CHEMIST VIEW OF LIFE
Carbon: The backbone of life
Organic chemistry is the study of carbon compounds Carbon atoms can form diverse molecules by bonding to four other atoms
Organic chemistry is the study of carbon compounds The term “organic” chemistry came from the misconception that carbon-based compounds were always connected to life
It mostly involves CHOPNS
Carbon atoms can form diverse molecules by bonding to four other atoms The key to an atom’s chemical characteristics is its electron configuration Carbon’s valence shell is half-full…or is it half-empty?
Carbon atoms can form diverse molecules by bonding to four other atoms Carbon usually completes its valence shell by sharing electrons with other atoms in covalent bonds These bonds can be single Tetrahedral shape
Carbon atoms can form diverse molecules by bonding to four other atoms Carbon usually completes its valence shell by sharing electrons with other atoms in covalent bonds Carbon can also form double bonds Forms when two electrons are shared between two atoms Forms a flat molecule
Molecular diversity arising from carbon skeleton variation Sources of diversity: Chain length Branching Double bonds
Molecular diversity arising from carbon skeleton variation Sources of diversity: Chain length Branching Double bonds Ring formation
Jacobus H. van 't Hoff In recognition of the extraordinary services he has rendered by the discovery of the laws of chemical dynamics and osmotic pressure in solutions The Nobel Prize in Chemistry 1901
van't Hoff during his thesis work in Utrecht in 1874 published his suggestion that the carbon atom has its four valences directed towards the corners of a regular tetrahedron, a concept which is the very foundation of modern organic chemistry. The Nobel Prize was, however, awarded for his later work on chemical kinetics and equilibria and on the osmotic pressure in solution.
The Nobel Prize in Chemistry 1902 Hermann Emil Fischer In recognition of the extraordinary services he has rendered by his work on sugar and purine syntheses.
Fischer's work is an example of the growing interest from organic chemists in biologically important substances, thus laying the foundation for the development of biochemistry, and at the time of the award Fischer mainly devoted himself to the study of proteins. Hermann Emil Fischer
The Nobel Prize in Chemistry 1907 For his biochemical researches and his discovery of cell-free fermentation Eduard Buchner
The Nobel Prize in Chemistry 1946 James Batcheller Sumner John Howard Northrop Wendell Meredith Stanley for his discovery that enzymes can be crystallized for their preparation of enzymes and virus proteins in a pure form
Perutz's greatest achievement was demonstrating that the method of 'isomorphous replacement', previously used to solve the structures of small organic compounds, could be used to crack the 'phase problem' in protein crystallography.
The Nobel Prize in Chemistry 1958 Frederick Sanger for his work on the structure of proteins, especially that of insulin
Edman degradation PhenylisothiocyanatePhenylisothiocyanate is reacted with an uncharged terminal amino group, under mildly alkaline conditions, to form a cyclical phenylthiocarbamoyl derivative. under acidic conditions, this derivative of the terminal amino acid is cleaved as a thiazolinone derivative. The thiazolinone amino acid is then selectively extracted into an organic solvent and treated with acid to form the more stable phenylthiohydantoin (PTH)- amino acid derivative that can be identified by using chromatography or electrophoresis. This procedure can then be repeated again to identify the next amino acid.acidicchromatographyelectrophoresis
The Nobel Prize in Chemistry 1980 Paul Berg Walter GilbertFrederick Sanger for his fundamental studies of the biochemistry of nucleic acids, with particular regard to recombinant- DNA" for their contributions concerning the determination of base sequences in nucleic acids"
X-ray crystallography shows the arrangement of water molecules in ice, revealing the hydrogen bonds that hold the solid together.
Fluorescent end labeling of DNA