Molecular conformations of .GAMMA.-aminobutyric acid and .GAMMA.-amino-.BETA.-hydroxybutyric acid in aqueous solution.
スポンサーリンク
概要
- 論文の詳細を見る
Proton magnetic resonance and Raman spectra indicate that the backbone of γ-aminobutyric acid is fairly flexible and rotational isomers are almost equally populated in aqueous solution. The population is not much affected by change of pH. On the other hand, in γ-amino-β-Hydroxybutyric acid the <I>trans</I>-<I>trans</I> and <I>gauche</I>-<I>trans</I> conformations of the backbone are equally populated in neutral solution, <I>trans</I>-<I>trans</I> conformation being predominant in non-zwitterionic forms. The conformation in solution is discussed in relation to the structure of these molecules in crystal.
- 公益社団法人 日本化学会の論文
著者
-
KYOGOKU Yoshimasa
Institute for Protein Research, Osaka University
-
Kyogoku Yoshimasa
Institute For Protein Research Osaka University
-
Akutsu Hideo
Institute For Protein Research
-
TOMITA Ken-ichi
Faculty of Pharmaceutical Sciences of Osaka University
-
Ozaki Yukihiro
Institute for Protein Research, Osaka University
-
Tanaka Kaori
Faculty of Pharmaceutical Sciences, Osaka University
関連論文
- 3P-093 多次元固体NMR法による膜蛋白質pHtrIIの主鎖構造解析(膜蛋白質,第46回日本生物物理学会年会)
- Nuclear Magnetic Resonance Study of Complexes between CRP and Its 22-and 28-Base-Pair Operators^1
- 1P265 多次元固体NMR法による膜蛋白質pHtrIIの主鎖構造解析(光生物-視覚・光受容,第48回日本生物物理学会年会)
- 2P050 Structural Analysis of G-Protein-Bound Mastoparan-X by Solid-State NMR(29. Protein structure and dynamics (II),Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)
- Structural Study of the N-Terminal Domain of the Alpha Subunit of Escherichia coli RNA Polymerase Solubilized with Non-Denaturing Detergents
- Resonance Assignments, Solution Structure, and Backbone Dynamics of the DNA- and RPA-Binding Domain of Human Repair Factor XPA
- Cloning of the RNA polymerase α Subunit Gene from Thermus thermophilus HB8 and Characterization of the Protein
- FUNCTIONAL ANALYSIS OF THE HISTIDINE AND CYSTEINE RESIDUES OF THE TRANSCRIPTIONAL FACTOR, SmtB IN Synechococcus sp. PCC 7942
- MOLECULAR MECHANISM SENSING THE HEAVY-METAL ION WITH THE TRANSCRIPTIONAL FACTOR, SMTB, IN Synechococcus sp. PCC 7942
- Solution Structure of ACTH(1-24) by Means of Multinuclear and Multidimensional NMR Spectroscopy
- Characterization and Comparison of Synthetic Immobile and Mobile Holliday Junctions
- Detection of the Protein-Protein Interaction between Cyclic AMP Receptor Protein and RNA Polymerase, by ^C-Carbonyl NMR^1
- ^N-ENRICHED POLYAMINES : SYNTHESES AND APPLICATION FOR STUDIES ON POLYAMINE METABOLISM
- Intracellular pH Regulation in an Acidophilic Unicellular Alga, Cyanidium caldarium : ^P-NMR Determination of Intracellular pH
- 2P156 Solid-State NMR Measurement of H^+-ATP Synthase Subunit c-ring Reconstituted into DMPC bilayers(34. Membrane protein,Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)
- Synthesis of Transmembrane Protein, F_1F_0 ATP Synthase Subunit c, by Thioester Method
- 3P-270 BMRB日本サイトにおける低分子量生体高分子のNMRデータ登録(SMSDep)受け付け開始(その他,第47回日本生物物理学会年会)
- Functions and ATP-Binding Responses of the Twelve Histidine Residues in the TF_1-ATPase β Subunit^1
- 1P-086 多次元固体NMR法による膜蛋白質pHtrIIの主鎖構造解析(膜蛋白質,第47回日本生物物理学会年会)
- Process of Maturation of Tetraheme Cytochrome c_3 in a Shewanella Expression System
- 2P038 Structural determination of ^C, ^N-uniformly labeled ATP bound to H^+-ATP synthase β subunit by solid-state NMR(29. Protein structure and dynamics (II),Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)
- Photoinduced Changes of Surface and Adsorbed Water in TiO_2 Photocatalytic Systems as Studied by Solid State ^1H-NMR Spectroscopy
- X-Ray Diffraction Studies of Polyhedral Inclusion Bodies of Nuclear and Cyto-Plasmic Polyhedrosis Viruses
- Correlation between the g Tensors and the Nonplanarity of Porphyrin Rings in Desulfovibrio vulgaris Miyazaki F Cytochrome c_3, Studied by Single Crystal EPR
- S2g2-3 Efforts for Capacity Building in Biophysics with Asian Countries(S2-g2: "Education and Capacity Building in Biophysics in Asian Countries",Symposia,Abstract,Meeting Program of EABS & BSJ 2006)
- Role of π-Electron Systems in Stabilization of the Oxidized Tetraheme Architecture in Cytochrome c_3
- Structural studies of the interaction between indole derivatives and biologically important aromatic compounds. IV. The crystal and molecular structure of tryptamine:adenin-9-ylacetic acid(1:1)hemihydrate complex.
- The crystal and molecular structure of N-(thioacetyl)tryptamine. A radioprotective indole compound.
- Crystal and Molecular Structure of ω-Amino Acids, ω-Amino Sulfonic Acids and Their Derivatives. II. The Crystal and Molecular Structure of α-Form of 3-Aminopropane Sulfonic Acid, Homotaurine
- The interaction between .ALPHA.-helical poly-L-lysine and thyroxine as measured by circular dichroism.
- Crystal and Molecular Structure of ω-Amino Acids, ω-Aminosulfonic Acids and Their Derivatives. V. Crystal and Molecular Structure of γ-Guanidino Propane Sulfonic Acid
- Crystal and molecular structure of mitomycin C, an anticancer antibiotic.
- The crystal and molecular structure of zinc complex of 2-chlorobenzoic acid. I. The crystal and molecular structure of bis(2-chlorobenzoato)zinc(II).
- Crystal and Molecular Structure of ω-Amino Acids, ω-Amino-Sulfonic Acids and Their Derivatives. VII. The Crystal and Molecular Structure of DL-Carnitine Hydrochloride
- Crystal and Molecular Structure of ω-Amino Acids, ω-Aminosulfonic Acids and Their Derivatives. VI. The Crystal and Molecular Structure of DL-γ-Amino-β-hydroxybiityric Acid (GABOB), A Nervous Inhibitory Chemical Transmitter
- The crystal and molecular structure of zinc complex of 2-chlorobenzoic acid. II. The crystal and molecular structure of .MU.3-hydroxo-tri-.MU.-(2-chlorobenzoato)dizinc(II) dihydrate.
- Structural Studies of Tryptophan Metabolites by X-ray Diffraction Method. I. The Crystal and Molecular Structure of 5-Hydroxy-DL-Tryptophan
- Crystal and Molecular Structure of ω-Amino Acids, ω-Aminosulfonic Acids and Their Derivatives. I. The Crystal and Molecular Structure of γ-Guanidinobutyric Acid Hydrochloride and Hydrobromide
- Crystal and Molecular Structure of ω-Amino Acids, ω-Amino Sulfonic Acids and Their Derivatives. IV. The Crystal and Molecular Structure of γ-Aminobutyric Acid (GABA), a Nervous Inhibitory Transmitter
- The Crystal and Molecular Structure of Tyramine Hydrochloride
- Structural Studies of Tryptophan Metabolites by X-ray Diffraction Method. II. The Crystal and Molecular Structure of Tryptamine Hydrochloride
- Structural studies of the interaction between indole derivatives and biologically important aromatic compounds. II. The crystal and molecular structure of the tryptamine-phenylacetic acid (1:1) complex.
- Molecular conformations of .GAMMA.-aminobutyric acid and .GAMMA.-amino-.BETA.-hydroxybutyric acid in aqueous solution.
- Structural Studies of Tryptophan Metabolites by X-ray Diffraction Method. III. The Crystal and Molecular Structure of 5-Methoxyindole-3-acetic Acid
- Nitrogen-15 NMR chemical shifts in metal-ammine complexes. II. Cobalt(III) ammine and amine complexes.
- Structural studies of the interaction between indole derivatives and biologically important aromatic compounds. I. The crystal and molecular structure of the indole-3-acetic acid-nicotinamide (1:1) complex.
- Synthetic studies on quinoxaline antibiotics. III. Synthesis of nortriostin A, a triostin A analog lacking N-methyl groups on the cystine and valine residues.
- 13C-NMR study of aerosol OT in chloroform.
- Correlation NMR spectroscopy with a water signal subtracting system.
- Crystal and molecular structure of .OMEGA.-amino acids, .OMEGA.-aminosulfonic acids and their derivatives. IX. Crystal and molecular structure of 3-amino-2-hydroxy-1-propanesulfonic acid.
- Crystal and Molecular Structure of ω-Amino Acids, ω-Aminosulfonic Acids and Their Derivatives. III. The Crystal and Molecular Structure of γ-Guanidino-β-hydroxypropane Sulfonic Acid
- The Crystal Structure of 1-Ethyl-5-bromouracil. I. The Crystal Structure of the Form I Crystal of 1-Ethyl-5-bromouracil
- Detection of the Protein-Protein Interaction between Cyclic AMP Receptor Protein and RNA Polymerase, by 13C-Carbonyl NMR.