lecture 1
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Introduction to BiochemistryTRANSCRIPT
SBT 1231principle BiochemistryInstructor: Br. OSAMA YOUSEF
E-mail: [email protected] Phone: 016-3404688
How To learn Biochemistry???? Attend to class Review lecture notes. Read book chapters.
Principles of Biochemistry 3rd EditionHorton, Moran, Ochs, Rawn, Scrimgeour.
What is Biochemistry? Biochemistry = chemistry of life. Biochemists use physical and chemical principles to explain biology at the molecular level. Basic principles of biochemistry are common to all living organism
How does biochemistry impact our life? Medicine: production of many analogues which are used as drugs such as 6-mercaptopurine Agriculture: identification compounds and chemical principles affecting plant and animal growth. (fertilizers) Industrial applications: food product Environmental : Biodegradation
Medical applications of biochemistry 6-Mercaptopurine is an analog of hypoxanthine, an intermediate in nucleotide biosynthesis. When mercaptopurine is made into a nucleotide , it stops DNA replication from occurring because it is incorporated into DNA instead of the proper nucleotide. 6-Mercaptopurine is an anticancer medication. It inhibits the uncontrolled DNA replication associated with proliferation of white blood cells in leukemia.
Principle Areas of Biochemistry Structure and function of biological molecules Metabolism energy production and utilization (anabolic and catabolic processes). Molecular Genetics How life is replicated. Regulation of protein synthesis
Before biochemistryVitalism: idea that substances and processes associated with living organisms did not behave according to the known laws of physics and chemistry Evidence: 4) Only living things have a high degree of complexity 5) Only living things can transform and utilize energy from their environment 6) Only living things are capable of self assembly and self replication
Origins of Biochemistry: A challenge to Vitalism.
Famous Biochemist!
Vitalism : Biochemicals can only be produced by living organisms
1828 Friedrich Wohler
Vitalism : Complex bioconversion of chemical substances require living matter
1897 Eduard Buchner
Glucose + Yeast extract = Alcohol
Vitalism : Complex bioconversion of chemical substances require living matter
Emil Fischer
Vitalism : Complex bioconversion of chemical substances require living matter1926 J.B. Sumner Isolation and crystallization of the enzyme urease
Organization of Life elements simple organic compounds (monomers) macromolecules (polymers) supramolecular structures organelles cells tissues organisms
Organization of Life
Elements of Life
Most abundant, essential for all organisms: C, N, O, P, S, H Less abundant, essential for all organisms : Na, Mg, K, Ca, Cl Trace levels, essential for all organism: Mn, Fe, Co, Cu, Zn Trace levels, essential for some organisms: V, Cr, Mo, B, Al, Ga, Sn, Si, As, Se, I, F, Ni.
Important compounds, functional groups
Many Important Biomolecules are Polymerslipidsmonomerf a t t y a c id
proteinsa m i n o a c id p r o t e in s u b u n it p r o t e in c o m p le x
carbo nucleic acidsg lu c o s e c e llu lo s e c e ll w a ll n u c le o tid e DNA c h ro m o s o m e
polymer p h o s p h o l i p i d supramolecular m e m b ra n e structure
Proteins
amino acid protein subunit Enzyme complex
Carbohydrates
monomer g lu c o s e polymer c e llu lo s e supramolecular structure c e ll w a ll
Nucleic Acidsmonomer polymern u c le o ti d e DNA
supramolecular c h r o m a t in structure
Nucleic Acids
Lipids
monomer polymer
f a t t y a c id p h o s p h o lip id
supramolecular m e m b r a n e structure
Common theme: Monomers form polymers through condensations (dehydration) Polymers are broken down through hydrolysis.
Prokaryote Cell
Eukaryote Cell