Presentation is loading. Please wait.

Presentation is loading. Please wait.

Same chromophore – different absorption maximum

Published byPosy Newman Modified over 6 years ago

Similar presentations

Presentation on theme: "Same chromophore – different absorption maximum"— Presentation transcript:

1 Same chromophore – different absorption maximum
Length of the conjugation Electrostatic interaction with the binding pocket Steric interaction with the protein Protonation / deprotonation

2 Same chromophore – different absorption maximum
Length of the conjugation Shorter chain (blue shift) Longer chain (red shift) Short wavelength Longer wavelength

3 Same chromophore – different absorption maximum
Electrostatic interaction with the binding pocket BLUE SHIFT (shorter wavelengths): - Ground state stabilization - Excited state destabilization + + + S1 S1 S1 S1 S0 S0 S0 S0

4 Same chromophore – different absorption maximum
Electrostatic interaction with the binding pocket RED SHIFT (longer wavelengths): - Ground state destabilization - Excited state stabilization + + + S1 S1 S1 S0 S0 S1 S0 S0 Very important

5 Same chromophore – different absorption maximum
Steric interaction with the protein Twisting the bonds in the backbone (blue shift) Straightening the backbone (red shift) Rhodopsin (500 nm) Bacteriorhodopsin (568 nm)

6 Same chromophore – different absorption maximum
Protonation / deprotonation UV vision birds, honeybee N Me Strong blue shift

7 Isomerization triggers the biological response
Light S1 S0 Response Isomerization

8 Isomerization triggers different cellular responses
Light S1 Ion pump energy S0 Transducer activation signaling G-protein activation Isomerization

9 Variety of responses to retinal isomerization
bacteriorhodopsin Rhodopsin Sensory rhodopsin G-protein activation transducer activation ion pump

10 G-protein signaling pathway
Light Rhodopsin Cone Rod G-protein signaling pathway

11 Rhodopsin Photocycle Biologically active

12 Rhodopsin Photocycle

13 Rhodopsin Architecture

14 Signaling pathway of rhodopsin
G-proteins Rhodopsin: (effective signaling) Lipid molecules:

15 G-proteins animation

16 G-protein coupled receptors
More than 1000 types of receptor specific for: odorants Photon Neurotransmitter Hormones Calcium Peptides 50% of drugs in the market act on GPCRs, which are very difficult to crystallize  Importance of rhodopsin structure

17 Simulation of rhodopsin in membrane
Protein: pdb file, 1HZX Lipids: POPC bilayer (artificial) Total: ~40,000 atoms NAMD2, CHARMm27, PME 1 ns equilibration, 10 ns relaxation after isomerization

18

19 Embedding the protein in membrane
1. Tyrosine residues 2. Palmitoyls connected to Cys322 and Cys323

20 Inducing isomerization
500 nm ~50 kcal/mole

21 Retinal Charge Distribution
QM/MM derived partial atomic charges

22 In the ground state, the ring of the chromophore blocks the rotation of helix VI

23 Retinal Isomerization
Twist Propagation

24 In the ground state, the ring of the chromophore blocks the rotation of helix VI

25 Text book figures not quite right!

26 Retinal Isomerization
Decoupling of Trp265 and the b-ionone ring

27 Rhodopsin Bacteriorhodopsin Isomerization 11-cis  all-trans
Isomerization: all-trans  13-cis

28 Isomerization Barriers and bond selectivity
Twisted bonds in Rh Twisted bonds in bR

29 Counterion and bond selectivity
counterions in Rh counterions in bR

Download ppt "Same chromophore – different absorption maximum"

Similar presentations

From Carrots to April 20, 2005 ©2005 Neocles Leontis.

From Carrots to April 20, 2005 ©2005 Neocles Leontis.
UV / visible Spectroscopy

UV / visible Spectroscopy
1 The Initial Photochemical Process of Retinal in Bacteriorhodopsin MIYASAKA Lab. Tetsuro KATAYAMA.

1 The Initial Photochemical Process of Retinal in Bacteriorhodopsin MIYASAKA Lab. Tetsuro KATAYAMA.
Beckman Institute, University of Illinois

Beckman Institute, University of Illinois
Photoactivation of the Photoactive Yellow Protein chemistry department Imperial Colege London London SW7 2AZ United Kingdom Gerrit Groenhof, Berk Hess,

Photoactivation of the Photoactive Yellow Protein chemistry department Imperial Colege London London SW7 2AZ United Kingdom Gerrit Groenhof, Berk Hess,
Rhodopsin Christen Eberhart. Rhodopsin Sequence The Eye Rhodopsin is found in the rods that are located in the eye Rods are composed of stacked disks.

Rhodopsin Christen Eberhart. Rhodopsin Sequence The Eye Rhodopsin is found in the rods that are located in the eye Rods are composed of stacked disks.
Applications of UV-Vis Molecular Absorption Spectrometry

Applications of UV-Vis Molecular Absorption Spectrometry
Sec61/SecY Protein review Sec61 protein is important for the movement of proteins across the cell membrane? A signal sequence guides the protein to the.

Sec61/SecY Protein review Sec61 protein is important for the movement of proteins across the cell membrane? A signal sequence guides the protein to the.
Photoreception: mechanisms of transduction, and non- vertebrate eyes The energy detected:

Photoreception: mechanisms of transduction, and non- vertebrate eyes The energy detected:
Spectroscopy of Proteins. Proteins The final product of the genes, translated form genes (mutation in gene leads to a mutated protein) Made of a verity.

Spectroscopy of Proteins. Proteins The final product of the genes, translated form genes (mutation in gene leads to a mutated protein) Made of a verity.
University of Rochester, Institute of Optics SRJC May 12 th 2008 Younes Ataiiyan Physics 43.

University of Rochester, Institute of Optics SRJC May 12 th 2008 Younes Ataiiyan Physics 43.
Structure of Rod and cones cells in retinas Dr. Samina Haq Dept of Biochemistry King Saud University.

Structure of Rod and cones cells in retinas Dr. Samina Haq Dept of Biochemistry King Saud University.
13.4 G Protein-Coupled Receptors That Regulate Ion Channels By: Meredith Clement.

13.4 G Protein-Coupled Receptors That Regulate Ion Channels By: Meredith Clement.
The Senses Sensory Receptors When receptors are triggered, they open up Na+ and K+ channels to trigger an action potential.

The Senses Sensory Receptors When receptors are triggered, they open up Na+ and K+ channels to trigger an action potential.
I.Absorbing Species Absorption of light is a two step process: AbsorptionM + h   M* Relaxation M*  M + heat The heat evolved (very minute) does not.

I.Absorbing Species Absorption of light is a two step process: AbsorptionM + h   M* Relaxation M*  M + heat The heat evolved (very minute) does not.
MEDC 603 Fall 20071 Drugs and Drug Action  Definition – Drugs Chemicals (not light, sound, radiation, magnetic field)…… fragrance? Prevent disease or.

MEDC 603 Fall Drugs and Drug Action  Definition – Drugs Chemicals (not light, sound, radiation, magnetic field)…… fragrance? Prevent disease or.
Photoactivation of the Photoactive Yellow Protein chemistry department Imperial Colege London London SW7 2AZ United Kingdom Gerrit Groenhof, Berk Hess,

Photoactivation of the Photoactive Yellow Protein chemistry department Imperial Colege London London SW7 2AZ United Kingdom Gerrit Groenhof, Berk Hess,
Bacteriorhodopsin + H D85-COO HOOC-E204 HOOC-D96 N + H D85-COO HOOC-E204 HOOC-D96 N K216 bR 568 K 603 + H D85-COO HOOC-E204 HOOC-D96 N K216 D85-COOH OOC-E204.

Bacteriorhodopsin + H D85-COO HOOC-E204 HOOC-D96 N + H D85-COO HOOC-E204 HOOC-D96 N K216 bR 568 K H D85-COO HOOC-E204 HOOC-D96 N K216 D85-COOH OOC-E204.
Fluorescent Proteins By James Dicarlo and Ingrid Spielman August 12, 2008 Aequorea victoria GFP chromophore.

Fluorescent Proteins By James Dicarlo and Ingrid Spielman August 12, 2008 Aequorea victoria GFP chromophore.
Spectral Tuning in Retinal Proteins h 11-cis all-trans.

Spectral Tuning in Retinal Proteins h 11-cis all-trans.

Similar presentations

Ads by Google