: LIST OF PUBLICATIONS (Dr. Daniel Krois)
1 Selective
Conformational Changes of Cyclic Systems û XII. Enhanced Reactivity of ten
Membered Ring Ketones Due to Transanular Steric Compression: Hydrates and
Hemiketals from Oxo-[2.2]metacyclophanes; D. Krois, E. Langer and H.
Lehner, Tetrahedron, 1980, 36, 1345-1351.
2 Carbene
Insertion into [2.2] Metacyclophane-1,10-dione: A Convenient Route to [3.2]-
and [3.3]-Metacyclophanes; D. Krois and H. Lehner, J. Chem. Soc. Perkin
Trans. 1, 1982, 477-481.
3 Hydration and Hemiacetal
Formation in Oxo-[m.n]Metacyclophanes; D. Krois and H. Lehner, Monatsh.
Chem., 1982, 113, 1019-1024.
4 [4.2]-
and [4.3]-Metacyclophanes; D. Krois and H. Lehner, J. Chem. Soc. Perkin
Trans. 1, 1982, 2369-2372.
5 Conformational
AnalysisûXIII. Syn and Anti [3.2]-, [3.3]-,
[4.2]-, and [4.3]-Metacyclophanes; D.
Krois and H. Lehner, Tetrahedron, 1982, 38, 3319-3324.
6 Chiral
Induction in Biliverdin Covalently Bound to Amino Acids; E. Haidl, D.Krois
and H.Lehner, J. Chem. Soc. Perkin Trans. 2, 1985, 421-425.
7 New Aspects in the Protonation
of Biliverdins; E.Haidl, D.Krois and H.Lehner, Monatsh. Chem., 1985,
116, 119-131.
8 Chiral Discrimination in
Biliverdin (S)-Amino Acids II: Structural Variations of the Amino Acid
Functional Groups; D.Krois and H.Lehner, Monatsh. Chem., 1986,
117, 1205-1217.
9 Peptide-mediated
Chiral Discrimination in Bilipeptides: Biliverdin Di- and Tripeptides;
D.Krois and H.Lehner, J. Chem. Soc. Perkin Trans. 2, 1987,
219-225.
10 Complete
Chiral Discrimination in Bilipeptides: The Chirpotical Properties of the
Bilatriene Helix; D.Krois and H.Lehner, J. Chem. Soc. Perkin Trans. 2,
1987, 1523-1526.
11 Synthesis
and Stereochemistry of a Helical 2,18-Bridged Biliverdin; D.Krois and
H.Lehner, J. Chem. Soc. Perkin Trans. 1, 1989, 2179-2185.
12 On the Fate of Biliverdin-IIIa-dimethyl Ester Formed by Scrambling during Syntheses of Biliverdin-IXa-dimethyl Ester from Bilirubin; D.Krois and H. Lehner, Monatsh. Chem.,
1989, 120, 575-580.
13 Resolution
of Chiral Interconvertible Diastereoisomers of a 2,18-Bridged Biliverdin
Mediated by First-order Asymmetric Transformation; D.Krois and H.Lehner, J.
Chem. Soc. Perkin Trans. 2, 1989, 2085-2090.
14 Restricted Helix
Inversion in Chiral 2,18-Bridged Biliverdins; D.Krois and H.Lehner, Monatsh.
Chem., 1989, 120, 789-795.
15 On the Hypothetical
Protein F 154 of the TTV1 Virus/Thermoproteus Tenax. Part I: Synthesis
of a Dodecapeptide Amide Related to the Protein Sequence 73-84; E. Wuensch and
D. Krois, Monatsh. Chem., 1989, 120, 1021-1028.
16 On the Hypothetical
Protein F 154 of the TTV1 Virus/Thermoproteus Tenax. Part II: Synthesis
of the Trieicosapeptide, Corresponding to the Protein Sequence 79-101; D.
Krois, M.Simonetti and E. Wuensch, Monatsh. Chem., 1989, 120,
1029-1041.
17 On the Hypothetical
Protein F154 of the TTV1 Virus from Thermoproteus Tenax. Part III:
Immunological Identification of the Protein with Anti-Peptide Antibodies; D.
Krois, M. Dufresne, H. Neumann, L. Moroder and E. Wuensch, Biol. Chem.
Hoppe-Seyler, 1990, 371, 43-48.
18 Peptide-mediated
Conformational Changes in Bilipeptides: Evidence for the Ocurrence of Stretched
Species; D.Krois and H.Lehner, J. Chem. Soc. Perkin Trans. 2, 1990,
1745-1755.
19 Conformation Control of
Bilatrienes by Peptides: A Survey; D.Krois and H. Lehner, Monatsh. Chem.,
1991, 122, 89-100.
20 Geometry Versus Basicity
of Bilatrienes: Stretched and Helical Protonated Biliverdins; D. Krois, Monatsh.
Chem., 1991, 122, 495-506.
21 Novel
Reaction Modes of Biliverdin-IXa: Synthesis and Structure of Bilatriene Dimers;
H. Kaehlig, D.Krois and H.Lehner, J. Chem. Soc. Perkin Trans. 1, 1992,
1043-1051.
22 Helically
Fixed Chiral Bilirubins and Biliverdins: A New Insight into the Conformational,
Associative and Dynamic Features of Linear Tetrapyrrols; D.Krois and
H.Lehner, J. Chem. Soc. Perkin Trans. 2, 1993, 1351-1360.
23 Helically
Shaped Bilirubins: Natural Optical Activity and Chemical Correlation of M
and P Backbone Helicity with Biliverdins; D.Krois and H.Lehner, J.
Chem. Soc. Perkin Trans. 2, 1993, 1837-1840.
24 Investigations on
Intermolecular Forces between Bile Pigments and Polar Model Compounds Mimicking
the Chromophor - Protein Interactions in Biliproteins D. Krois, Tetrahedron, 1993, 49,
8855-8864.
25 Induced
Circulardichroism and Chiral Discrimination of Racemates Revisited: Bilirubins
as Illustrative Examples D. Krois and
H.Lehner, J. Chem. Soc. Perkin Trans. 2, 1995, 489-494.
26 The Induced
Circulardichroism of Helically Shaped Bilatrienes; D. Krois and H.Lehner, Monatsh.
Chem., 1995, 126, 349-354.
27 Synthesis of N-a-[6-Hydrazinonicotinoyl]-Octreotide: A Precursor of a [99mTc] Complex;
D.Krois, Ch. Riedel, P.Angelberger, H.Kalchhauser, I.Virgolini and
H.Lehner, Liebigs Ann. Chem., 1996, 1463-1469.
28 Induced
Circular Dichroism and UV-Vis Absorption Spectroscopy of Cyclodextrin Inclusion
Complexes: Structural Elucidation of Supramolecular Azi-adamantane
(Spiro[adamantane-2,3'-diazirine]) ; D.Krois and U.H.Brinker, J. Am. Chem. Soc., 1998, 120, 11627-11632.
29 Chemospecific
Monofunctionalization of a-Cyclodextrin in the Solid State; D. Krois, M.M.
Bobek, A. Werner, H. Kaehlig and U.H. Brinker, Organic Lett., 2000,
2, 315-318.
30Induced
Circular Dichroism of Cyclodextrin Inclusion Complexes: Examining the Cavity
with a Bilateral Probe; M.M. Bobek, D. Krois, U.H. Brinker, Organic Lett.,
2000, 2, 1999-2002.
31 Effect
of Distal Cavity Mutations on the Formation of Compound I in
Catalase-Peroxidases; G. Regelsberger, C.
Jakopitsch, F. Rüker, D. Krois, G.A. Peschek, and C. Obinger, J. Biol. Chem.
2000, 275, 22854 – 22861.
32Synthesis
of a Sterically Hindered Diazirine with a Satisfactory Yield: Optically Active
2-Azicamphane; D. Krois, U.H. Brinker, Synthesis, 2001,
379-381.
332,6-Diaziadamantane:
A Single-Crystal X-ray Diffraction Study and Theoretical Calculations; M.M.
Bobek, D. Krois, T.H. Brehmer, G. Giester, K.B. Wiberg, U.H. Brinker, J.
Organ. Chem., 2003, 68, 2129-2134.
34Supramolecular
Recognition and Structural Elucidation of Inclusion Complexes of an Achiral
Carbene Precursor in b- and
Permethylated b-Cyclodextrin; J.-L.
Mieusset, D. Krois, M. Pacar, L. Brecker, G. Giester, U.H. Brinker, Organic.
Lett., 2004, 6, 1967-1970.
35Carbene
Rearrangements, 60. Supramolecular Structure-Reactivity Relationships:
Photolysis of a series of Aziadamantane@Cyclodextrin Inclusion Complexes in the
Solid State; D. Krois, L. Brecker, A. Werner, U.H. Brinker, Advanced
Synthesis & Catalysis, 2004, 346 (11), 1367-1374.
36Circular Dichroism of
Cyclodextrin Complexes; D. Krois, U.H. Brinker, p 289-297 in :
“Cyclodextrins and their Complexes” (H. Dodziuk, ed.), 2006, Wiley-VCH, Weinheim “http://www.wiley-vch.de/publish/dt/books/ISBN3-527-31280-3”
37Molecular
Dynamics Simulations of b-Cyclodextrin-Aziadamantane
Complexes in Water; B. Sellner, G. Zifferer, A. Kornherr, D. Krois, U.H.
Brinker, J. Phys. Chem. B, 2008, 112, 710-714
38Study
of the Structure and Photochemical Decomposition of Azidoadamantanes
Entrapped in α- and β-Cyclodextrin; U.H.Brinker, P.Walla, D.Krois, V.B.Arion,
Eur. J. Org. Chem., 2011 (7) 1249-1255.
_____________________
Last
update: Monday, 14-Mar-2011 10:23:27 CET
Daniel.Krois@univie.ac.at