Transcript ENZYME
BROMELAIN
WHAT ACTUALLY IS BROMELAIN…??
Mixture of protein digesting enzymes known as proteolytic
enzymes or proteases – include several other substances as
well
either of two proteases extracted from plant family
bromeliaceae i.e.,
Stem bromelain - EC 3.4.22.32
Fruit bromelain - EC 3.4.22.33
May also refer to a combination of those enzymes along
with other compounds produced in an extract
Referred to as sulfhydryl proteases since a free sulfhydral
group of a cysteine side chain is essential
The other substances typically include peroxidase, acid
phosphatase, protease inhibitors, and calcium
temperature
Optimal temperature
Deactivation temperature
40-60 °C
50-60 °C
above65 °C approx.
α HELIXES
AND
HELICAL
TURNS
PEEK IN TO THE PAST…
First isolation Vicente Marcano in 1891 from fruit of
pineapple.
In 1892, Chittenden, Joslin and Meara investigated the
matter fully and named it ‘Bromelin’
Later, Bromelian was introduced and orignally applied to any
protease from any member of family Bromeliaceae.
In 1957 first introduced as therapeutic supplement
Pioneer research at Hawaii but recent in countries in
Asia, Europe and Latin America.
Germany has recently taken a great interest in bromelian
research.
13th most widely used herbal medicine in Germany.
IT COMES FROM…
Pineapple plant (Ananas sp.)
Stem most common commercial source
Traditionally as a medicinal plant among natives of
South and Central America.
Produced in Thailand, Taiwan, and other tropical parts of
the world where pineapples are grown.
Prepared from stem part of pineapple after harvesting
the fruit.
ROLE OF THE STUD…
Bromelain
bloods fibrolytic activity and kininogen
and bradykinin serum and tissue levels as well as reduce
excretion of proinflammatory cytokines and chemokines
Also effects prostaglandin synthesis
Inhibits fibrinogen synthesis
Directly degrades fibrin and fibrinogen
cleave at Lys-, Ala-, Tyr-, Gly Is activated by cysteine, bisulfite salt, NaCN, H2S, Na2S,
and benzoate.
inhibited by Hg++, Ag+, Cu++, a-1-antitrypsin, estatin
A&B, Iodoacetate, TLCK, TPCK
PAY BACK TIME…
product name ‘Ananase’
Various uses in Folk medicine
Explored as a potential healing agent in alternative medicine.
Work by blocking some proinflammatory metabolites when applied
topically
Used for reducing swelling
Involved in the migration of neutrophils to the site of acute
inflammation.
Used for treating arthiritis
When used in conjunction with trypsin and rutin is as effective as
prescribed analgesics in the osteoarthiritis management.
Meat tenderizing
WHAT ELSE…??
Other effects include:
Hay fever
Treating a bowel condition that includes swelling and ulcer ulcerative
colitis
Removing dead and damaged tissue after a burn debridement
Preventing the collection of water in the lung pulmonary edema
Relaxing muscles
Improving the absorption of antibiotics
Preventing cancer
Shortening labor
Help the body in reducing fats
Supplement may effect heart rate
systemic enzyme therapy
DIASTASE ENZYME.
DIASTASE
Alpha
amylase
Diastase are any one of a group of enzymes which
catalyses the breakdown of starch into maltose.
first enzyme discovered.
diastase
It was extracted from malt solution in 1833 by Anselme
Payen and Jean-François Persoz, chemists at a French
sugar factory.
Gamma
Beta
The name "diastase"
Greek (diastasis)
amylase comes from theamylase
(a parting, a separation)
ALPHA AMYLASE
EC NUMBER: 3.2.1.1 is 1,4-a-D-Glucan
glucanohydrolase
• Ph-5.9-6.6
Conditions
ALTERNATIVE NAME : glucogenase
• Temperature opt
for
=37’C
Location: it is secreted in saliva
and pancreas, found in
amylase
humans and other animals food reserve of fungi/
Acts on starch, glycogen and related polysaccharides
and oligosaccharides in a random manner; reducing
groups are liberated in the
• alpha-configuration.
Chloride ion and
Metal ions
and
activators
Causes hydrolyses alpha-bonds
of largeion
alpha-linked
bromide
polysaccharides, such as starch and glycogen, yielding
• Most effective.
glucose and maltose.
STRUCTURE
679 amino acid residues with a molecular weight of 75112 residues
It has 3 domains A B C
DOMAIN A: These domains are generally found on all α-amylase
enzymes. The A domain constitutes the core structure, with a (β/α)8barrel.
DOMAIN B :consists of a sheet of four anti-parallel β-strands with a
pair of anti-parallel β-strands. Long loops are observed between the βstrands. Located within the B domain is the binding site for Ca2+-Na+Ca2+.
DOMAIN C consisting of eight β-strands is assembled into a globular
unit forming a Greek key motif. It also holds the third Ca2+ binding site
in association with domain A
ACTIVE SITE:
Positioned on the C-terminal side of the β-strands of the (β/α)8-barrel
in domain A is the active site. The catalytic residues involved for the
BSTA active site are Asp234, Glu264, and Asp331
AMYLOSE IN
STARCH
GLUCOSE RESIDUE CLEAVED BY
INDUSTRIAL APPLICATION:
used in ethanol production to break starches in grains
into fermentable sugars.
detergents, especially dishwashing and starch-removing
detergents.
in textile weaving, starch is added for warping.
-Amylase is used for the production of malt, as the
enzyme is produced during the germination of cereal
grains
Checking out pancerititis the amylase levels are
measured in the pancertic cells.
Trypsinogen is activated by removal of a
terminal hexapeptide to yield singlechain β-trypsin. Limited autolysis
produces other active forms having two
or more peptide chains bound by
disulfide bonds. Predominant forms are
*α-trypsin, having two peptide chains and
*β-, a single chain
ALKALINE
PHOSPHATASE
What is Alkaline Phosphatase?
Alkaline phosphatase (EC 3.1.3.1)comprises a group
of enzymes that catalyze the hydrolysis of phosphate
esters in an alkaline environment, generating an
organic radical and inorganic phosphate.
This has many isoenzymes including
Intestinal (ALPI),
Chromosome 2
Placental (ALPP)
Liver/bone/kidney (ALPL)
Chromosome 1
It belongs to Alpha and Beta class of proteins
STRUCTURE
Alkaline phosphatase is a glycoprotein mainly
parallel beta sheets
Core has 3 layers: a/b/a.
In general, alkaline phosphatase is a dimer
containing nearly identical subunits which each
have two molecules of zinc and one molecule of
magnesium ion.
One molecule of zinc is tightly bound, giving the
structure stability and the other is loosely bound
which provides for the catalytic activity.
General Mechanism
I
Alkaline phosphatase binds substrate. Only
the phosphate moiety of the substrate
binds specifically to the enzyme.
II
A nucleophile attacks the phosphorous atom of
the phosphate and induces cleavage of the
oxygen-phosphorous bond.
At alkaline pH, a nucleophilic hydroxide
(from an active site water molecule) attacks
the covalently bound phosphate,
The noncovalently
bound phosphate
IV
molecule is slowly released from the
enzyme.
III
Properties AND FUNCTION
This enzyme was partially purified and studied by Kunitz
(1960)
It is a hydrolase enzyme found in bacteria and mammals
Optimum pH: 8 – 9
Activators: Mg2+
Wide specificity
Inhibitors: acidic pH, chelators of the metal ions, urea and
high levels of Zn2+
The property of dephosphorylation allows for uses in
molecular biology, in pasteurization and in nature by bacteria.
It catalyses the following reaction
A phosphate monoester + H(2)O
an alcohol + phosphate
Alkaline Phosphatase Test
One of the most important functions of alkaline phosphatase is
as an indicator for disease.
High levels
of alkaline
phosphatase
• bones, liver, bile system or
malignancies,blood,
reproductive tissues and GI
tract
Low levels
of alkaline
phosphatase
• hypophosphatasia,malnutrit
ion, celiac disease,
magnesium and zinc
deficiency, anemia
PEPSIN Classification
EC number 3.4.23.3
Member of the aspartate protease family
First animal enzyme to be discovered
Second to be crystallized
Discovery – Theodor
Schwann
Northrop
Structure:
Two aspartate molecules at the active site
Three sulphide bridges
“A tricky business”
PEPSINOGEN - primary
structure has an additional 44
amino acids
Released by chief cells in the
stomach
HCL causes activation
Pepsinogen → pepsin
TARGETS:
(Amide
autocatalysis
in aromatic
acidic env)
bonds of
amino acids like tryptophan,
phenylalanine and tyrosine
Phenylalanine
Tryptophan
Activity and Stability:
Temperature: 37°C-42°C
pH: 1.5 – 2
Stable until pH 8- can be reactivated upon
re- acidification
Deficiency:
Imbalance in pH
Inability to digest
protein
PAPAIN
Papaya Proteinase I
Cysteine protease
hydrolase
Enzyme
extraction
papaya fruit is first slit at the neck.
latex that drips is either collected in a container or
left to dry on the fruit
latex that is collected is further allowed to dry into a
crude format.
material needs to undergo a purification process to
get rid of all the contaminating products present in it.
Family & structure
Source: present in papaya (Carica
papaya) and mountain
papaya(Vasconcellea
cundinamarcensis).
Cysteine
protease (EC 3.4.22.2) enzyme
Family: members found in
baculovirus, eubacteria, yeast, and
practically all protozoa, plants and
mammals, lysosomal or secreted
contains 345 amino acid residues, and
consists of a signal sequence (1-18),
a propeptide (19-133) and the mature
peptide (134-345). The amino acid
numbers are based on the mature
peptide. The protein is stabilised by
three disulfide bridges.
Mechanism of action
mechanism by which it
breaks peptide
bonds involves
deprotonation of Cys-25 by
His-159
1. Deprotonation of thiol in
cysteine by basic histidine
2. Nucleophilic attack by
deprotonated cysteine on
substrate carbonyl atom
applications
The main function of the papain enzyme is to aid
in digestion and to promote effective digestive
health. This is done by breaking down all the
protein in the body for easy digestion.
The papain enzyme as a meat tenderizer has
been used for many years. Since it is a
proteolytic enzyme that tenderizes meat, it also
acts as a clarifying agent in many food industry
processes.
It is used in treatment of stings that are
administered by jellyfish, bees, wasps or insects
by breaking down the toxin and the venom.
It boosts the immune system and is seen to be
beneficial in food allergies and tumors
Cellulase
Introduction
(source)
Cellulase refers to an entourage of
enzymes produced chiefly by fungi,
bacteria and protozoans that catalyze
cellulolysis (i.e. the hydrolysis of
cellulose).
However, there are also cellulases
produced by a few other types of
organisms, such as some termites and
the microbial intestinal symbionts of
other
termites.
Several
different kinds of cellulases are
known, which differ structurally and
mechanistically.
Complete vs. incomplete cellulases
Some species of fungi and bacteria are able to
exhaustively digest crystalline cellulose in pure culture
are said to have complete or true cellulases.
The majority of organisms that produce cellulases can
only hydrolyze the cellulose in their diets to certain
extent. they are known as incomplete cellulases.
These cellulases unable to digest cellulose exhaustively
can still generate sufficient amount of glucose for their
producers. Endogenous cellulases of termites belong to
this category.
Other Names
Other names for 'endoglucanases' are: endo1,4-beta-glucanase, carboxymethyl cellulase
(CMCase), endo-1,4-beta-D-glucanase, beta1,4-glucanase, beta-1,4-endoglucan
hydrolase, and celludextrinase. The other
types of cellulases are called exocellulases.
Types of reactions/
Classification
General types of cellulases based on the
type of reaction catalyzed:
1. Cleaves internal bonds at Endocellulase
(EC 3.2.1.4) randomly amorphous sites
that create new chain ends.
2. Cellobiase (EC 3.2.1.21) or betaglucosidase hydrolyses the exocellulase
product into individual monosaccharides.
3. Cellulose phosphorylases depolymerize
cellulose using phosphates instead of
water.
Uses
1. Cellulase is used for commercial food
processing in coffee.
2. It performs hydrolysis of cellulose during
drying of beans.
3. Furthermore, cellulases are widely used in
textile industry and in laundry detergents.
4. They have also been used in the pulp and
paper industry for various purposes, and they
are even used for pharmaceutical applications.
5. Cellulase is used in the fermentation of
biomass into bio fuels, although this process is
relatively experimental at present.
6. Cellulase is used as a treatment for
phytobezoars, a form of
cellulose bezoars found in the human stomach.