the subject of many reviews.[5] Flocculation has been defined as the reversible, non-sexual aggregation of yeast cells that may be dispersed by specific sugars[6] or EDTA.[7] The addition of nutrients other than sugars has been demonstrated not to reverse flocculation.[8] This is as opposed to mating aggregates formed as a prelude to sexual fusion between complementary yeast cells.[9]

For flocculation to occur the yeast must be flocculent and certain environmental conditions[10] must be present. Several factors are important in cell-to-cell binding such as surface charge, hydrophobic effects and zymolectin interactions.[11] The importance of these forces in brewing yeast flocculation was unrecognized in the past but work by Speers et al. (2006)[12] have indicated the importance of zymolectin and hydrophobic interactions. As the cells are too large to be moved by Brownian motion, for binding of two or more cells to occur the cells must be subjected to low level of agitation.

Zymolectin interaction theory edit

The accepted mechanism of flocculation involves a protein-carbohydrate model.[13] Fully flocculent yeast cells exhibit carbohydrate α-mannan receptors and protein zymolectins.[14] Zymolectins are so termed as they may not be true bivalent lectins.[15][16] It has been suggested that zymolectin interactions between the protein and mannan moities results in the flocculation phenotype[17] with Ca2+ ions required for the correct conformation of the zymolectins. Co-flocculation between Kluyveromyces and Schizosaccharomyces has been shown to be by a “lectinic” mechanism.[18] This theory explains the essential role of calcium and how deproteinisation affects flocculation.

Flocculation zymolectins and phenotypes edit

Three flocculation phenotypes have been elucidated based on the zymolectins they produce: Flo1 (Stratford and Assinder, 1991) NewFlo (Stratford and Assinder, 1991) and Mannose Insensitive (MI).[19] These flocculation phenotypes differ in the time of the onset of flocculation and the sugar inhibition of flocculation. The genetic control of yeast flocculation has not been extensively studied. Recent reports suggest genes encoding lectin-like proteins exhibit close sequence homology.[20] Furthermore, it seems that FLO genes have interchangeable functions that can compensate for one another.[21]

Flocculation phenotypes edit

The Flo1 phenotype is inhibited by mannose[22] occurs in both ale and lager strains.[23]

The NewFlo phenotype differs from that of Flo1 in several ways. Firstly NewFlo flocculation is inhibited by mannose, glucose and maltose.[24] Secondly the NewFlo lectin is putatively encoded by the FLO10 gene.[25] Studies by the Speers group have indicated little change in zymolectin levels through a fermentation. It is argued that lectin maturation occurs some fourteen hours after the cessation of cell division[26] and is therefore not concomitant with entry into stationary phase, although this is strain dependent.[27] However the molecular proof of this maturation is near non-existent. The picture is complicated by changes in cell surface hydrophobicity and CO2 driven shear which confounds flocculation measurements often erroneously solely attributed to zymolectin interactions. While flocculation (clumping and settling) occurs at this time, this flocculation occurs as a result of changes in hydrophobicity and a decline in shear due to which is in turn to low CO2 evolution.

References edit

  1. ^ (Lewin, 1984; Stratford, 1992)
  2. ^ (Calleja, 1987)
  3. ^ (Guinard and Lewis, 1993)
  4. ^ (Guinard and Lewis, 1993)
  5. ^ (Stewart et al., 1975; Stewart and Russell, 1986; Calleja, 1987; Speers et al., 1992; Jin and Speers, 1999)
  6. ^ (Burns, 1937; Lindquist, 1953, Eddy, 1955; Masy et al., 1992
  7. ^ (Burns, 1937; Lindquist, 1953)
  8. ^ (Soares et al., 2004)
  9. ^ (Calleja, 1987)
  10. ^ (such as agitation, absence of sugars, a microamount of Ca2+, ethanol, etc.; Jin and Speers 1999)
  11. ^ (see following)
  12. ^ Speers, R.A., Wan, Y-Q., Jin, Y-L., and R. J. Stewart, R.J. 2006. Effects of fermentation parameters and cell wall properties on yeast flocculation. J. Inst. Brew. 112:246-254.
  13. ^ (Miki et al., 1982) (figure 1.3)
  14. ^ (section 1.5.4)
  15. ^ (Speers, Smart, Stewart and Jin,1998)
  16. ^ Speers, R.A., Smart, K., Stewart, R., Jin, Y-L., 1998. Zymolectins in Saccharomyces cerevisiae. Letter J. Inst. Brew., 104:298.
  17. ^ (section 4.1)
  18. ^ (El-Behhari et al., 2000)
  19. ^ (Masy et al., 1992; Dengis and Rouxhet, 1997)
  20. ^ (Jin and Speers, 1991, 1999; Smart, 2001)
  21. ^ (Guo et al., 2000)
  22. ^ (Burns, 1937; Miki et al., 1982; Nishihara and Toraya, 1987; Kihn et al., 1988; Stratford, 1989; Stratford and Assinder, 1991)
  23. ^ (Miki, 1982; Stratford and Assinder, 1991; Masy et al., 1992; Smit et al., 1982; Stratford, 1993; Stratford and Carter, 1993; Teunissen et al., 1993; Teunissen et al., 1995a, b; Bony et al., 1997; Braley and Chaffin, 1999; Fleming and Pennings, 2001; He et al., 2002; Verstrepen et al., 2003) and is associated with the FLO1 gene (Watari, 1991 Masy et al., 1992; Stratford, 1993; Stratford and Carter, 1993; Teunissen et al., 1993; Teunissen et al., 1995a, b; Bony et al., 1997; Braley and Chaffin, 1999)
  24. ^ (Stratford and Assinder, 1991; Masy, 1992; Rhymes, 1999)
  25. ^ (Guo et al., 2000; Smart, 2001)
  26. ^ (Stratford, 1989; Stratford and Assinder, 1991; Masy 1992; D’Hautcourt and Smart, 1999)
  27. ^ (D’Hautcourt and Smart, 1999; Verstrepen et al., 2003)

February 15, 2024
yeast, flocculation, typically, refers, clumping, together, flocculation, brewing, yeast, once, sugar, wort, been, fermented, into, beer, case, fermenting, yeast, saccharomyces, cerevisiae, yeast, creates, krausen, barm, liquid, unlike, bottom, fermenting, lag. Yeast flocculation typically refers to the clumping together flocculation of brewing yeast once the sugar in a wort has been fermented into beer In the case of top fermenting ale yeast Saccharomyces cerevisiae the yeast creates a krausen or barm on the top of the liquid unlike bottom fermenting lager yeast Saccharomyces pastorianus where the yeast falls to the bottom of the brewing vessel citation needed Contents 1 Process 2 Zymolectin interaction theory 2 1 Flocculation zymolectins and phenotypes 2 2 Flocculation phenotypes 3 ReferencesProcess editCell aggregation occurs throughout microbiology in bacteria filamentous algae fungi and yeast 1 Yeast are capable of forming three aggregates mating aggregates for DNA exchange chain formation and flocs as a survival strategy in adverse conditions 2 Industrial brewing strains rarely mate Therefore only chain formation and flocculation are of relevance to the brewing industry Yeast flocculation is distinct from agglomeration grit formation which is irreversible and occurs most commonly in baker s yeast when strains fail to separate when resuspended 3 Agglomeration only occurs following the pressing and rehydration of yeast cakes and both flocculent and non flocculent yeast strains have been shown to demonstrate agglomeration 4 It is also distinct from the formation of biofilms which occur on a solid substrate Louis Pasteur is erroneously credited with first describing flocculation of brewer s yeast Brewer s yeast flocculation has been the subject of many reviews 5 Flocculation has been defined as the reversible non sexual aggregation of yeast cells that may be dispersed by specific sugars 6 or EDTA 7 The addition of nutrients other than sugars has been demonstrated not to reverse flocculation 8 This is as opposed to mating aggregates formed as a prelude to sexual fusion between complementary yeast cells 9 For flocculation to occur the yeast must be flocculent and certain environmental conditions 10 must be present Several factors are important in cell to cell binding such as surface charge hydrophobic effects and zymolectin interactions 11 The importance of these forces in brewing yeast flocculation was unrecognized in the past but work by Speers et al 2006 12 have indicated the importance of zymolectin and hydrophobic interactions As the cells are too large to be moved by Brownian motion for binding of two or more cells to occur the cells must be subjected to low level of agitation Zymolectin interaction theory editThis section is missing information about flocculin alias for FLO zymolectins a more popular terminology nowadays use doi 10 3390 fermentation4020028 Please expand the section to include this information Further details may exist on the talk page January 2022 The accepted mechanism of flocculation involves a protein carbohydrate model 13 Fully flocculent yeast cells exhibit carbohydrate a mannan receptors and protein zymolectins 14 Zymolectins are so termed as they may not be true bivalent lectins 15 16 It has been suggested that zymolectin interactions between the protein and mannan moities results in the flocculation phenotype 17 with Ca2 ions required for the correct conformation of the zymolectins Co flocculation between Kluyveromyces and Schizosaccharomyces has been shown to be by a lectinic mechanism 18 This theory explains the essential role of calcium and how deproteinisation affects flocculation Flocculation zymolectins and phenotypes edit Three flocculation phenotypes have been elucidated based on the zymolectins they produce Flo1 Stratford and Assinder 1991 NewFlo Stratford and Assinder 1991 and Mannose Insensitive MI 19 These flocculation phenotypes differ in the time of the onset of flocculation and the sugar inhibition of flocculation The genetic control of yeast flocculation has not been extensively studied Recent reports suggest genes encoding lectin like proteins exhibit close sequence homology 20 Furthermore it seems that FLO genes have interchangeable functions that can compensate for one another 21 Flocculation phenotypes edit The Flo1 phenotype is inhibited by mannose 22 occurs in both ale and lager strains 23 The NewFlo phenotype differs from that of Flo1 in several ways Firstly NewFlo flocculation is inhibited by mannose glucose and maltose 24 Secondly the NewFlo lectin is putatively encoded by the FLO10 gene 25 Studies by the Speers group have indicated little change in zymolectin levels through a fermentation It is argued that lectin maturation occurs some fourteen hours after the cessation of cell division 26 and is therefore not concomitant with entry into stationary phase although this is strain dependent 27 However the molecular proof of this maturation is near non existent The picture is complicated by changes in cell surface hydrophobicity and CO2 driven shear which confounds flocculation measurements often erroneously solely attributed to zymolectin interactions While flocculation clumping and settling occurs at this time this flocculation occurs as a result of changes in hydrophobicity and a decline in shear due to which is in turn to low CO2 evolution References edit Lewin 1984 Stratford 1992 Calleja 1987 Guinard and Lewis 1993 Guinard and Lewis 1993 Stewart et al 1975 Stewart and Russell 1986 Calleja 1987 Speers et al 1992 Jin and Speers 1999 Burns 1937 Lindquist 1953 Eddy 1955 Masy et al 1992 Burns 1937 Lindquist 1953 Soares et al 2004 Calleja 1987 such as agitation absence of sugars a microamount of Ca2 ethanol etc Jin and Speers 1999 see following Speers R A Wan Y Q Jin Y L and R J Stewart R J 2006 Effects of fermentation parameters and cell wall properties on yeast flocculation J Inst Brew 112 246 254 Miki et al 1982 figure 1 3 section 1 5 4 Speers Smart Stewart and Jin 1998 Speers R A Smart K Stewart R Jin Y L 1998 Zymolectins in Saccharomyces cerevisiae Letter J Inst Brew 104 298 section 4 1 El Behhari et al 2000 Masy et al 1992 Dengis and Rouxhet 1997 Jin and Speers 1991 1999 Smart 2001 Guo et al 2000 Burns 1937 Miki et al 1982 Nishihara and Toraya 1987 Kihn et al 1988 Stratford 1989 Stratford and Assinder 1991 Miki 1982 Stratford and Assinder 1991 Masy et al 1992 Smit et al 1982 Stratford 1993 Stratford and Carter 1993 Teunissen et al 1993 Teunissen et al 1995a b Bony et al 1997 Braley and Chaffin 1999 Fleming and Pennings 2001 He et al 2002 Verstrepen et al 2003 and is associated with the FLO1 gene Watari 1991 Masy et al 1992 Stratford 1993 Stratford and Carter 1993 Teunissen et al 1993 Teunissen et al 1995a b Bony et al 1997 Braley and Chaffin 1999 Stratford and Assinder 1991 Masy 1992 Rhymes 1999 Guo et al 2000 Smart 2001 Stratford 1989 Stratford and Assinder 1991 Masy 1992 D Hautcourt and Smart 1999 D Hautcourt and Smart 1999 Verstrepen et al 2003 Retrieved from https en wikipedia org w index php title Yeast flocculation amp oldid 1070395860, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.