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Transcript
Introductory Biochemistry Instructor: Dr. David Shintani Office: 311C Fleischmann Ag. E-mail: [email protected] Phone: (775) 784-4631 How to be successful in this class • • • • • • • come to class!!! read ahead in the text don’t fall behind understand the material memorize structures and pathways study in groups see me for help during office hours What is Biochemistry? • Biochemistry is the study of the molecules and chemical reactions of life. • The Biochemist uses physical and chemical principles to explain biology at the molecular level. • Basic principles of biochemistry are common to all living organism What can we do with biochemistry? • Medicine • Agriculture • Industrial applications • Environmental applications Principle Areas of Biochemistry • Structural chemistry • Metabolism • Molecular Genetics Origins of Biochemistry: A challenge to “Vitalism.” • Vitalism: idea that substances and processes associated with living organisms did not behave according to the known laws of physics and chemistry • 1828 - Friedrich Wohler synthesized urea from an inorganic compound in a test tube. • 1897 – Eduard and Hans Buchner showed that an extract from killed yeast could convert glucose to ethanol in vitro. • Emil Fischer – proposed the idea of “enzymes” as biological catalyst for chemical reactions. Proposed “lock and key” • 1926 – J.B. Sumner crystallized the protein urease Organization of Life • • • • • • • • elements simple organic compounds (monomers) Macromolecules (polymers) supramolecular structures organelles cells tissues organisms Range of the sizes of objects studies by Biochemist and Biologist 1 angstrom = 0.1 nm 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, Important compounds, functional groups Many Important Biomolecules are Polymers monomer lipids proteins carbo nucleic acids fatty acid amino acid glucose nucleotide protein subunit cellulose DNA protein complex cell wall chromosome polymer phospholipid supramolecular structure membrane Lipids monomer fatty acid polymer phospholipid supramolecular structure membrane Proteins monomer amino acid polymer protein subunit supramolecular structure protein complex Carbohydrates monomer glucose polymer cellulose supramolecular structure cell wall Nucleic Acids monomer nucleotide polymer DNA supramolecular structure chromatin Prokaryote Cell Eukaryote Cell Cellular Organization of an E. coli Cell
