Introduction to Biochemistry & Protein Chemistry PDF

Summary

This document is a lecture on biochemistry, specifically focused on the introduction to medical biochemistry and protein chemistry, and covers topics like the definition of biochemistry, major biomolecules, and the different types of cells (prokaryotic and eukaryotic).

Full Transcript

Field of Medicine
Medicine And Surgery Program
Lecture : Introduction

Dr : Moataz maher Date : / /
Introduction to Medical
Biochemistry & Protein
Chemistry
What’s your expectations from studying
Biochemistry & Molecular Biology
Objectives:
By the end of this lecture the student will be able to:
1. Identify the importance of Biochemistry in Medicine.
2. Recognize the major biomolecules in living organisms.
3. Recognize the types of living cells and cell compartments.
4. Describe the chemical structure of proteins.
 1. What is Biochemistry?
Biochemistry = chemistry of life.
Living organisms contain thousands of molecules (simple & complex).
These molecules are complicated and highly organized (proteins, DNA, RNA,
carbohydrates, and lipids)
Biochemistry is the study of these biomolecules function, interaction, synthesis and
degradation inside the living cell.
Living organisms can
a. extract
b. Store ENERGY
c. Use
 Principle Areas of Biochemistry

Structure and function of biological macromolecules
Metabolism
– Anabolic and catabolic processes.
Molecular Biology
– How life is replicated?
– How protein synthesis is regulated?
 Role of Biochemistry in Medicine
Several diseases have a molecular basis, so Biochemistry enables us
to
Understand the chemical processes involved in such conditions.
Diagnosis and follow up of diseases.
It is a guide to discovery of therapy and apply it to diseases.
In nutrition: The nutrients value of food material can also be
determined by biochemical tests.
For maintenance of health, optimum intake of many chemicals like
vitamins, minerals, essential fatty acids is needed  Nutritional
imbalance leads to disease.
 2. Biomolecules
The human body is composed of:
- Major elements (C, H, N, O, P, S).
These elements are major components of important biomolecules, such
as proteins, nucleic acids, polysaccharides and lipids.
- Less abundant: Na, Mg, K, Ca, Cl
- Trace elements: Mn, Fe, Co, Cu, Zn.
The major components of the body are water (60%). The others
include proteins (17%), fat (14%), carbohydrates (1.5%) and
minerals (6%).
 2. Biomolecules
- Large biomolecules are polymers (Greek: poly + meros, many +
parts)
- They are derived from monomers (Greek: mono + meros, single +
part)
 What are the different types of cells?
Extract differences between these cells
 3. Types of Cells
The cell is the fundamental unit of biologic activity.
Living cells fall into 2 broad categories:
- Prokaryotes - Eukaryotes
In Greek “before the nucleus” In Greek “true nucleus”
a. Single-celled organisms (such as a. contains a well-defined nucleus
bacteria) surrounded by a nuclear
b. It lacks nuclei and other membrane
organelles b. can be single celled, such as
c. It has only one membrane yeasts, or multicellular, such as
“Plasma membrane” animals and plants
 Prokaryote Cell

Simplest
No organelles
No nucleus
No membrane bound organelles
DNA uncomplexed by histones
 Eukaryote Cell

More complex
– Contain organelles
– Has a nucleus
More DNA
– Has to be folded
– Contains histones
 Differences between Prokaryotes & Eukaryotes

Organelle Prokaryotes Eukaryotes
Nucleus No definite nucleus; DNA Present
present but not separated
from the rest of the cell
Cell membrane Present Present
Mitochondria None: enzymes for oxidation Present
are on plasma membrane
Endoplasmic None Present
reticulum
Ribosomes Present Present
 Summary of Cell Organelles of and Their Functions

Organelle Function

Nucleus Location of main genome; site of
most DNA and RNA synthesis

Mitochondria Site of energy-production
reactions; has its own DNA

Endoplasmic Rough: synthesis, folding and
reticulum modification of proteins.
Smooth: synthesis of phospholipids and
cholesterol.
 Cell organelles and their functions (cont.)

Golgi Cell post office.
apparatus Involved in secretion of proteins to
their cellular target

Lysosomes contain hydrolytic enzymes responsible
for breakdown of different molecules
Peroxisomes Breaks down H2O2 and other products
that can damage the cell components
Cell membrane Separates the cell contents from the
outside world
Where can we find proteins?
 4. Chemical structure of proteins
Proteins are the most abundant macromolecules in living cells.
All proteins contain the elements carbon (C), hydrogen (H),
oxygen (O) and nitrogen (N).
Most proteins contain about 1% of the element sulfur
Certain specialized proteins contain other elements such as
phosphorus (found in milk).
 Amino Acids
(The structural unit of proteins)
 Amino acids are the building block of proteins.

 All proteins are made of a long chain of amino acids linked together by peptide bonds and other bonds
forming a polypeptide chain.

 All proteins are made up of one or more polypeptide chains.

 All proteins in all species are formed from the same set of 20aminoacids.
 Amino Acids
(The structural unit of proteins)

 Amino acids contain both an amino
group and a carboxyl group.
 α-Amino acid is an amino acid in
which the amino group is on the carbon
adjacent to the carboxyl group.
 Protein Nomenclature

Peptides 2 –50 amino acids
Proteins >50 amino acids
Three letter code:
–Met-Gly-Glu-Thr-Arg-His
Single letter code:
–MGETRH
 Types and functions of proteins
Role Examples Functions
They are catalysts, meaning that they speed the
reactions up
1. Enzymes Amylase, - Digestive enzymes break down nutrients in food
lipase, pepsin into small pieces that can be readily absorbed
- All chemical reaction of the body are catalyzed
by enzymes
2. Transport Hemoglobin Carry substances throughout the body in blood
(e.g. molecules, ions…)
Actin,
3. Structure collagen, Build different structures
keratin

4. Receptors Mediate chemical, electrical and hormonal stimuli
 Types and functions of proteins
Role Examples Functions
5. Hormones Insulin, Coordinate the activity of different body systems
glucagon
6. Defense Antibodies Protect the body from foreign pathogens

7. Contraction Myosin Carry out muscle contraction

- Albumin - Serve as biological reserves of metal ions and
8. Storage amino acids
- Ferritin - A protein that stores iron in the liver
- Biochemistry is of chemistry of life.

- The major biomolecules in different organisms.

- There are two forms of living cells eukaryotes and prokaryotes.

- Introduction to Proteins structure and function.
 Introduction to Biochemistry link

https://www.youtube.com/watch?v=9MfGXc2qKXo&list=PLluIsqNl4jcqXszPTyKWVYmSfT00E
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