Protein Denaturation (Part 1) PDF

Summary

This presentation details the process of protein denaturation and its importance in various areas such as health, medicine, and food preparation. The presentation covers protein structure, denaturing agents (like temperature and pH changes), and chaperones. It provides examples of denaturation in everyday scenarios such as cooking an egg.

Full Transcript

Biochemistry:

DENATURATION
OF PROTEINS
Presented by Avionna D. Pico
of 1-BN BSN
Table of Contents:
01 PROTEINS

02 DENATURATION OF PROTEINS

04 IMPORTANCE

05 TEMPERATURE

06 PH LEVEL
What are PROTEINS?
Proteins are large, complex molecules made
up of smaller units called amino acids. They
are essential nutrients for the body and play
a critical role in almost every biological
process.

Proteins help build, repair, and maintain
body tissues (like muscles, skin, and organs)
and are vital for producing enzymes,
hormones, and immune system
components.
What are PROTEINS made of?

All proteins are organic
macromolecules
Contain the elements;
Amino Carboxyl
Carbon, Hydrogen, Oxygen group group
and Nitrogen

The protein building block
or monomer is called an
amino acid molecule Side chain
(R-group)
AMINO ACIDS POLYPEPTIDE

PEPTIDE PROTEIN
PROTEIN STRUCTURE
Summary of Proteins
Organic macromolecules Primary Structure - unique
containing C, H, O, N sequence of amino acids
Amino acids are the monomers Secondary Structure - local folding
Proteins are created when amino patterns; alpha helices and beta
acids chemically combine sheets, stabilized by hydrogen bonds
The bond that connect the amino Tertiary Structure - overall 3D shape,
acids is called a peptide bond formed by interactions among
Small or short protein molecules amino acid side chains.
are called protein polymers or Quaternary Structure - when
peptides multiple polypeptides chains join
Longer protein polymers or together to form a functional protein
peptides is called a polypeptide complex
 Denaturation of Proteins
Denaturing of proteins refers to
the process in which a protein
loses its native structure and
unfolds due to external factors,
such as changes in temperature,
pH, or exposure to chemicals.
This alteration disrupts the weak
bonds (like hydrogen bonds and
disulfide bridges) that maintain
the protein's specific three-
dimensional shape.
Denaturation of Proteins
Key Points on Denaturation of Proteins:
Loss of Structure - Denaturation causes Reversibility - In some cases,
proteins to lose their secondary, tertiary, or denaturation is reversible, and the
quaternary structures while leaving the protein can regain its original shape
primary structure (the sequence of amino under appropriate conditions. But in
acids) intact. many instances, especially with extreme
heat or harsh chemicals, denaturation is
Functionality Impact - This loss irreversible.
of structure typically results in a
loss of biological function
because the protein can no
longer interact properly with
other molecules.
 Importance of
Denaturation of
Proteins
Denaturation is important because it helps us understand how proteins work and
respond to changes in their environment.

Health and Medicine: Understanding Food Preparation: Cooking denatures proteins,
denaturation is essential in medicine, as changing texture and making food safer and
extreme conditions (like high fevers) can easier to digest.
denature critical proteins in the body, Digestion: it unfolds their complex structures,
making them more accessible to digestive
leading to health risks.
enzymes like pepsin in the stomach. Proteins
Sterilization: Heat or chemicals denature
are broken down into smaller peptides and
proteins in bacteria, helping to sterilize
amino acids that can be easily absorbed in the
medical tools and surfaces. small intestine
 Denaturing
Agents

Denaturing agents are substances or conditions that disrupt the
structure of proteins, causing them to lose their natural shape (or
"denature") and often their function.

Physical Agents: heat, mechanical Chemical Agents: acids and bases, organic
agitation, radiation solvents, heavy metals, reducing agents,
salts
 Chaperones or
Chaperonins
Chaperones, or chaperonins, are specialized proteins that help other
proteins fold correctly into their functional 3D structures.

During or after protein synthesis, newly made proteins often need
assistance to achieve their correct shape, especially under conditions
that could lead to misfolding or aggregation.

In short, chaperones are like the cell's folding assistants, ensuring
proteins get into the right shape to function properly and stay healthy.
Denaturing Agent: Temperature
is a physical denaturing agent because high temperatures
increase the kinetic energy of molecules, causing proteins to lose
their structure.

When the temperature rises, the increased energy breaks
hydrogen bonds and hydrophobic interactions that hold the
protein's shape together. This leads to unfolding of the protein and
loss of its original structure.
Examples:

Cooking an egg

High fever
Denaturing Agent: pH changes
pH changes (chemical denaturing agent) can denature proteins
by disrupting the bonds that maintain their structure.

When the pH changes (becomes more acidic or basic), it affects
the charges on parts of a protein. This change messes up the
bonds that hold the protein’s shape, causing it to lose its structure
and function.

Change in pH = Change in Charge
Ionic Interactions & Hydrogen Bonds are affected
Ionic Interactions

Proteins have
positively charged
amino groups (NH₃⁺)
and negatively
charged carboxyl
groups (COO⁻)
Ionic Interactions

In basic conditions,
NH₃⁺ loses a
hydrogen and
becomes neutral
(NH₂), breaking its
bond with COO⁻.
Ionic Interactions

In acidic conditions,
COO⁻ gains a
hydrogen, becoming
neutral (COOH), and
also loses its bond
with NH₃⁺.
Hydrogen Bonds

Proteins also rely on
hydrogen bonds,
which form because
of charges between
atoms like oxygen
and hydrogen.
Hydrogen Bonds

Adding too many
hydrogen ions (like in
an acidic
environment) disrupts
these bonds, causing
the protein to lose its
structure
 Thank
You!
Denaturation of Proteins (Part 1)

Presented by Avionna D. Pico
of 1-BN BSN
References:
Professor Makkieh. (2020, August 21). Protein denaturation - quick explanation! [Video]. YouTube.
https://www.youtube.com/watch?v=oyzx7ttssss

Kiki Sanford. (2017, February 24). What is Protein Denaturation? - Food Science [Video]. YouTube.
https://www.youtube.com/watch?v=WFmgPrZ02Yg

Madpathi, A. (2018, February 21). PROTEIN DENATURATION [Slide show]. SlideShare.
https://www.slideshare.net/ArchanaMadpathi/protein-denaturation?
fbclid=IwY2xjawGWcvlleHRuA2FlbQIxMAABHYHOtUCg66R7C0yk2IS0RU-
H2PQLQcBAsfJP_wxqz_I_de1nLK5yXZonDA_aem_8YNF6oR2prKnWSFQCWhg3w#31

Khan Academy. (n.d.). https://www.khanacademy.org/science/biology/macromolecules/proteins-and-amino-
acids/a/introduction-to-proteins-and-amino-acids

Amoeba Sisters. (2018, September 24). Protein structure and folding [Video]. YouTube.
https://www.youtube.com/watch?v=hok2hyED9go

Nucleus Biology. (2021, December 10). Proteins [Video]. YouTube. https://www.youtube.com/watch?v=kMg517MHDJs