1. 4th European Conference on the Spectroscopy of Biological Molecules,
York (England), 1991
2. 5th International Conference on Retinal Proteins, Durdan (France), 1992
3. 5th International Conference on the Spectroscopy of Biological
Molecules, Loutraci (Greece), 1993
4. 6th International Conference on Retinal Proteins, Leiden (Holland), 1994
5.
Time Resolved Vibrational
Spectroscopy 7, Santa Fe, New-Mexico
(USA),
1995
6. 7th International Conference on Retinal Proteins, Zichron Yaacov
(Israel), 1996
1. The Mechanism of Rhodopsin Activation studied by FT-IR Difference
Spectroscopy Using Mutants, F. Jäger, F. Siebert, K. Fahmy, T. Sakmar, Biophysiktagung in Hühnfeld, 1993
2.
All-solid-state
Cr:forsterite femtosecond laser designed as a three-element resonator. F.
Jäger, F. Noack, N. Zhavoronkov, CLEO
2000 (Conference on Lasers and
Electro-Optics), CMQ4 (2:15pm)
1. Molecular Changes of the Membrane Embedded Carboxy Group Glu 122 of Bovine Rhodopsin During the Transition to
the Active State Metarhodopsin-II: An Investigation on the Glu 122 è Asp Mutant using FR-IR Difference Spectroscopy. F. Jäger, T.P. Sakmar and F. Siebert, Fifth International Conference on the
Spectroscopy of Biological Molecules, (Eds. T. Theophanides, J.
Anastassopoulou, N. Fotopoulos), Kluwer Academic Publishers: Dordrecht, 1993, p.223
2. The role of Steric Interactions Between the
Chromophore and the Protein: FTIR and Functional Studies of Rhodopsin and
Bacteriorhodopsin Regenerated with Modified Chromophores. F. Siebert, F.
Jäger, O. Weidlich and M. Sheves, Sixth International
Conference on the Spectroscopy of Biological Molecules
(Eds. J.C. Merlin, S. Turell and J.P. Huvenne), Kluwer Academic Publishers: Dordrecht, 1995, pp.175-176
3. Picosecond Time-Resolved Resonance Coherent Anti-Stokes Raman
Spectroscopy of Bacteriorhodopsin: Experimental Challenges and the K-590 Spectrum. L. Ujj, F. Jäger, A. Popp, R. Ligon
& G.H. Atkinson, Time -Resolved
Vibrational Spectroscopy,
Springer-Verlag, 1997 (W. Woodruff, et al.
Eds.),
pp.281-282
4. Picosecond Time-Resolved Coherent Anti-Stokes Raman Spectroscopy:
Studies in the Room Temperature Bacteriorhodopsin and Rhodopsin
Photo-Reactions. G.H. Atkinson, L. Ujj, A. Popp, J. Delaney, F.
Jäger, and R. Ligon, Time -Resolved Vibrational Spectroscopy, Springer-Verlag, 1997 (W. Woodruff, et al. Eds.), pp.15-19
5. Picosecond Time-Resolved Resonance CARS Spectroscopy: Vibrational
Spectra of the Deionized Form of
Bacteriorhodopsin (Blue Membrane).
R. Ligon, L. Ujj, A. Popp,
F. Jäger and G.H. Atkinson, Time -Resolved Vibrational Spectroscopy, Springer-Verlag, 1997 (W. Woodruff, et al. Eds.), p.283
6. A Picosecond Time-Resolved CARS Investigation on the
Isotopically-labeled 13C14-13C15
Bacteriorhodopsin. F. Jäger, L.
Ujj, A. Popp, J. Popp and G.H. Atkinson,
Time - Resolved Vibrational
Spectroscopy, Springer-Verlag, 1997 (W. Woodruff, et al. Eds.), pp.285-286
7.
Picosecond Time-Resolved
Coherent Anti-Stikes Raman Spectroscopy: Studies in the Room-Temperature BR and
Rhodopsin Photo-Reaction. G. H. Atkinson, L. Ujj, A. Popp, J. Delaney, F.
Jäger and R. Ligon,
(Tokyo Symposium 1995) and (Pacific Chem. Conf. -Hawaii, 1995), in press
1.
Protonation states of
membrane-embedded carboxylic acid groups in rhodopsin and metaehodopsin II: A
Fourrier-transform infrared spectroscopy study of site-directed mutants. K. Fahmy, F.
Jäger, M. Beck, T. A. Zvyaga, T. P. Sakmar and F.
Siebert, Proc. Natl. Acad. Sci., USA, 1993 (90), 10206 - 10210
2. Interaction of the ß-Ionon Ring with the Protein in the Visual Pigment
Rhodopsin Control the Activation Mechanism.
An FTIR and Fluoreszence Study on Artificial Vertebrate Rhodopsins.
F.
Jäger, S. Jäger, O.
Kräutle, N. Friedman, M. Sheves, K.P. Hofmann and F. Siebert, Biochemistry, 1994 (33), 7389 - 7397
3.
Direct Identification of Glu-113 as the Schiff
Base Proton Acceptor in the Metarhodopsin II
Photointermediate of Bovine Rhodopsin.
F.
Jäger, K.
Fahmy, T. P. Sakmar and F. Siebert, Biochemistry, 1994 (33), 10878 - 10882
4. Vibrational Spectrum of the K-590 Intermediate in the Bacteriorhodopsin
Photocycle at Room Temperature: Picosecond Time-Resolved Resonance Coherent
Anti-stokes Raman Spectroscopy. L.
Ujj, F. Jäger, A. Popp and G.H. Atkinson, J. Chem. Phys., 1996 (212), 421 - 436
5. Vibrational Spectrum of K-590 Containing 13C14-13C15
Retinal: Picosecond Coherent Anti-stokes Raman Spectroscopy of the Room
Temperature Bacteriorhodopsin Photocycle. F. Jäger, L.Ujj, G.H.
Atkinson, M. Sheves, M. Ottolenghi, J. Phys. Chem., 1996 (100) No
29, 12066 - 12075
6.
Nanosecond Retinal
Structure Changes in K-590 During the Room-Temperature Bacteriorhodopsin
Photocycle: Picosecond Time-Resolved Coherent Anti-Stokes Raman
Spectroscopy. O. Weidlich, L. Ujj, F.
Jäger and G.H. Atkinson, Biophys.J.,
1997 (72), 2329 - 2341
7. Vibrational Spectrum of Bathorhodopsin in the Room-Temperature Rhodopsin
Photoreaction, F. Jäger,
L.Ujj and
G.H. Atkinson, J. Am.
Chem. Soc., 1997 (119), 12610 -
12618
8. Vibrational Spectroskopy of a Picosecond, Structurally-Restricted
Intermediate Containing a Seven-Membered Ring in the Room Temperature of an
Artificial Phodopsin, F. Jäger,
Jihong Lou, Koji Nakanishi, L. Ujj and G. H. Atkinson, J. Am. Chem. Soc., 1998
(120), 3739 - 3747
9. Vibrational Spectrum of the Lumi Intermediate in the Room Temperature
Phodopsin Photo-Reaction. L. Ujj, F.
Jäger, and G. H. Atkinson,
Biophysical Journal, 1998
(74), 1492 - 1501
10.Coherent anti-Stokes vibrational Raman spectra of artificial rhodopsin
pigments containing ring structures blocking 11-cis isomerization. Yidong
Zhou, Laszlo Ujj, Jihong Lou, Frank Jäger, K.Nakanishi, G.H. Atkinson, J. of Molecular Structure, 1999 (478), 107 - 119
11.Femtosecond
all-solid-state Cr:forsterite laser designed in a compact three-element layout.
F. Jäger, N. Zhavoronkov and F. Noack, Electr. Lett., 1999 (35), 2206 - 2207