Refine
Year of publication
- 2008 (55) (remove)
Document Type
- Article (31)
- Doctoral Thesis (24)
Language
- English (55) (remove)
Has Fulltext
- yes (55)
Is part of the Bibliography
- no (55) (remove)
Keywords
- Strukturaufklärung (2)
- ABC-Transporter (1)
- APOBEC3G (1)
- ATP-Binding Cassette Transporter (ABC) (1)
- Abstandsmessung (1)
- Angeborene Immunität (1)
- Anisotropy (1)
- Asymmetric Catalysis (1)
- Biochemie (1)
- Biochemistry (1)
- Bisamidines (1)
- Brønsted base (1)
- CD34+ Zellen (1)
- CD34+ cells (1)
- CIDNP (1)
- Carotinoide (1)
- Chlorophyll (1)
- Computersimulation (1)
- Crystallography (1)
- DASPMI (1)
- Diels- Alder reaction (1)
- Elektronenspinresonanz (1)
- Energieübertragung (1)
- Enzym (1)
- Enzyme (1)
- Fluorescence Lifetime (1)
- Fluoreszenz (1)
- Fluoreszenz <Motiv> (1)
- Fluoreszenz-Resonanz-Energie-Transfer (1)
- Fluoreszenzspektrometer (1)
- Fmoc solid phase peptide synthesis (1)
- Freie Energie (1)
- HIV (1)
- HIV-Infektion (1)
- Halophile (1)
- Halophile Bakterien (1)
- Hauptkomponentenanalyse (1)
- Interferon <alpha-> (1)
- Kinetik (1)
- Kristallographie (1)
- Kryo-Elektronenkristallographie (1)
- Lactalbumin (1)
- Laserin (1)
- Lichtreaktion (1)
- Lichtsammelkomplexe (1)
- Lipopolysaccharide (1)
- MHC Klasse I (1)
- Membrane Potential (1)
- Membranproteine (1)
- Methanbakterien (1)
- Methanogen (1)
- Mitochondria (1)
- Mitochondrium (1)
- Molekulardynamik (1)
- Monoclonal Antibodies (1)
- Monoklonaler Antikörper (1)
- NMR-Spektroskopie (1)
- Nanometer Abstandsmessung (1)
- Nanometer Distance Measurements (1)
- Nitroxylradikal (1)
- Oligomerisation (1)
- Organocatalysis (1)
- Peptidbeladungskomplex (1)
- Peptide Loading Complex (PLC) (1)
- Photosynthese (1)
- Porphyrine (1)
- Proteinfaltung (1)
- Purpurbakterien (1)
- Reaktionszentrum (1)
- Strukturanalyse (1)
- Tetrastigma voinierianum (1)
- Thermophile (1)
- Thermophile Bakterien (1)
- Torsionswinkel (1)
- Transporter associated with antigen processing (TAP) (1)
- Transporter assoziiert mit Antigen-Prozessierung (1)
- Triplett-Triplett-Energieübertragung (1)
- Verzögerte Fluoreszenz (1)
- Wang resin (1)
- binding sites (1)
- carotenoid radical cation (1)
- catabolism (1)
- charge-transfer (1)
- chlorophyll triplets (1)
- cryo-eletron crystallography (1)
- dPCA (1)
- dihedral angles (1)
- embryologic development (1)
- f-MLF (1)
- formylation (1)
- free energy landscape (1)
- gene expression regulation (1)
- guanosine (1)
- helix (snails) (1)
- irrigation (1)
- leaf patch clamp pressure (1)
- liana (1)
- magic-angle spinning (1)
- mammals (1)
- membrane protein (1)
- messenger (1)
- mice (1)
- multiple sclerosis (1)
- non-photochemical quenching (1)
- nucleotides (1)
- quality control (1)
- relapsing-remitting (1)
- residual dipolar couplings (1)
- ribonucleases (1)
- rna (1)
- rna recognition motif (1)
- solvents (1)
- structure determination (1)
- time-resolved spectroscopy (1)
- titration method (1)
- transfer function (1)
- tryptophan (1)
- turgor pressure (1)
- turgor pressure probe (1)
- unfolded proteins (1)
Institute
- Biochemie und Chemie (55) (remove)
A high-precision pressure probe is described which allows non-invasive online-monitoring of the water relations of intact leaves. Real-time recording of the leaf water status occurred by data transfer to an Internet server. The leaf patch clamp pressure probe measures the attenuated pressure, Pp, of a leaf patch in response to a constant clamp pressure, Pclamp. Pp is sensed by a miniaturized silicone pressure sensor integrated into the device. The magnitude of Pp is dictated by the transfer function of the leaf, Tf, which is a function of leaf patch volume and ultimately of cell turgor pressure, Pc, as shown theoretically. The power function Tf=f(Pc) theoretically derived was experimentally confirmed by concomitant Pp and Pc measurements on intact leaflets of the liana Tetrastigma voinierianum under greenhouse conditions. Simultaneous Pp recordings on leaflets up to 10 m height above ground demonstrated that changes in Tf induced by Pc changes due to changes of microclimate and/or of the irrigation regime were sensitively reflected in corresponding changes of Pp. Analysis of the data show that transpirational water loss during the morning hours was associated with a transient rise in turgor pressure gradients within the leaflets. Subsequent recovery of turgescence during the afternoon was much faster than the preceding transpiration-induced water loss if the plants were well irrigated. Our data show the enormous potential of the leaf patch clamp pressure probe for leaf water studies including unravelling of the hydraulic communication between neighbouring leaves and over long distances within tall plants (trees).
In the title compound, C13H10N2O2, a Schiff base derivative, the dihedral angle between the two aromatic rings is 31.58 (3)°. The C=N double bond is essentially coplanar with the nitrophenyl ring. The torsion angle of the imine double bond is 175.97 (13)°, indicating that the C=N double bond is in a trans configuration. The crystal structure is stabilized by C-H...O contacts and [pi]-[pi] interactions (centroid-centroid distances of 3.807 and 3.808 Å). Key indicators: single-crystal X-ray study; T = 173 K; mean σ(C–C) = 0.002 Å; R factor = 0.034; wR factor = 0.093; data-to-parameter ratio = 10.3.
Three-dimensional structure of the glycine-betaine transporter BetP by cryo electron crystallography
(2008)
The soil bacterium Corynebacterium glutamicum has five secondary transporters for compatible solutes allowing it to cope with osmotic stress. The most abundant of them, the transporter BetP, performs a high affinity uptake of glycine-betain when encountering hyperosmotic stress. BetP belongs to the betaine/carnitine/choline/transporter (BCCT) family, and is predicted to have twelve transmembrane helices with both termini facing the cytoplasm. The goal of this thesis is to facilitate understanding of BetP function by determining a three dimensional (3D) model of its structure. Two-dimensional (2D) crystallization of wild-type (WT) BetP has been successfully performed by reconstitution into a mixture of E. coli lipids and bovine cardiolipin, which resulted in vesicular crystals diffracting to 7.5 Å resolution (Ziegler, Morbach et al. 2004). Diffraction patterns of these crystals however showed unfocused spots, generally due to high mosaicity. Better results were obtained by using the constitutively active mutant BetPdeltaC45 in which the first 45 amino acids of the positively charged C-terminus were removed. BetPdeltaC45 crystals obtained under the same conditions for BetP WT were concluded to be pseudo crystals, based on the inconsistence of symmetry. These crystals had BetPdeltaC45 molecules randomly up/downwards inserted into membrane crystals, and cannot be used for structure determination, even though they diffracted up to 7 Å. The problem of pseudo crystal formation could be solved by changing the lipids used for 2D crystallization to a native lipid extract from C. glutamicum cells. This change of lipids improved the crystals to well-ordered packing with exclusive p121_b symmetry. To understand the role of lipids in crystal packing and order, lipids were extracted at different stages during crystallization, and identified by using multiple precursor ion scanning mass spectrometry. The results show that phosphatidyl glycerol (PG) 16:0-18:1 is the most dominant lipid species in C. glutamicum membranes, and that BetP has a preference for the fatty acid moieties 16:0-18:1. Crystallization with synthetic PG 16:0-18:1 proved that an excess of this lipid prevents pseudo crystal formation, but these crystals did not reach the quality as previously achieved by using the C. glutamicum lipids. Apart from the effect of lipids in crystallinity, the concentration and type of salts influenced crystal growth and morphology. High salt conditions (>400 mM LiCl or KCl) yielded tubular crystals, whereas low salt conditions (<300 mM LiCl, NaCl or KCl) led to formation of up to 10 µm large sheet-like crystals. The intermediate concentration gave a mixture of sheet-like and tubular crystals. In terms of resolution, sheets diffracted better than tubes. The sheet-like crystals used for 3D map reconstruction were obtained from a dialysis buffer containing 200 mM NaCl combined with using C. glutamicum lipids. Electron microscopic images were taken from frozen-hydrated crystals using a helium-cooled JEOL 300 SFF microscope or a liquid nitrogen-cooled FEI Tecnai G2 microscope at 300 kV, which allowed optimal data collection and minimized radiation damage to the sample. More than 1000 images of tilt angles up to 50° were taken and evaluated using optical diffraction of a laser beam. The best 200 images were processed with the MRC image processing software package, and 79 images from different tilt angles were merged to the final data set used for calculation of a 3D map at a planar resolution of 8 Å. The structure shows BetPdeltaC45 as a trimer with each monomer consisting of 12 transmembrane alpha-helices. Protein termini and loop regions could not be determined due to the limited resolution of the map. Six of the twelve helices line a central cavity forming a potential substrate-binding chamber. Each monomer shows a central cavity in different sizes and shapes. Thus, the constitutively active BetPdeltaC45 thus forms an unusual asymmetric homotrimer. BetP most likely reflects three different conformational states of secondary transporters: the cytoplasmically open (C), the occluded (O), and the periplasmically open (P) states. The C and O states are similar to BetP WT projection structure, while the P state is discrepant and highly flexible due to the shape and size of the central cavity as well as the lowest intensity of the density. The observation of the P state corresponds well to the constitutively active property of BetPdeltaC45. For the high resolution structure of the C and O states are available, this work presents the first structural information of the P state of a secondary transporter.
5-LO is the key enzyme in the biosynthesis of proinflammatory leukotrienes. It catalyses the conversion of arachidonic acid to the hydroperoxy intermediate 5(S)-hydroperoxy-6- trans-8,11,14-cis-eicosatetraenoic acid (5-HpETE). In a second step 5-LO catalyses a dehydration reaction forming the unstable epoxide intermediate 5(S)-trans-5,6-oxido-7,9- trans-11,14-cis-eicosatetraenoic acid (leukotriene A4 , LTA4). The 5-LO gene is subjected to versatile regulation mechanisms. Apart from regulation by DNA-methylation and histone acetylation / deacetylation 5-LO gene expression can be regulated by the differentiation inducers calcitriol (1,25-dihydroxyvitamin D3) and transforming growth factor beta (TGFβ) 5-LO gene expression. In the myeloid cell lines Mono Mac 6 (MM6) and HL-60, differentiation with both agents caused a prominent upregulation of 5-LO mRNA level, of 5-LO protein expression and of 5-LO activity. Treatment with calcitriol alone already has an impact on 5-LO gene expression which is additionally potentiated by TGFβ treatment. Previous nuclear run-off analysis and reporter gene analysis could not associate the 5-LO promoter with the induction of 5-LO mRNA expression mediated by calcitriol and TGFβ. Inclusion of the 5-LO coding sequence (cds) and inclusion of the 5-LO cds plus the last four introns of the gene (J to M) in the 5-LO promoter construct pN10 led to an enhanced reporter gene activity. The inductions were dependent on vitamin D receptor (VDR) and retinoid x receptor (RXR) cotransfection. Therefore the work was concentrated on identifying elements outside the 5-LO promoter region which contribute to the calcitriol / TGFβ effect on 5-LO mRNA expression. Insertion of the LTA4 hydrolase coding sequence – a coding sequence of similar size - instead of the 5-LO cds led to a loss of the calcitriol / TGFβ effect (pN10LTA4Hcds 1-fold induction). Therewith, it was proven that the presence of the 5-LO cds is crucial for the upregulating effect of calcitriol / TGFβ on 5-LO mRNA level. Cloning of the SV40 promoter instead of pN10 upstream of the 5-LO cds still showed inducibility by treatment with the inducers which argues for a promoter unspecific effect. Insertion of the 5-LO cds in a promoterless basic vector (pGL3cds) displayed same inductions by calcitriol / TGFβ treatment as the 5-LO promoter 5-LO cds construct (pN10cds). Thus, the effect of the inducers is not dependent on the 5-LO promoter under the in vitro conditions of the reporter gene assay. Hence, further cloning was done with promoterless constructs. Through 5-LO cds deletion constructs a positive regulating region in exon 10 to 14 was discovered. To adapt the natural gene context the last four introns (J-M) of the 5-LO gene were inserted in a promoterless construct containing exon 10 to 14 (pGL3cdsΔABInJM). 5end deletion constructs of it revealed putative vitamin D responsive elements (VDREs) in exon 12 and intron M. Mutation of the putative VDREs led to a reduced calcitriol effect –more prominent when the putative VDRE in intron M was mutated (reduction of 40%). Moreover another putative VDRE in exon 10 with an adjacent SMAD binding element (SBE) was detected. SMAD proteins are effector proteins of TGFβ signalling. Gelshift experiments demonstrated in vitro binding of the VDR-RXR heterodimer to those three putative VDREs. By chromatin immunoprecipitation (ChIP) assay in vivo binding of VDR and RXR was shown to the VDRE in the region of exon 10, exon 12 and intron M. 8h and 24h incubation with calcitriol / TGFβ resulted in enhanced expression of VDR in each of the examined regions. The VDR is able to bind to the VDRE without its ligand, whereas this goes along with corepressor recruitment and thus the VDR has a repressive effect on transcription. Histone H4 acetylation was increased when MM6 cells were treated for 8h or 24h with calcitriol or the combination of calcitriol / TGFβ. This finding implies that at that point of time corepressors associated with the VDR are replaced by coactivators. It seems convincing that 5-LO transcription is mainly promoted by calcitriol alone which leads to a more accessible chromatin structure. Previous data indicated that calcitriol and TGFβ upregulate 5-LO RNA maturation and 5- LO transcript elongation. Thus several elongation markers were investigated by ChIP analysis: Histone H3 lysine 36 (H3K36) trimethylation and H4K20 monomethylation were detected in the analysed regions in exon 10, exon 12 and intron M. In region exon 10 the H3K36 trimethylation status was enhanced after 24h calcitriol or calcitriol / TGFβ treatment. An increased H4K20 monomethylation status in all regions was observed when MM6 cells were treated for 24h with calcitriol / TGFβ. 24h treatment with both agents also enhanced the recruitment of the elongation form of RNA polymerase II, which is phosphorylated at serine 2 of the carboxyterminal domain, to the investigated regions. These findings prove the positive regulating role for calcitriol and TGFβ on 5-LO transcript elongation. A putative mechanism of the effect of calcitriol and TGFβ on 5-LO RNA maturation might be the elevated phosphorylation of serine 2 of the RNA Polymerase II which is known to be followed by recruiting polyadenylating factors.
Bromotriphenylsilane
(2008)
The title compound, C18H15BrSi, crystallizes with two almost identical molecules (r.m.s. deviation for all non-H atoms = 0.074 Å) in the asymmetric unit. It is isomorphous with chlorotriphenylsilane. Key indicators: single-crystal X-ray study; T = 173 K; mean σ(C–C) = 0.010 Å; R factor = 0.095; wR factor = 0.288; data-to-parameter ratio = 17.0.
Proteorhodopsin (PR) originally isolated from uncultivated γ-Proteobacterium as a result of biodiversity screens, is highly abundant ocean wide. PR, a Type I retinal binding protein with 26% sequence identity, is a bacterial homologue of Bacteriorhodopsin (BR). The members within this family share about 78% of sequence identity and display a 40 nm difference in the absorption spectra. This property of the PR family members provides an excellent model system for understanding the mechanism of spectral tuning. Functionally PR is a photoactive proton pump and is suggested to exhibit a pH dependent vectorality of proton transfer. This raises questions about its potential role as pH dependent regulator. The abundance of PR in huge numbers within the cell, its widespread distribution ocean wide at different depths hints towards the involvement of PR in utilization of solar energy, energy metabolism and carbon recycling in the Sea. Contrary to BR, which is known to be a natural 2D crystal, no such information is available for PR til date. Neither its functional mechanism nor its 3D structure has been resolved so far. This PhD project is an attempt to gain a deeper insight so as to understand structural and functional characterization of PR. The approach combines the potentials of 2D crystallography, Atomic Force Microscopy and Solid State NMR techniques for characterization of this protein. Wide range of crystalline conditions was obtained as a result of 2D crystallization screens. This hints towards dominant protein protein interactions. Considering the high number of PR molecules reported per cell, it is likely that driven by such interactions, the protein has a native dense packing in the environment. The projection map represented low resolution of these crystals but suggested a donut shape oligomeric arrangement of protein in a hexagonal lattice with unit cell size of 87Å*87Å. Preliminary FTIR measurements indicated that the crystalline environment does not obstruct the photocycle of PR and K as well as M intermediate states could be identified. Single molecule force spectroscopy and atomic force microscopy on these 2D crystals was used to probe further information about the oligomeric state and nature of unfolding. The data revealed that protein predominantly exists as hexamers in crystalline as well as densely reconstituted regions but a small percentage of pentamers is also observed. The unfolding mechanism was similar to the other relatively well-characterized members of rhodopsin family. A good correlation of the atomic force microscopy and the electron microscopy data was achieved. Solid State NMR of the isotopically labeled 2D crystalline preparations using uniformly and selectively labeling schemes, allowed to obtain high quality SSNMR spectra with typical 15N line width in the range of 0.6-1.2 ppm. The measured 15N chemical shift value of the Schiff base in the 2D crystalline form was observed to be similar to the Schiff base chemical shift values for the functionally active reconstituted samples. This provides an indirect evidence for the active functionality of the protein and hence the folding. The first 15N assignment has been achieved for the Tryptophan with the help of Rotational Echo Double Resonance experiments. The 2D Cross Polarization Lee Goldberg measurements reflect the dynamic state of the protein inspite of restricted mobility in the crystalline state. The behavior of lipids as measured by 31P from the lipid head group showed that the lipids are not tightly bound to the protein but behave more like the lipid bilayer. The 13C-13C homonulear correlation experiments with optimized mixing time based on build up curve analysis, suggest that it is possible to observe individual resonances as seen in case of glutamic acid. The signal to noise was good enough to record a decent spectrum in a feasible period. The selective unlabeling is an efficient method for reduction in the spectral overlap. However, more efficient labeling schemes are required for further characterization. The present spectral resolution is good for individual amino acid investigation but for uniformly labeled samples, further improvement is required.
The focus of this thesis has been to further advance and develop existing NMR techniques for the study of protein folding. In order to do so, experimental as well as theoretical approaches have been pursued. From the theoretical side, a successful attempt to the development of a general theory for the treatment of residual dipolar couplings in the case of unfolded proteins has been undertaken. Information contained in residual dipolar couplings is especially valuable due to its long-range nature. The dynamic character of unfolded states of proteins, which may be composed of distinct subsets of conformations, renders reliable interpretation of data a non-trivial task. Statistical-coil-based approaches have been shown to be powerful in data interpretation. A consistent theory based on fundamental polymer physics, however, had not been presented so far. The herein presented model addresses this problem building on the original work by Annila and co-workers. In this work, several shortcomings have been identified. These shortcomings have been corrected here leading to a general approach for the treatment of residual dipolar couplings of unfolded proteins. More specifically, it is shown that, in the case of fully unfolded proteins aligned by a steric mechanism, basic dependencies of dipolar couplings such as on chain length and location with in the chain can be analysed in simple analytical terms. The main predictions of the model are compared to experimental data showing reasonable agreement. The presented mathematical framework is principally suited for various improvements which could include the treatment of long-range interactions and of the actual geometry of the given aligment medium. From the experimental side, bovine alpha-lactalbumin has been chosen as a model system for the development of improved time-resolved 1D NMR methods aiming at the observation of conformational transitions by kinetic means. The presented results show that high-quality data can now be obtained at protein concentrations as low as 100uM. Rate constants characterising distinct conformational transitions of up to 8/s have been measured. These are the fastest rate constants which have been reported so far for protein folding events. The NMR data supplemented by complementary biophysical data furthermore demonstrate that the folding of bovine alpha-lactalbumin is more complex than has been anticipated. All data are consistent with a triangular folding mechanism involving parallel pathways of folding for formation of the native state of the protein. Interestingly, such a folding mechanism has also been found for the highly structurally homologous protein lysoyzme from hen egg white. Evidence is presented that the guiding role of long-range interactions in the unfolded state of lysoyzme for mediating intersubdomain interactions during folding is replaced in the case of bovine alpha-lactalbumin by the Ca2+ binding site.
Geometric parameters of the title compound, C24H20N2O2S, are in the usual ranges. The central heterocycle makes dihedral angles of 41.29 (4) and 72.94 (5)° with the phenyl ring and the methoxyphenyl ring, respectively. Key indicators: single-crystal X-ray study; T = 173 K; mean σ(C–C) = 0.002 Å; R factor = 0.038; wR factor = 0.103; data-to-parameter ratio = 14.1.
In the title compound, C14H12N2O3, the dihedral angle between the two aromatic rings is 41.48 (5)°. The nitro group is twisted by 24.7 (3)° out of the plane of the aromatic ring to which it is attached. The molecules are connected by N-H...O hydrogen bonds into chains running along the alpha axis. Key indicators: single-crystal X-ray study; T = 273 K; mean σ(C–C) = 0.003 Å; R factor = 0.031; wR factor = 0.078; data-to-parameter ratio = 7.7.
Geometric parameters of the title compound, C14H12N2O4, are in the usual ranges. The dihedral angle between the two aromatic rings is 28.9 (1)°. The nitro group is twisted by 40.2 (1)° out of the plane of the aromatic ring to which it is attached. The crystal structure is stabilized by an N-H...O hydrogen bond. Key indicators: single-crystal X-ray study; T = 173 K; mean σ(C–C) = 0.004 Å; R factor = 0.045; wR factor = 0.111; data-to-parameter ratio = 7.3.