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Introductory Biochemistry

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Title: Introductory Biochemistry

1
Introductory Biochemistry
2
Instructors

Dr. Nafez Abu Tarboush
Dr. Mamoun Ahram
Dr. Said Ismail

3
Recommended textbooks

Biochemistry Mary K. Campbell and Shawn O.
Farrell, Brooks Cole 6th edition

4
Recommended electronic web address

NCBI Bookshelf
(http//www.ncbi.nlm.nih.gov/entrez/query.fcgi?db
Books)
The Medical Biochemistry Page (http//web.indstat
e.edu/thcme/mwking/home.html)
Biochemistry, Garret and Grishan, Second Ed.
http//web.virginia.edu/Heidi/home.htm

5
Outline (Ahram)

Introduction
Acid, base, and pH
Macromolecules and carbohydrates
Lipids
Amino acids
Polypeptides and proteins structure
Protein analysis

6
Outline (Abu Tarboush)

Protein structure-function relationship (part I
fibrous proteins)
Protein structure-function relationship (part II
globular proteins)
Enzymes (introduction)
Enzymes (kinetics)
Enzymes (mechanism of regulation)
Enzymes (cofactors)

7
Outline (Ismail)

Nucleic acids structure
Replication, synthesis, and repair of DNA
Transcription, synthesis of RNA
Translation, synthesis of proteins
Regulation of Gene Expression
Oncogenes and tumor suppressor cancer
Recombinant DNA Technology
Gene Therapy
Stem cell technology

8
Office hours

Location Faculty of Medicine, first floor
Time Daily 2-4
Note If I am not in my office, then try the lab
in the third floor. Simply ask for me.

9
Introduction into biochemistryChemical
composition of living organisms

Dr. Mamoun Ahram
Lecture 1

10
Reference

Campbell and Farrell, Page 35-43

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Physiology and biochemistry
Anatomy
12
What is biochemistry?

Biochemistry is the chemistry of living organisms
It seeks to describe the structure, organization,
and functions of living matter in molecular terms

13
Understanding life

Know the chemical structures of biological
molecules
Understand the biological function of these
molecules
Understand interaction and organization of
different molecules within individual cells and
whole biological systems
Understand bioenergetics (the study of energy
flow in cells)

14
Biochemistry and medicine

diagnose and monitor diseases
design drugs (new antibiotics, chemotherapy
agents)
understand the molecular bases of diseases

15
The chemical elements
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Chemical elements in living creatures

Living organisms on Earth are composed mainly of
31 elements

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Abundant elements

Four primary elements carbon, hydrogen, oxygen,
and nitrogen
96.5 of an organism's weight
The second groups includes sulfur and phosphorus
Most biological compounds are made of only SIX
elements C, H, O, N, P, S

19
Others

Minor, but essential, elements
Mostly metals

20
Dalton

The atomic weight of an atom, or the molecular
weight of a molecule, is its mass relative to
that of a hydrogen atom
Specified in Daltons
One Dalton equals to the mass of a hydrogen atom

21
Chemical bonds
22
Types of chemical bonds

There are two types of chemical bonds between
atoms
an ionic bond is formed when electrons are
donated by one atom to another (example NaCl)
a covalent bond is formed when two atoms share a
pair of electrons

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Important properties of bonds

Bond strength (amount of energy that must be
supplied to break a bond)
Bond length the distance between two nuclei
Bond orientation bond angles determining the
overall geometry of atoms
The three-dimensional structures of molecules are
specified by the bond angles and bond lengths for
each covalent linkage

25
Covalent bonds
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Properties of covalent bonds

Bond strength The strongest bonds
Bond length variable
Bond orientation specific bond angles
determining the overall geometry of atoms
The three-dimensional structures of molecules are
specified by the bond angles and bond lengths for
each covalent linkage

28
Single and double bonds

Most are single bonds
Some are double bonds

29
Single vs. double bonds

O, N, S, P, and C atom allow double bonds
Double bonds are shorter and stronger
A single covalent bond allows rotation of a
molecule

30
Polarity of covalent bonds

Covalent bonds in which the electrons are shared
unequally in this way are known as polar covalent
bonds

31
Examples

Oxygen and hydrogen
Nitrogen and hydrogen
Not carbon and hydrogen
Oxygen and nitrogen atoms are electronegative
Water is an excellent example of polar molecules

32
Non-covalent interactions
33
What are they?

Reversible and relatively weak
Electrostatic interactions, hydrogen bonds, and
van der Waals interactions

34
Electrostatic interactions(charge-charge
interactions)

Formed between two charged particles
These forces are quite strong in the absence of
water

35
Hydrogen bonds

The hydrogen atom in a hydrogen bond is partly
shared between two relatively electronegative
atoms

36
Donor and acceptor
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van der Waals interactions

The distribution of electronic charge around an
atom changes with time
The strength of the attraction is affected by
distance

38
Hydrophobic interactions

Not true bonds

39
Carbon
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Why is carbon important?

It can form single, double, or triple bonds
Different geometries
Rotation
Stable
Internediate electronegativity
Hydrophilic vs. hydrophobinc
Chains and rings
backbone
Versatile three-dimensional structure

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Water
42
Polarity of water

Water accounts for about 70 of a cell's weight
In the water molecule, oxygen is more
electronegative than hydrogen therefore, the
oxygen side of the molecule has a negative charge
and the other side has a positive charge

43
Hydrogen bonds