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''[[Saccharomyces cerevisiae]]'', is an important yeast in [[ethanol fermentation]] and [[winemaking]]. ''S. cerevisiae'' is able to grow both in the presence and absence of oxygen,<ref>{{cite journal |last1=Rintala |first1=E |last2=Toivari |first2=M |last3=Pitkänen |first3=JP |last4=Wiebe |first4=MG |last5=Ruohonen |first5=L |last6=Penttilä |first6=M |title=Low oxygen levels as a trigger for enhancement of respiratory metabolism in Saccharomyces cerevisiae. |journal=BMC genomics |date=5 October 2009 |volume=10 |pages=461 |doi=10.1186/1471-2164-10-461 |pmid=19804647}}</ref> but the fermentation rate increases during the [[Bacterial_growth#Phases|stationary phase]] in the presence of oxygen.<ref>{{cite journal |last1=Rosenfeld |first1=E |last2=Beauvoit |first2=B |last3=Blondin |first3=B |last4=Salmon |first4=JM |title=Oxygen consumption by anaerobic Saccharomyces cerevisiae under enological conditions: effect on fermentation kinetics. |journal=Applied and environmental microbiology |date=January 2003 |volume=69 |issue=1 |pages=113-21 |doi=10.1128/AEM.69.1.113-121.2003 |pmid=12513985}}</ref> |
''[[Saccharomyces cerevisiae]]'', is an important yeast in [[ethanol fermentation]] and [[winemaking]]. ''S. cerevisiae'' is able to grow both in the presence and absence of oxygen,<ref>{{cite journal |last1=Rintala |first1=E |last2=Toivari |first2=M |last3=Pitkänen |first3=JP |last4=Wiebe |first4=MG |last5=Ruohonen |first5=L |last6=Penttilä |first6=M |title=Low oxygen levels as a trigger for enhancement of respiratory metabolism in Saccharomyces cerevisiae. |journal=BMC genomics |date=5 October 2009 |volume=10 |pages=461 |doi=10.1186/1471-2164-10-461 |pmid=19804647}}</ref> but the fermentation rate increases during the [[Bacterial_growth#Phases|stationary phase]] in the presence of oxygen.<ref>{{cite journal |last1=Rosenfeld |first1=E |last2=Beauvoit |first2=B |last3=Blondin |first3=B |last4=Salmon |first4=JM |title=Oxygen consumption by anaerobic Saccharomyces cerevisiae under enological conditions: effect on fermentation kinetics. |journal=Applied and environmental microbiology |date=January 2003 |volume=69 |issue=1 |pages=113-21 |doi=10.1128/AEM.69.1.113-121.2003 |pmid=12513985}}</ref> |
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Examples of hydrolyzed sugars used in fermentation: |
Examples of hydrolyzed sugars with high water ratio used in fermentation: |
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* [[Inverted sugar syrup]] |
* [[Inverted sugar syrup]] |
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** [[Fermented water]] |
** [[Fermented water]] |
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** [[Winemaking]] kits: Cheap winemaking kits usually instruct that the grape juice should be diluted [[sucrose]] (bought separately) should be dissolved in water. |
** [[Winemaking]] kits: Cheap winemaking kits usually instruct that the grape juice should be diluted [[sucrose]] (bought separately) should be dissolved in water. |
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* [[Kombucha]] is produced by fermenting sugared [[tea]] using a ''[[symbiotic]] culture of bacteria and yeast'' ([[SCOBY]]). |
* [[Kombucha]] is produced by fermenting sugared [[tea]] using a ''[[symbiotic]] culture of bacteria and yeast'' ([[SCOBY]]). |
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⚫ | However, concentrated syrups contain little water and thus have little impact in terms of oxygen. For example, [[glucose syrup]] containing over 90% [[glucose]] is used in industrial [[fermentation (food)|fermentation]].<ref name="isbn0-7514-0269-9">{{cite book |author1=Dziedzic, S. Z. |author2=Kearsley, M. W. |title=Handbook of starch hydrolysis products and their derivatives |publisher=Blackie Academic & Professional |location=London|year=1995 |isbn=0-7514-0269-9 |page=230}}</ref> |
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Also, cold [[drinking water]] (from [[tap water]], lakes, etc) contains sufficient oxygen and does not have to be aerated with a [[faucet aerator]] under normal conditions.{{Citation needed|date=March 2022}} |
Also, cold [[drinking water]] (from [[tap water]], lakes, etc) contains sufficient oxygen and does not have to be aerated with a [[faucet aerator]] under normal conditions.{{Citation needed|date=March 2022}} |
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Incooking, a syrup (less commonly sirup) (from Arabic: شراب; sharāb, beverage, wine and Latin: sirupus)[1] is a condiment that is a thick, viscous liquid consisting primarily of a solutionofsugar in water, containing a large amount of dissolved sugars but showing little tendency to deposit crystals. Its consistency is similar to that of molasses. The viscosity arises from the multiple hydrogen bonds between the dissolved sugar, which has many hydroxyl (OH) groups.
There are a range of syrups used in food production, including:
A variety of beverages call for sweetening to offset the tartness of some juices used in the drink recipes. Granulated sugar does not dissolve easily in cold drinks or ethyl alcohol. Since the following syrups are liquids, they are easily mixed with other liquids in mixed drinks, making them superior alternatives to granulated sugar.
Inverted sugar syrup, also known as simple syrup, is a basic sugar-and-water syrup. It is used by bartenders as a sweetener to make cocktails, and as a yeast feeding agent in ethanol fermentation.
The ratio of sugar to water is 1:1 by volume for normal simple syrup, but can get up to 2:1 for rich simple syrup.[6] For pure sucrose the saturation limit is about 5:1 (500 grams (18 oz) sucrose to 100 millilitres (3.5 imp fl oz; 3.4 US fl oz) water).
Combining demerara sugar, a type of natural brown sugar, with water in this process produces demerara syrup. Sugar substitutes such as honeyoragave nectar can also be used to make syrups. Spices can be added to the ingredients during the process, resulting in a spiced simple syrup.
Flavored syrups are made by infusing simple syrups with flavouring agents during the cooking process. A wide variety of flavouring agents can be used, often in combination with each other, such as herbs, spices, or aromatics. For instance, syrupus aromaticus is prepared by adding certain quantities of orange flavouring and cinnamon water to simple syrup. This type of syrup is commonly used at coffee bars, especially in the United States, to make flavoured drinks. Infused simple syrups can be used to create desserts, or, to add sweetness and depth of flavour to cocktails.
Gomme syrup (or gum syrup; gommeisFrench for "gum") is inverted sugar syrup added with gum arabic. Gomme syrup is made with the highest ratio of sugar to water possible, while the gum arabic prevents the sugar from crystallizing and adds a smooth texture.
It is an ingredient commonly used in mixed drinks, and as a sweetener for iced coffee in Japan.
Syrups can be made by dissolving sugar in water or by reducing naturally sweet juices such as cane juice, sorghum juice, or maple sap. Corn syrup is made from corn starch using an enzymatic process that converts it to sugars.
Arefractometer is used to determine the sugar content in the solution, known as brixormust weight.
Syrup is used to feed microbiological life. Syrup consists of carbohydrates and water. Cold water can hold more dissolved oxygen than warm water.
Saccharomyces cerevisiae, is an important yeast in ethanol fermentation and winemaking. S. cerevisiae is able to grow both in the presence and absence of oxygen,[7] but the fermentation rate increases during the stationary phase in the presence of oxygen.[8]
Examples of hydrolyzed sugars with high water ratio used in fermentation:
However, concentrated syrups contain little water and thus have little impact in terms of oxygen. For example, glucose syrup containing over 90% glucose is used in industrial fermentation.[9]
Also, cold drinking water (from tap water, lakes, etc) contains sufficient oxygen and does not have to be aerated with a faucet aerator under normal conditions.[citation needed]
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