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Biblioteca

MARC Lista (tabellare)
Chirality
Chirality
Pubbl/distr/stampa [New York, N.Y.], : Alan R. Liss, Inc., ©1989-
Disciplina 574
Soggetto topico Chirality
Pharmaceutical chemistry
Isomerism
Molecular Conformation
Chiralité
Chimie pharmaceutique
Isomérie
Soggetto genere / forma Periodical
Fulltext
Internet Resources.
Periodicals.
ISSN 1520-636X
Formato Materiale a stampa
Livello bibliografico Periodico
Lingua di pubblicazione eng
Record Nr. UNISA-996205053503316
[New York, N.Y.], : Alan R. Liss, Inc., ©1989-
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Chirality
Chirality
Pubbl/distr/stampa [New York, N.Y.], : Alan R. Liss, Inc., ©1989-
Disciplina 574
Soggetto topico Chirality
Pharmaceutical chemistry
Isomerism
Molecular Conformation
Chiralité
Chimie pharmaceutique
Isomérie
Soggetto genere / forma Periodical
Fulltext
Internet Resources.
Periodicals.
ISSN 1520-636X
Formato Materiale a stampa
Livello bibliografico Periodico
Lingua di pubblicazione eng
Record Nr. UNINA-9910146489503321
[New York, N.Y.], : Alan R. Liss, Inc., ©1989-
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Cis-trans isomerization in biochemistry [[electronic resource] /] / edited by Christophe Dugave
Cis-trans isomerization in biochemistry [[electronic resource] /] / edited by Christophe Dugave
Pubbl/distr/stampa Weinheim, : Wiley-VCH, c2006
Descrizione fisica 1 online resource (372 p.)
Disciplina 547.12252
547.7804452
Altri autori (Persone) DugaveChristophe
Soggetto topico Biomolecules
Stereochemistry
Isomerism
Biochemistry
Soggetto genere / forma Electronic books.
ISBN 1-280-72283-5
9786610722839
3-527-60933-4
3-527-60949-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto cis-trans Isomerization in Biochemistry; Contents; Preface; List of Contributors; 1 Nomenclature; 2 General Mechanisms of Cis-Trans Isomerization: A Rapid Survey; 2.1 Introduction; 2.2 Homolytic Cis-Trans Isomerization; 2.3 Heterolytic Cis-Trans Isomerization; 3 Mechanisms of Cis-Trans Isomerization around the Carbon-Carbon Double Bonds via the Triplet State; 3.1 A Concept of a Triplet-Excited Region; 3.2 Triplet-State Isomerization in Retinal; 3.2.1 Cis-Trans Isomerization Examined by Electronic Absorption and Raman Spectroscopies and by High-Performance Liquid Chromatography Analysis
3.2.2 Triplet-Excited Region in All-trans-Retinal Shown in Terms of Stretching Force Constants Determined by Raman Spectroscopy and Normal Coordinate Analysis [9]3.2.3 Dynamic Triplet-Excited Region in Retinal As Revealed by Deuteration Effects on the Quantum Yields of Isomerization via the T(1) State (Okumura, Koyama, unpublished results); 3.2.4 Summary and Future Trends; 3.3 Triplet-State Isomerization in β-Carotene and Spheroidene; 3.3.1 Cis-Trans Isomerization in β-Carotene Studied by Electronic Absorption and Raman Spectroscopies and by HPLC Analysis
3.3.2 Cis-Trans Isomerization in Spheroidene Studied by Time-Resolved Absorption Spectroscopy and by HPLC Analysis [17]3.3.3 The Triplet-Excited Region of All-trans-Spheroidene in Solution and the Triplet-State Structure of 15-cis-Spheroidene Bound to the Bacterial Reaction Center Determined by Raman Spectroscopy and Normal Coordinate Analysis [18]; 3.3.3.1 All-trans-Spheroidene in Solution; 3.3.3.2 15-cis-Spheroidene Bound to the Reaction Center
3.3.4 Conformational Changes and the Inversion of Spin-Polarization Identified by Low-Temperature Electron Paramagnetic Resonance Spectroscopy of the Reaction Center-Bound 15-cis-Spheroidene: A Hypothetical Mechanism of Triplet-Energy Dissipation [19]3.3.5 Summary and Future Trends; 3.4 Spectroscopic and Analytical Techniques for Studying Cis-Trans Isomerization in the T(1) State; 3.4.1 Spectroscopic Techniques: Electronic Absorption, Raman, and Magnetic Resonance Spectroscopies; 3.4.2 A Useful Analytical Technique: Singular-Value Decomposition Followed by Global Fitting [23-25]
4 Retinal Binding Proteins4.1 Retinal Chromophore in Rhodopsins; 4.1.1 Specific Color Regulation of the Retinal Chromophore in Protein; 4.1.2 Unique Photochemistry of the Retinal Chromophore in Protein; 4.2 Photoisomerization in Visual Rhodopsins; 4.2.1 Structure and Function of Visual Rhodopsins; 4.2.2 Primary Process in Vision Studied by Ultrafast Spectroscopy; 4.2.3 Structural Changes of the Chromophore and Protein upon Retinal Photoisomerization; 4.3 Photoisomerization in Archaeal Rhodopsins; 4.3.1 Structure and Function of Archaeal Rhodopsin
4.3.2 Primary Process in Bacterial Photosynthesis and Light Sensor Studied by Ultrafast Spectroscopy
Record Nr. UNINA-9910144307703321
Weinheim, : Wiley-VCH, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Cis-trans isomerization in biochemistry [[electronic resource] /] / edited by Christophe Dugave
Cis-trans isomerization in biochemistry [[electronic resource] /] / edited by Christophe Dugave
Pubbl/distr/stampa Weinheim, : Wiley-VCH, c2006
Descrizione fisica 1 online resource (372 p.)
Disciplina 547.12252
547.7804452
Altri autori (Persone) DugaveChristophe
Soggetto topico Biomolecules
Stereochemistry
Isomerism
Biochemistry
ISBN 1-280-72283-5
9786610722839
3-527-60933-4
3-527-60949-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto cis-trans Isomerization in Biochemistry; Contents; Preface; List of Contributors; 1 Nomenclature; 2 General Mechanisms of Cis-Trans Isomerization: A Rapid Survey; 2.1 Introduction; 2.2 Homolytic Cis-Trans Isomerization; 2.3 Heterolytic Cis-Trans Isomerization; 3 Mechanisms of Cis-Trans Isomerization around the Carbon-Carbon Double Bonds via the Triplet State; 3.1 A Concept of a Triplet-Excited Region; 3.2 Triplet-State Isomerization in Retinal; 3.2.1 Cis-Trans Isomerization Examined by Electronic Absorption and Raman Spectroscopies and by High-Performance Liquid Chromatography Analysis
3.2.2 Triplet-Excited Region in All-trans-Retinal Shown in Terms of Stretching Force Constants Determined by Raman Spectroscopy and Normal Coordinate Analysis [9]3.2.3 Dynamic Triplet-Excited Region in Retinal As Revealed by Deuteration Effects on the Quantum Yields of Isomerization via the T(1) State (Okumura, Koyama, unpublished results); 3.2.4 Summary and Future Trends; 3.3 Triplet-State Isomerization in β-Carotene and Spheroidene; 3.3.1 Cis-Trans Isomerization in β-Carotene Studied by Electronic Absorption and Raman Spectroscopies and by HPLC Analysis
3.3.2 Cis-Trans Isomerization in Spheroidene Studied by Time-Resolved Absorption Spectroscopy and by HPLC Analysis [17]3.3.3 The Triplet-Excited Region of All-trans-Spheroidene in Solution and the Triplet-State Structure of 15-cis-Spheroidene Bound to the Bacterial Reaction Center Determined by Raman Spectroscopy and Normal Coordinate Analysis [18]; 3.3.3.1 All-trans-Spheroidene in Solution; 3.3.3.2 15-cis-Spheroidene Bound to the Reaction Center
3.3.4 Conformational Changes and the Inversion of Spin-Polarization Identified by Low-Temperature Electron Paramagnetic Resonance Spectroscopy of the Reaction Center-Bound 15-cis-Spheroidene: A Hypothetical Mechanism of Triplet-Energy Dissipation [19]3.3.5 Summary and Future Trends; 3.4 Spectroscopic and Analytical Techniques for Studying Cis-Trans Isomerization in the T(1) State; 3.4.1 Spectroscopic Techniques: Electronic Absorption, Raman, and Magnetic Resonance Spectroscopies; 3.4.2 A Useful Analytical Technique: Singular-Value Decomposition Followed by Global Fitting [23-25]
4 Retinal Binding Proteins4.1 Retinal Chromophore in Rhodopsins; 4.1.1 Specific Color Regulation of the Retinal Chromophore in Protein; 4.1.2 Unique Photochemistry of the Retinal Chromophore in Protein; 4.2 Photoisomerization in Visual Rhodopsins; 4.2.1 Structure and Function of Visual Rhodopsins; 4.2.2 Primary Process in Vision Studied by Ultrafast Spectroscopy; 4.2.3 Structural Changes of the Chromophore and Protein upon Retinal Photoisomerization; 4.3 Photoisomerization in Archaeal Rhodopsins; 4.3.1 Structure and Function of Archaeal Rhodopsin
4.3.2 Primary Process in Bacterial Photosynthesis and Light Sensor Studied by Ultrafast Spectroscopy
Record Nr. UNINA-9910830730203321
Weinheim, : Wiley-VCH, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Cis-trans isomerization in biochemistry [[electronic resource] /] / edited by Christophe Dugave
Cis-trans isomerization in biochemistry [[electronic resource] /] / edited by Christophe Dugave
Pubbl/distr/stampa Weinheim, : Wiley-VCH, c2006
Descrizione fisica 1 online resource (372 p.)
Disciplina 547.12252
547.7804452
Altri autori (Persone) DugaveChristophe
Soggetto topico Biomolecules
Stereochemistry
Isomerism
Biochemistry
ISBN 1-280-72283-5
9786610722839
3-527-60933-4
3-527-60949-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto cis-trans Isomerization in Biochemistry; Contents; Preface; List of Contributors; 1 Nomenclature; 2 General Mechanisms of Cis-Trans Isomerization: A Rapid Survey; 2.1 Introduction; 2.2 Homolytic Cis-Trans Isomerization; 2.3 Heterolytic Cis-Trans Isomerization; 3 Mechanisms of Cis-Trans Isomerization around the Carbon-Carbon Double Bonds via the Triplet State; 3.1 A Concept of a Triplet-Excited Region; 3.2 Triplet-State Isomerization in Retinal; 3.2.1 Cis-Trans Isomerization Examined by Electronic Absorption and Raman Spectroscopies and by High-Performance Liquid Chromatography Analysis
3.2.2 Triplet-Excited Region in All-trans-Retinal Shown in Terms of Stretching Force Constants Determined by Raman Spectroscopy and Normal Coordinate Analysis [9]3.2.3 Dynamic Triplet-Excited Region in Retinal As Revealed by Deuteration Effects on the Quantum Yields of Isomerization via the T(1) State (Okumura, Koyama, unpublished results); 3.2.4 Summary and Future Trends; 3.3 Triplet-State Isomerization in β-Carotene and Spheroidene; 3.3.1 Cis-Trans Isomerization in β-Carotene Studied by Electronic Absorption and Raman Spectroscopies and by HPLC Analysis
3.3.2 Cis-Trans Isomerization in Spheroidene Studied by Time-Resolved Absorption Spectroscopy and by HPLC Analysis [17]3.3.3 The Triplet-Excited Region of All-trans-Spheroidene in Solution and the Triplet-State Structure of 15-cis-Spheroidene Bound to the Bacterial Reaction Center Determined by Raman Spectroscopy and Normal Coordinate Analysis [18]; 3.3.3.1 All-trans-Spheroidene in Solution; 3.3.3.2 15-cis-Spheroidene Bound to the Reaction Center
3.3.4 Conformational Changes and the Inversion of Spin-Polarization Identified by Low-Temperature Electron Paramagnetic Resonance Spectroscopy of the Reaction Center-Bound 15-cis-Spheroidene: A Hypothetical Mechanism of Triplet-Energy Dissipation [19]3.3.5 Summary and Future Trends; 3.4 Spectroscopic and Analytical Techniques for Studying Cis-Trans Isomerization in the T(1) State; 3.4.1 Spectroscopic Techniques: Electronic Absorption, Raman, and Magnetic Resonance Spectroscopies; 3.4.2 A Useful Analytical Technique: Singular-Value Decomposition Followed by Global Fitting [23-25]
4 Retinal Binding Proteins4.1 Retinal Chromophore in Rhodopsins; 4.1.1 Specific Color Regulation of the Retinal Chromophore in Protein; 4.1.2 Unique Photochemistry of the Retinal Chromophore in Protein; 4.2 Photoisomerization in Visual Rhodopsins; 4.2.1 Structure and Function of Visual Rhodopsins; 4.2.2 Primary Process in Vision Studied by Ultrafast Spectroscopy; 4.2.3 Structural Changes of the Chromophore and Protein upon Retinal Photoisomerization; 4.3 Photoisomerization in Archaeal Rhodopsins; 4.3.1 Structure and Function of Archaeal Rhodopsin
4.3.2 Primary Process in Bacterial Photosynthesis and Light Sensor Studied by Ultrafast Spectroscopy
Record Nr. UNINA-9910841286303321
Weinheim, : Wiley-VCH, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui