Topic 9- General Principles of International Law.pptx
Enzymatic bioconversions
1. Enzymatic Bioconversions
Eg. Starch and sugar conversion processes
Submitted by : S. Akshaya Gayathri
Class : II MSc., Biotechnology
College : Bon Secours College for Women
2. Carbohydrates and Fermentable Sugars
Carbohydrates, or “hydrates of carbon,” are an important group of
naturally
occurring organic compounds.
Commonly these are formed by green plants through photosynthesis
Carbohydrates are any of the various compounds comprised of
carbon, hydrogen and oxygen, general formula Cx(H20)y
Carbohydrates are used to store energy until required by the organism
– Sugars, starches, cellulose, glycogen and related substances
Saccharides, the simplest form of carbohydrates, consist of single
sugar units with five or six carbon atoms in ring form– They are
commonly called “sugars” or “sweeteners’’
3. Starch and cellulosic compounds are polymeric molecules:
• Made up of basic unit called monomers
• These monomers are joined together by a chemical bond called a
• glycosidic link
Carbohydrates can be divided into four basic classes:
Monosaccharides
Diasaccharides
Oligosaccharides
Polysaccharides
Each of these comprises of successively more of the same basic unit
or units
4.
5. Monosaccharides:
Glucose and Fructose
Can be fermented to ethanol by yeast, only under anaerobic
Conditions.
Diasaccharides:
Sucrose and Maltose
Sucrose is fructose and glucose molecule linked together
Sucrose is obtained from sugar cane and sugar beets
Commonly known as table sugar
Maltose comprises of two molecules of glucose linked together
Both maltose and sucrose are fermentable to ethanol by yeast
6. Oligosaccharides
Are saccharides with more than three but less than eight units.
Oligosaccharides can not be fermented by yeast to produce ethanol.
Polysaccharides
Polymeric carbohydrates of many thousand of monomeric sugar units
linked together through glycosidic linkages.
Starch, glycogen or cellulose.
Neither starch or cellulose can be directly fermented by yeast to
produce ethanol.
Must be hydrolyzed to fermentable sugars.
8. Enzymes that convert starch to sugar
• Starch conversion enzymes convert the starch in grist to flavor components and
fermentable sugars. Starch is glucose molecules linked together in a linear polymer
(amylose) or a branched polymer (amylopectin). Several key enzyme groups, primarily
amylases, take part in the conversion of grain starches.
• Alpha- amylases: they rapidly but randomly break starch molecules starch molecules to produce
water-soluble fragments of starch called dextrins – unfermentable carbohydrates that contribute
to beer flavor, body, and mouthfeel
• Beta- amylases: these act only at the ends of starch molecules and fragments to produce
maltose.
• Glucoamylases: break off single molecules of glucose from starch molecules, dextrins and
maltose.
• The bonds that form branches in amylopectin polymer starch are resistant to the action of
amylase enzymes.
• Pullulanase: it is a starch-debranching enzyme, can break these bonds and give amylase enzymes
faster access to starch molecules
• Cellulase and Lipase: break down cell walls and lipid inclusion complexes to release starch for
conversion.
9.
10. STARCH STRUCTURE
Crystallinity
• Packing of amylose and amylopectin within starch granule is not
random but is very organized.
• Prevents enzymes to breakdown starch granule.
• Can be disrupted by gelatinization of starch.
11. GELATINIZATION
• Starch gelatinization is a process of breaking down the intermolecular bonds of
starch molecules in the presence of water and heat, allowing the hydrogen sites
(the hydroxyl hydrogen and oxygen) to engage more water.
• This irreversibly dissolves the starch granule in water.
12. Blue Iodine Colour:
When Iodine complexes with starch, it forms a color complex
which is different for amylose and amylopectin
The goal of the system and enzyme are to solubilize and lower all
the starch in the grain—indicated by an amber to yellow iodine
test color.
13. SOLUBLIZATION OF STARCH
Even at 95°C not all of the starch gets solubilized (pasted or
gelatinized).
Needs to be cooked for 5 minutes at 110°C to completely solubilize
starch.
Pasting or gelatinization temperature starts at 60°C, but is not
complete until > 105°C.
14. Iodine Color – Facts:
• Different chain lengths = different colors
• All color changes occur between Dp12 & Dp45
• Six glucose units are required per iodine
• Retrogradation occurs with Dp150 - Dp200 oligosaccharides.