Starch

Question 1

Where is starch present in grains?

Answer 1

• cereal grains
• pulses/ legume chains

Question 2

What surrounds starch

Answer 2

Starch in grains is embedded in a complex matrix (enzyme access limited)
* Protein matrix surrounds starch
* Cell wall surrounds starch and protein

Question 3

Types of polysaccharides

Answer 3

homo - polymerized with same monomer
hetero - polymerized with different monomers

Question 4

Composition of starch molecules

Answer 4

• major: starch
• minor: protein, lipid, minerals (found in granules)

Question 5

Classification of starch based on the amylose content

Answer 5

• Waxy <10%, w/w - swelling power is higher so more visciostiy
• Regular ~18-25%, w/w
• High Amylose >40%,w/w - can retrograde quickly to form gel

Question 6

Two types of starch molecules

Answer 6

• amylose: 1-4 alpha glycosidic link; linear
• amylopectin: 1-4, 1-6 alpha glycosidic links; branch points are nearly 5% of total bond structures

Question 7

gel stability of amylose and amylopectin

Answer 7

• amylose is unstable: Linear so retrograde fast so gel more fast changing in texture since retrogradation is more efficient and linear molecules can pack more tightly and associate.
• amylopectin is stable: Branched nature so does not retrograde as well so gel is more stable for longer.

Question 8

HiMaize

Answer 8

High amylose corn flour
* Variety of corn grounded into powder 50-70% amylose; usually sold in mass production of bread
making. High in resistance starch so hard to release and used in low glycemic food application

Question 9

General amylose content of grains

Answer 9

• Waxy, regular and high amylose corn and barley starches available
• Wrinkle pea (a legume) starch has >70% amylose
• Pulse/legume starches usually show higher amylose content, >35% up to 42%

Question 10

How do rice grains vary in amylose content

Answer 10

• Short grain/Sticky rice Japonica Rice (High amylopectin) - more sticky: Upon cooling after cooking in excess water, slower retrogradation of
  amylopectin /starch leads to lower amounts of resistant starch formation in short grain rice that leads to faster digestion and higher GI.
• Long grain/Fluffy rice Indica Rice (High amylose) -High degree of packing and difficult for enzymes to act on it: Upon cooling after cooking in excess water, retrogradation of starch leads to
  higher amounts of resistant starch formation in long grain rice that leads to slower digestion and lower GI.

Question 11

Fine Structure of Amylopectin

Answer 11

Cluster Model
C chain is centre most chain and then branches into the B chains which extends from one to the other which then go into the smaller A chains (outermost chain). Potential to form double helical structure through H bonding. So can pack themselves where A chain is because of the linear formations through double helix formation very tightly so potential to form a highly ordered region. Branching is not linear so considered an unordered or amorphous region
* C-chain carries the ONLY reducing end
* All other tips are non-reducing
* Highly packed and ordered = crystalline
* Less associated = amorphous

Question 12

backbone of starch granules

Answer 12

amylopectin
* Mainly amylopectin structure and blocklet is the base unit to form base layers of growth rings of granule. Blocklets pack themselves and then amylose runs between and through the blocks to bind them together

Question 13

Starch Granule Architecture

Answer 13

Intermolecular hydrogen bonds stabilize the ultra-structure

Question 14

How does amylase break down starch?

Answer 14

Highly packed crystalline lamellae/regions of starch known as resistant starch type 2 (RS2) Resist enzyme hydrolysis - amylase enzyme enter starch granule interior through amorphous lamellae
* Enzymes put holes on top and then penetrate in and hydrolyzed them. Enzymes mainly search for less associated regions such as the amorphous region. Then radiate up and down to hydrolyze crystalline regions. Crystalline resist hydrolysis but eventually get in. They are type II resistant starch. Enzyme selectively penetrate the blockers through amorphous part

Question 15

Where do amylose molecules exist within the starch ultra-structure?

Answer 15

• Free amylose in the amorphous region - random coil
• Amylose-lipid complex in the amorphous region
• Co-crystalized with the amylopectin crystals

Question 16

What is used to determine amylose content of starches?

Answer 16

Iodine blue technique

Question 17

How to determine amylose bound to lipids

Answer 17

Question 18

How are amylose co-crystallized with amylopectin?

Answer 18

Run through the blocklets themselves and into the helix structure
* dominant in pulse starch
* High amylose content foods
* Resistant to amylase hydrolysis and cooking

Question 19

What grains commonly have co-crystallization?

Answer 19

highly present in higher amylose containing pulse, corn and barley starches. Hence, high amylose starches are digested slowly by amylase enzymes (also called as slowly digestible starches – good for low glycemic food formulation)

Question 20

V-Amylose Crystals

Answer 20

Clusters of Amylose–Lipid Complex can associated with each other through H bonding since the outside is hydrophilic between the amylose which get packed and so enzyme cannot hydrolyze the crystals very well.
* RS5 type of resistant starch.
* Melting temperature = 90-110o C

Question 21

How does Amylose/lipid structure influence structure

Answer 21

• Makes bread softer
  During brad making take the wheat flour and mix and knead the dough and then allow it to proof and then cut and bake. The starch will geletinze during baking anf amylose are released and can pack tightly on their own when cooled and for stronger textured bread. If fat added though the amylose forms a complex with the fat instead so changing conformation from linear to helix conformation and cannot pack as strongly so bread becomes softer.

Question 22

Is Native Starch Soluble in Water?

Answer 22

• YES - Individual amylose and amylopectin molecules are soluble in water
• NO - In native starch granules, amylose and amylopectin molecules are tightly associated to each other – hence not soluble in cold water

Question 23

What does starch gelation include?

Answer 23

Includes both
* gelatinization (heating)
* retrogradation (cooling)

Question 24

What occurs in gelatinization?

Answer 24

Heat starch in excess water
* granule swelling due to hydration
* Crystal/double helical melting of amylopectin
* Amylose leaching

Question 25

What occurs in retrogradation?

Answer 25

Molecular reassociations come back together and may engulf water molecules to form soften matrix
A-A
A-AP
AP-AP

Question 26

How does water act as a plasticizer?

Answer 26

water to bond/hydrate the amorphous regions of starch during gelatinization. expanding and pulling crystals apart.
* Water helps in the melting process

Question 27

When do most starches gelatinize?

Answer 27

Most starches gelatinize below 90℃ with water but higher with no water

Question 28

Explain how cooking of starch in excess water and subsequent cooling would influence starch digestibility?

Answer 28

Gelatinization improves the accessibility of starch to amylolysis, but retrogradation (i.e. molecular re-association or molecular packing) restricts accessibility
* However, it is important to note that cooked and cooled starches always undergo faster amylolysis than their native counterparts.

Question 29

Most utilized bio-molecule in nature

Answer 29

starch

Question 30

What does Amylase preferentially hydrolyse?

Answer 30

the loosely packed regions of blocklets

Question 31

Why is gelatinization important for efficient enzyme hydrolysis?

Answer 31

Heating starch and water where water acts as a plasticizer and helps to melt crystalline regions to loosen them up so enzymes can efficiently act and hydrolyze

Question 32

What is corn syrup?

Answer 32

Hydrolyzed corn starch into monomer units and convert some of the glucose into fructose

Question 33

How is corn syrup produced?

Answer 33

corn starch hydrolysis and some converson of some glucose to fructose

Question 34

What are the major sugars in corn syrup?

Answer 34

glucose and fructose

Question 35

Why is corn syrup excel high glycemic index?

Answer 35

Corn syrup is monomer units and is readily absorbed to increases the glycemic index

Question 36

Is corn syrup considered a natural or artificial sweetener?

Answer 36

natural sweetener

Question 37

Major steps of corn syrup production

Answer 37

• Liquefaction
• Saccharification
• isomerism

Question 38

Liquefaction of corn syrup production

Answer 38

Starch gelatinized and dextrinized with thermal stable alpha-amylase simultaneously

Question 39

Saccharification during corn syrup production

Answer 39

Dextrins further hydrolysed into sugars using amyloseglucosidase

Question 40

isomerism during corn syrup production

**

Answer 40

Convert portion of glucose into fructose
* If glucose left as is will solidify in the cans which can crystallize easily and hard to get out. So convert some to fructose which prevents the crystallization. Fructose is also sweeter so if some converted the application rates of added sugar can be reduced to achieve same sweetness

Question 41

Why is starch gelatinized and dextrinized simultaneously?

**

Answer 41

Starch swells and become highly viscous leading to technical difficulties in handling the slurry. Thermostable Alpha-amylase will hydrolyze the swollen starch and prevent excessive swelling

Question 42

Important functional properties of food starch

Answer 42

1. thermal stability
2. shear stability
3. freeze thaw & gel stability -Prevention of syneresis/ retrogradation
4. Acid stability or resistance
5. cold solubility

Question 43

WHY NATIVE STARCHES ARE CHEMICALLY MODIFIED?

Answer 43

To improve functional properties

Question 44

Types of chemical modifications

Answer 44

• crosslinking to create more covalent bonds: Improve thermal, shear and acid resistance
• substitution to prevent molecules from coming close to each other: Improve freeze thaw and gel stability Improve cold water solubility.
• Double Modification: cross-linked and substituted

Question 45

What is resistant starch?

Answer 45

Starch that resist digestion in the human intestinal tract
* A portion of starch we consume escapes digestion and reaches gut and gets fermented with many benefits to human health.

Question 46

How is resistant starch classified?

Answer 46

• starch physical state and chemical structure
• rate of starch digestibility

Question 47

Health Benefits of Resistant Starch

Answer 47

Fermentable - production of SCFA – acetic, propionic & butyric acids
* Cholesterol reduction – mechanism through SCFA - Propionic
* Improve immunity / Healthy colon – SCFA – Primarily butyric
* Prebiotic?

Question 48

Rate of Starch Digestion for the different types of starch

Answer 48

• RDS (20min): absorbed duodenum resulting in high GI
• SDS (20min-2hrs): absorbed lower jejunum so lower GI
• VSDS (2-16 hours) and RS (>16hrs): fermented in large intestine