States and transitions

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Presentation transcript:

States and transitions Spectroscopy—transitions between energy states of a molecule excited by absorption or emission of a photon hn = DE = Ei - Ef Energy levels due to interactions between parts of molecule (atoms, electrons and nucleii) as described by quantum mechanics, and are characteristic of components involved, i.e. electron distributions (orbitals), bond strengths and types plus molecular geometries and atomic masses involved

Spectroscopic Regions Adapted from Table 7-1; Biophysical Chemistry, Part II by Cantor and Schimmel

Optical Spectroscopy - Processes Monitored UV/ Fluorescence/ IR/ Raman/ Circ. Dichroism Diatomic Model Analytical Methods Excited State (distorted geometry) Absorption hn = Egrd - Eex UV-vis absorp. & Fluorescence. move e- (change electronic state) high freq., intense Ground State (equil. geom.) CD – circ. polarized absorption, UV or IR n0 nS Fluorescence hn = Eex - Egrd Raman –nuclei, inelastic scatter very low intensity Raman: DE = hn0-hns = hnvib IR – move nuclei low freq. & inten. Infrared: DE = hnvib Q molec. coord.

Optical Spectroscopy – Electronic, Example Absorption and Fluorescence Essentially a probe technique sensing changes in the local environment of fluorophores  (M-1 cm-1) Fluorescence Intensity What do you see? [protein example] Intrinsic fluorophores eg. Trp, Tyr Change with tertiary structure, compactness Amide absorption broad, Intense, featureless, far UV ~200 nm and below

Optical Spectroscopy - IR Spectroscopy Protein and polypeptide secondary structural obtained from vibrational modes of amide (peptide bond) groups Amide I (1700-1600 cm-1) Amide II (1580-1480 cm-1) Amide III (1300-1230 cm-1) I II a b rc What do you see? Aside: Raman is similar, but different amide I, little amide II, intense amide III Model peptide IR