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125 results on '"Saenger, Wolfram"'

1. Quasielastic small-angle neutron scattering from heavy water solutions of cyclodextrins.

Author

Kusmin, André, Lechner, Ruep E., and Saenger, Wolfram

Subjects
QUASIELASTIC neutron scattering, CYCLODEXTRINS, DIFFUSION, SOLVENTS, METHYLATION, MOLECULAR models
Abstract

We present a model for quasielastic neutron scattering (QENS) by an aqueous solution of compact and inflexible molecules. This model accounts for time-dependent spatial pair correlations between the atoms of the same as well as of distinct molecules and includes all coherent and incoherent neutron scattering contributions. The extension of the static theory of the excluded volume effect [A. K. Soper, J. Phys.: Condens. Matter 9, 2399 (1997)] to the time-dependent (dynamic) case allows us to obtain simplified model expressions for QENS spectra in the low Q region in the uniform fluid approximation. The resulting expressions describe the quasielastic small-angle neutron scattering (QESANS) spectra of D2O solutions of native and methylated cyclodextrins well, yielding in particular translational and rotational diffusion coefficients of these compounds in aqueous solution. Finally, we discuss the full potential of the QESANS analysis (that is, beyond the uniform fluid approximation), in particular, the information on solute-solvent interactions (e.g., hydration shell properties) that such an analysis can provide, in principle. [ABSTRACT FROM AUTHOR]

Published
2011
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6. Linking structural biology with genome research: Beamlines for the Berlin “Protein Structure Factory” initiative.

Author

Illing, Gerd, Saenger, Wolfram, and Heinemann, Udo

Subjects
BIOLOGY, GENOMES, X-ray diffraction
Abstract

The Protein Structure Factory will be established to characterize proteins encoded by human genes or cDNAs, which will be selected by criteria of potential structural novelty or medical or biotechnological usefulness. It represents an integrative approach to structure analysis combining bioinformatics techniques, automated gene expression and purification of gene products, generation of a biophysical fingerprint of the proteins and the determination of their three-dimensional structures either by NMR spectroscopy or by X-ray diffraction. The use of synchrotron radiation will be crucial to the Protein Structure Factory: high brilliance and tunable wavelengths are prerequisites for fast data collection, the use of small crystals and multiwavelength anomalous diffraction (MAD) phasing. With the opening of BESSY II, direct access to a third-generation XUV storage ring source with excellent conditions is available nearby. An insertion device with two MAD beamlines and one constant energy station will be set up until 2001. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published
2000

7. E. coli-Based Cell-Free Expression, Purification and Characterization of the Membrane-Bound Ligand-Binding CHASE-TM Domain of the Cytokinin Receptor CRE1/AHK4 of Arabidopsis thaliana.

Author

Wulfetange, Klaas, Saenger, Wolfram, Schmülling, Thomas, and Heyl, Alexander

Abstract

The plant hormone cytokinin is implicated in a large number of developmental and physiological processes. In the model plant Arabidopsis thaliana cytokinin is perceived by a class of membrane-bound receptor histidine kinases with three members, namely AHK2, AHK3, and CRE1/AHK4. These receptors possess an N-terminally located putative extracellular cyclases/histidine kinases associated sensor extracellular (CHASE) domain, which is responsible for hormone recognition. This hydrophilic domain and the two flanking transmembrane regions (CHASE-TM) were expressed using a cell-free protein expression system based on a bacterial ribosomal extract. To obtain soluble CHASE-TM protein, different detergents were directly added to the cell-free reaction and their effect on the yield of soluble protein was studied. After optimising the experimental set-up and employing Brij 58 as a detergent more than 3 mg/ml soluble protein of the CHASE-TM domain were obtained. Affinity purification via a C-terminally fused His-tag resulted in greater than 90% purity. The identity of the purified domain was confirmed by matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) analysis. Circular dichroism spectroscopy was used and a predominantly α-helical folding pattern was shown, which is in good accordance with secondary structure prediction. A newly developed cytokinin binding assay confirmed the functionality of the thus expressed and purified CHASE-TM domain. The work presented clearly demonstrates the feasibility of producing high amounts of a plant membrane protein using a cell-free protein expression system. This opens the possibility of further biochemical and pharmacological analysis, as well as structural studies on this type of receptor protein. [ABSTRACT FROM AUTHOR]

Published
2011
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8. Loss of recognition by cross-reactive T cells and its relation to a C-terminus-induced conformational reorientation of an HLA-B*2705-bound peptide.

Author

Loll, Bernhard, Rückert, Christine, Hee, Chee Seng, Saenger, Wolfram, Uchanska-Ziegler, Barbara, and Ziegler, Andreas

Abstract

The human major histocompatibility complex class I antigen HLA-B*2705 binds several sequence-related peptides (pVIPR, RRKWRRWHL; pLPM2, RRRWRRLTV; pGR, RRRWHRWRL). Cross-reactivity of cytotoxic T cells (CTL) against these HLA-B*2705:peptide complexes seemed to depend on a particular peptide conformation that is facilitated by the engagement of a crucial residue within the binding groove (Asp116), associated with a noncanonical bulging-in of the middle portion of the bound peptide. We were interested whether a conformational reorientation of the ligand might contribute to the lack of cross-reactivity of these CTL with a peptide derived from voltage-dependent calcium channel α1 subunit (pCAC, SRRWRRWNR), in which the C-terminal peptide residue pArg9 could engage Asp116. Analyses of the HLA-B*2705:pCAC complex by X-ray crystallography at 1.94 Å resolution demonstrated that the peptide had indeed undergone a drastic reorientation, leading it to adopt a canonical binding mode accompanied by the loss of molecular mimicry between pCAC and sequence-related peptides such as pVIPR, pLMP2, and pGR. This was clearly a consequence of interactions of pArg9 with Asp116 and other F-pocket residues. Furthermore, we observed an unprecedented reorientation of several additional residues of the HLA-B*2705 heavy chain near the N-terminal region of the peptide, including also the presence of double conformations of two glutamate residues, Glu63 and Glu163, on opposing sides of the peptide binding groove. Together with the Arg-Ser exchange at peptide position 1, there are thus multiple structural reasons that may explain the observed failure of pVIPR-directed, HLA-B*2705-restricted CTL to cross-react with HLA-B*2705:pCAC complexes. PDB Code(s): [ABSTRACT FROM AUTHOR]

Published
2011
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9. Regulation and structure of YahD, a copper-inducible α/β serine hydrolase of Lactococcus lactis IL1403.

Author

Martinez, Jacobo, Mancini, Stefano, Tauberger, Eva, Weise, Christoph, Saenger, Wolfram, and Solioz, Marc

Subjects
SERINE, HYDROLASES, LACTOCOCCUS lactis, LACTIC acid bacteria, FERMENTATION, COPPER enzymes, HOMEOSTASIS, X-ray crystallography
Abstract

Lactococcus lactis IL1403 is a lactic acid bacterium that is used widely for food fermentation. Copper homeostasis in this organism chiefly involves copper secretion by the CopA copper ATPase. This enzyme is under the control of the CopR transcriptional regulator. CopR not only controls its own expression and that of CopA, but also that of an additional three operons and two monocistronic genes. One of the genes under the control of CopR, yahD, encodes an α/β-hydrolase. YahD expression was induced by copper and cadmium, but not by other metals or oxidative or nitrosative stress. The three-dimensional structure of YahD was determined by X-ray crystallography to a resolution of 1.88 Å. The protein was found to adopt an α/β-hydrolase fold with the characteristic Ser-His-Asp catalytic triad. Functional testing of YahD for a wide range of substrates for esterases, lipases, epoxide hydrolases, phospholipases, amidases and proteases was, however, unsuccessful. A copper-inducible serine hydrolase has not been described previously and YahD appears to be a new functional member of this enzyme family. [ABSTRACT FROM AUTHOR]

Published
2011
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10. Molecular basis for SH3 domain regulation of F-BAR-mediated membrane deformation.

Author

Yijian Rao, Qingjun Ma, Vahedi-Faridi, Ardeschir, Sundborger, Anna, Pechstein, Arndt, Puchkov, Dmytro, Lin Luo, Shupliakov, Oleg, Saenger, Wolfram, and Haucke, Volker

Subjects
MOLECULAR dynamics, CELLULAR pathology, KIDNEY tubules, PROTEIN binding, HOMOLOGY (Biology), CELL migration
Abstract

Members of the Bin/amphiphysin/Rvs (BAR) domain protein super-family are involved in membrane remodeling in various cellular pathways ranging from endocytic vesicleand T-tubule formation to cell migration and neuromorphogenesis. Membrane curvature induction and stabilization are encoded within the BAR or Fer-CIP4 homology-BAR (F-BAR) domains, a-helical coiled coils that dimerize into membrane-binding modules. BAR/F-BAR domain proteins often contain an SH3 domain, which recruits binding partners such as the oligomeric membrane-fissioning GTPase dynamin. How precisely BAR/F-BAR domain-mediated membrane deformation is regulated at the cellular level is unknown. Here we present the crystal structures of full-length syndapin 1 and its F-BAR domain. Our data show that syndapin 1 F-BAR-mediated membrane deformation is subject to autoinhibition by its SH3 domain. Release from the clamped conformation is driven by association of syndapin 1 SH3 with the proline-rich domain of dynamin 1, thereby unlocking its potent membrane-bending activity. We hypothesize that this mechanism might be commonly used to regulate BAR/F-BAR domain-induced membrane deformation and to potentially couple this process to dynamin-mediated fission. Our data thus suggest a structure-based model for SH3-mediated regulation of BAR/F-BAR domain function. [ABSTRACT FROM AUTHOR]

Published
2010
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12. Regulation of synaptic vesicle recycling by complex formation between intersectin 1 and the clathrin adaptor complex AP2.

Author

Pechstein, Arndt, Bacetic, Jelena, Vahedi-Faridi, Ardeschir, Gromova, Kira, Sundborger, Anna, Tomlin, Nikolay, Krainer3, Georg, Vorontsova, Olga, Schäfer, Johannes G., Owe, Simen G., Cousin, Michael A., Saenger, Wolfram, Shupliakov, Oleg, and Haucke, Volker

Subjects
SYNAPTIC vesicles, PHOSPHOINOSITIDES, FISSION (Asexual reproduction), ENDOCYTOSIS, SYNAPSES
Abstract

Clathrin-mediated synaptic vesicle (SV) recycling involves the spatiotemporally controlled assembly of clathrin coat components at phosphatidylinositiol (4, 5)-bisphosphate [Pl(4,5)P2]-enriched membrane sites within the periactive zone. Such spatiotemporal control is needed to coordinate SV cargo sorting with clathrin/AP2 recruitment and to restrain membrane fission and synaptojanin-mediated uncoating until membrane deformation and clathnn coat assembly are completed. The molecular events underlying these control mechanisms are unknown. Here we show that the endocytic SH3 domaincontaining accessory protein intersectin 1 scaffolds the endocytic process by directly associating with the clathrin adaptor AP2. Acute perturbation of the intersectin 1-AP2 interaction in lamprey synapses in situ inhibits the onset of SV recycling. Structurally, complex formation can be attributed to the direct association of hydrophobic peptides within the intersectin 1 SH3A-B linker region with the "side sites" of the AP2α and β-appendage domains. AP2 appendage association of the SH3A-B linker region inhibits binding of the inositol phosphatase synaptojanin 1 to intersectin 1. These data identify the intersectin-AP2 complex as an important regulator of clathrinmediated SV recycling in synapses. [ABSTRACT FROM AUTHOR]

Published
2010
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13. Three-Dimensional Structure of N-Terminal Domain of DnaB Helicase and Helicase-Primase Interactions in Helicobacter pylori.

Author

Kashav, Tara, Nitharwal, Ramgopal, Abdulrehman, S. Arif, Gabdoulkhakov, Azat, Saenger, Wolfram, Dhar, Suman Kumar, and Gourinath, Samudrala

Subjects
FUNGUS-bacterium relationships, HELICOBACTER, STOMACH, HELICOBACTER pylori, DEOXYRIBOSE, SPHINCTERS, PYLORUS, GENES, DNA, NUCLEIC acids, OLIGOMERS
Abstract

Replication initiation is a crucial step in genome duplication and homohexameric DnaB helicase plays a central role in the replication initiation process by unwinding the duplex DNA and interacting with several other proteins during the process of replication. N-terminal domain of DnaB is critical for helicase activity and for DnaG primase interactions. We present here the crystal structure of the N-terminal domain (NTD) of H. pylori DnaB (HpDnaB) helicase at 2.2 Å resolution and compare the structural differences among helicases and correlate with the functional differences. The structural details of NTD suggest that the linker region between NTD and C-terminal helicase domain plays a vital role in accurate assembly of NTD dimers. The sequence analysis of the linker regions from several helicases reveals that they should form four helix bundles. We also report the characterization of H. pylori DnaG primase and study the helicase-primase interactions, where HpDnaG primase stimulates DNA unwinding activity of HpDnaB suggesting presence of helicase-primase cohort at the replication fork. The protein-protein interaction study of C-terminal domain of primase and different deletion constructs of helicase suggests that linker is essential for proper conformation of NTD to interact strongly with HpDnaG. The surface charge distribution on the primase binding surface of NTDs of various helicases suggests that DnaB-DnaG interaction and stability of the complex is most probably charge dependent. Structure of the linker and helicase-primase interactions indicate that HpDnaB differs greatly from E.coli DnaB despite both belong to gram negative bacteria. [ABSTRACT FROM AUTHOR]

Published
2009
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14. Structure and function of primase RepB' encoded by broad-host-range plasmid RSF1010 that replicates exclusively in leading-strand mode.

Author

Geibel, Sebastian, Banchenko, Sofia, Engel, Michael, Lanka, Erich, and Saenger, Wolfram

Subjects
DNA replication, DNA helicases, OLIGONUCLEOTIDES, DNA polymerases, AMINO acids
Abstract

For the initiation of DNA replication, dsDNA is unwound by helicases. Primases then recognize specific sequences on the template DNA strands and synthesize complementary oligonucleotide primers that are elongated by DNA polymerases in leading- and lagging-strand mode. The bacterial plasmid RSF1010 provides a model for the initiation of DNA replication, because it encodes the smallest known primase RepB' (35.9 kDa). features only 1 single-stranded primase initiation site on each strand (ssiA and ssiB, each 40 nt long with 5'- and 3,'-terminal 6 and 13 single-stranded nucleotides. respectively, and nucleotides 7-27 forming a hairpin), and is replicated exclusively in leading strand mode. We present the crystal structure of full-length dumbbell-shaped RepB' consisting of an N-terminal catalytic domain separated by a long α-helix and tether from the C-terminal helix-bundle domain and the structure of the catalytic domain in a specific complex with the 6 5'-terminal single-stranded nucleotides and the C7-G27 base pair of ssiA, its single-stranded 3'-terminus being deleted. The catalytic domains of RepB' and the archaeal/eukaryotic family of Pri-type primases share a common fold with conserved catalytic amino acids, but RepB' lacks the zinc-binding motif typical of the Pri-type primases. According to complementation studies the catalytic domain shows primase activity only in the presence of the helix-bundle domain. Primases that are highly homologous to RepB' are encoded by broad-host-range IncQ and lncQ-like plasmids that share primase initiation sites ssiA and ssiB and high sequence identity with RSF1010. [ABSTRACT FROM AUTHOR]

Published
2009
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15. Cyanobacterial photosystem II at 2.9-Å resolution and the role of quinones, lipids, channels and chloride.

Author

Guskov, Albert, Kern, Jan, Gabdulkhakov, Azat, Broser, Matthias, Zouni, Athina, and Saenger, Wolfram

Subjects
OXIDOREDUCTASES, CHLOROPHYLL, LIPIDS, CELL membranes, XENON, THYLAKOIDS, PROTON transfer reactions
Abstract

Photosystem II (PSII) is a large homodimeric protein–cofactor complex located in the photosynthetic thylakoid membrane that acts as light-driven water:plastoquinone oxidoreductase. The crystal structure of PSII from Thermosynechococcus elongatus at 2.9-Å resolution allowed the unambiguous assignment of all 20 protein subunits and complete modeling of all 35 chlorophyll a molecules and 12 carotenoid molecules, 25 integral lipids and 1 chloride ion per monomer. The presence of a third plastoquinone QC and a second plastoquinone-transfer channel, which were not observed before, suggests mechanisms for plastoquinol-plastoquinone exchange, and we calculated other possible water or dioxygen and proton channels. Putative oxygen positions obtained from a Xenon derivative indicate a role for lipids in oxygen diffusion to the cytoplasmic side of PSII. The chloride position suggests a role in proton-transfer reactions because it is bound through a putative water molecule to the Mn4Ca cluster at a distance of 6.5 Å and is close to two possible proton channels. [ABSTRACT FROM AUTHOR]

Published
2009
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16. Conformational changes within the HLA-A1:MAGE-A1 complex induced by binding of a recombinant antibody fragment with TCR-like specificity.

Author

Kumar, Pravin, Vahedi-Faridi, Ardeschir, Saenger, Wolfram, Ziegler, Andreas, and Uchanska-Ziegler, Barbara

Abstract

Although there is X-ray crystallographic evidence that the interaction between major histocompatibility complex (MHC, in humans HLA) class I molecules and T cell receptors (TCR) or killer cell Ig-like receptors (KIR) may be accompanied by considerable changes in the conformation of selected residues or even entire loops within TCR or KIR, conformational changes between receptor-bound and -unbound MHC class I molecules of comparable magnitude have not been observed so far. We have previously determined the structure of the MHC class I molecule HLA-A1 bound to a melanoma antigen-encoding gene (MAGE)-A1-derived peptide in complex with a recombinant antibody fragment with TCR-like specificity, Fab-Hyb3. Here, we compare the X-ray structure of HLA-A1:MAGE-A1 with that complexed with Fab-Hyb3 to gain insight into structural changes of the MHC molecule that might be induced by the interaction with the antibody fragment. Apart from the expulsion of several water molecules from the interface, Fab-Hyb3 binding results in major rearrangements (up to 5.5 Å) of heavy chain residues Arg65, Gln72, Arg145, and Lys146. Residue 65 is frequently and residues 72 and 146 are occasionally involved in TCR binding-induced conformational changes, as revealed by a comparison with MHC class I structures in TCR-liganded and -unliganded forms. On the other hand, residue 145 is subject to a reorientation following engagement of HLA-Cw4 and KIR2DL1. Therefore, conformational changes within the HLA-A1:MAGE-A1:Fab-Hyb3 complex include MHC residues that are also involved in reorientations in complexes with natural ligands, pointing to their central importance for the peptide-dependent recognition of MHC molecules. [ABSTRACT FROM AUTHOR]

Published
2009
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17. Specific binding of divalent metal ions to tetracycline and to the Tet repressor/tetracycline complex.

Author

Palm, Gottfried J., Lederer, Thomas, Orth, Peter, Saenger, Wolfram, Takahashi, Masayuki, Hillen, Wolfgang, and Hinrichs, Winfried

Subjects
X-ray crystallography, TETRACYCLINE, ANTIBACTERIAL agents, ANTIBIOTICS, MICROBIAL metabolites
Abstract

Tetracyclines coordinate metal(II) ions under physiological conditions forming chelate complexes with their ketoenolate moiety at rings B and C. These metal(II) complexes are the biologically relevant molecules conferring the antibiotic character of the drug by inhibiting ribosomal protein biosynthesis in prokaryotes. The Tet repressor, TetR, is the molecular switch for tetracycline resistance determinants in gram-negative bacteria. TetR controls transcription of a gene encoding the integral membrane protein TetA, which mediates active efflux of a tetracycline–metal(II) cation, [MeTc]+, by equimolar antiport with a proton. We evaluated distinct characteristics of the metal binding by crystal structure determination of TetR/[MeTc]+ complexes and of association equilibrium constants of [MeTc]+ and TetR/[MeTc]+ complexes. Various divalent metal ions bind to the same octahedral coordination site, defined by a histidine side chain of TetR, the tetracycline, and three water molecules. Whereas association constants for [MeTc]+ vary within 3 orders of magnitude, association of the [MeTc]+ cation to TetR is very similar for all measured divalent metals. Taking intracellular cation concentrations into account, it is evident that no other metal ion can compete with Mg2+ for TetR/[MeTc]+ complex formation. [ABSTRACT FROM AUTHOR]

Published
2008
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18. Modeling of variant copies of subunit D1 in the structure of photosystem II from Thermosynechococcus elongatus.

Author

Loll, Bernhard, Broser, Matthias, Kós, Peter B., Kern, Jan, Biesiadka, Jacek, Vass, Imre, Saenger, Wolfram, and Zouni, Athina

Subjects
GENETIC regulation, PHOTOBIOLOGY, ORGANIC acids, PROTEINS, GENES
Abstract

In the cyanobacterium Thermosynechococcus elongatus BP-1, living in hot springs, the light environment directly regulates expression of genes that encode key components of the photosynthetic multi-subunit protein-pigment complex photosystem II (PSII). Light is not only essential as an energy source to power photosynthesis, but leads to formation of aggressive radicals which induce severe damage of protein subunits and organic cofactors. Photosynthetic organisms develop several protection mechanisms against this photo-damage, such as the differential expression of genes coding for the reaction center subunit D1 in PSII. Testing the expression of the three different genes ( psbAI, psbAII, psbAIII) coding for D1 in T. elongatus under culture conditions used for preparing the material used in crystallization of PSII showed that under these conditions only subunit PsbA1 is present. However, exposure to high-light intensity induced partial replacement of PsbA1 with PsbA3. Modeling of the variant amino acids of the three different D1 copies in the 3.0 Å resolution crystal structure of PSII revealed that most of them are in the direct vicinity to redox-active cofactors of the electron transfer chain. Possible structural and mechanistic consequences for electron transfer are discussed. [ABSTRACT FROM AUTHOR]

Published
2008
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19. Regulation of synaptic inhibition by phospho-dependent binding of the AP2 complex to a YECL motif in the GABAA receptor γ2 subunit.

Author

Kittler, Josef T., Guojun Chen, Kukhtina, Viktoria, Vahedi-Faridi, Ardeschir, Zhenglin Gu, Tretter, Verena, Smith, Katharine R., McAinsh, Kristina, Arancibia-Carcamo, I. Lorena, Saenger, Wolfram, Haucke, Volker, Zhen Yan, and Moss, Stephen J.

Subjects
RESPONSE inhibition, ANIMAL behavior, BIOLOGICAL membranes, TYROSINE, PHOSPHORYLATION, CRYSTALLOGRAPHY
Abstract

The regulation of the number of γ2-subunit-containing GABAA receptors (GABAARS) present at synapses is critical for correct synaptic inhibition and animal behavior. This regulation occurs, in part, by the controlled removal of receptors from the membrane in clathrin-coated vesicles, but it remains unclear how clathrin recruitment to surface γ2-subunit-containing GABAARS is regulated. Here, we identify a γ2-subunit-specific Yxxϕ-type-binding motif for the clathrin adaptor protein, AP2, which is located within a site for γ2-subunit tyrosine phosphorylation. Blocking GABAAR-AP2 interactions via this motif increases synaptic responses within minutes. Crystallographic and biochemical studies reveal that phosphorylation of the Yxxϕ motif inhibits AP2 binding, leading to increased surface receptor number. In addition, the crystal structure provides an explanation for the high affinity of this motif for AP2 and suggests that γ2-subunit-containing heteromeric GABAAR5 may be internalized as dimers or multimers. These data define a mechanism for tyrosine kinase regulation of GABAAR surface levels and synaptic inhibition. [ABSTRACT FROM AUTHOR]

Published
2008
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21. Expression, purification and preliminary X-ray crystallographic analysis of the human major histocompatibility antigen HLA-B*1402 in complex with a viral peptide and with a self-peptide.

Author

Kumar, Pravin, Vahedi-Faridi, Ardeschir, Merino, Elena, López de Castro, José A., Volz, Armin, Ziegler, Andreas, Saenger, Wolfram, and Uchanska-Ziegler, Barbara

Subjects
HISTOCOMPATIBILITY antigens, PEPTIDES, AMINO acids, X-ray crystallography, HISTOCOMPATIBILITY
Abstract

The product of the human major histocompatibility (HLA) class I allele HLA-B*1402 only differs from that of allele HLA-B*1403 at amino-acid position 156 of the heavy chain (Leu in HLA-B*1402 and Arg in HLA-B*1403). However, both subtypes are known to be differentially associated with the inflammatory rheumatic disease ankylosing spondylitis (AS) in black populations in Cameroon and Togo. HLA-B*1402 is not associated with AS, in contrast to HLA-B*1403, which is associated with this disease in the Togolese population. The products of these alleles can present peptides with Arg at position 2, a feature shared by a small group of other HLA-B antigens, including HLA-B*2705, the prototypical AS-associated subtype. Complexes of HLA-B*1402 with a viral peptide (RRRWRRLTV, termed pLMP2) and a self-peptide (IRAAPPPLF, termed pCatA) were prepared and were crystallized using polyethylene glycol as precipitant. The complexes crystallized in space groups P21 (pLMP2) and P212121 (pCatA) and diffracted synchrotron radiation to 2.55 and 1.86 Å resolution, respectively. Unambiguous solutions for both data sets were obtained by molecular replacement using a peptide-complexed HLA-B*2705 molecule (PDB code ) as a search model. [ABSTRACT FROM AUTHOR]

Published
2007
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22. Structure of the transcription regulator CcpA from Lactococcus lactis.

Author

Loll, Bernhard, Kowalczyk, Magdalena, Alings, Claudia, Chieduch, Andr, Bardowski, Jacek, Saenger, Wolfram, and Biesiadka, Jacek

Subjects
DNA-binding proteins, METABOLISM, LACTOCOCCUS lactis, CRYSTALLIZATION, MATRIX-assisted laser desorption-ionization
Abstract

Catabolite control protein A (CcpA) functions as master transcriptional regulator of carbon catabolism in Firmicutes. It belongs to the family of bacterial repressor/regulator proteins. Here, the crystal structure of the 76 kDa homodimeric CcpA protein from Lactococcus lactis subsp. lactis IL1403 is presented at 1.9 Å resolution in the absence of cognate DNA. The phases were derived by molecular replacement and the structure was refined to crystallographic R and Rfree factors of 0.177 and 0.211, respectively. The presence of a sulfate molecule in the direct vicinity of a putative effector-binding site in the monomer allowed the derivation of a model for the possible binding of small organic effector molecules. [ABSTRACT FROM AUTHOR]

Published
2007
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23. How photosynthetic reaction centers control oxidation power in chlorophyll pairs P680, P700, and P870.

Author

Ishikita, Hiroshi, Saenger, Wolfram, Biesiadka, Jacek, Loll, Bernhard, and Knapp, Ernst-Walter

Subjects
PHOTOSYNTHETIC reaction centers, CHLOROPHYLL, CYANOBACTERIA, CHARGE exchange, POISSON'S equation, PROTEINS
Abstract

At the heart of photosynthetic reaction centers (RCs) are pairs of chlorophyll a (Chla), P700 in photosystem I (PSI) and P680 in photosystem II (PSII) of cyanobacteria, algae, or plants, and a pair of bacteriochlorophyll a (BChla), P870 in purple bacterial RCs (PbRCs). These pairs differ greatly in their redox potentials for one-electron oxidation, Em. For P680, Em is 1,100–1,200 mV, but for P700 and P870, Em is only 500 mV. Calculations with the linearized Poisson-Boltzmann equation reproduce these measured Em differences successfully. Analyzing the origin for these differences, we found as major factors in PSII the unique Mn4Ca cluster (relative to PSI and PbRC), the position of P680 close to the luminal edge of transmembrane α-helix d (relative to PSI), local variations in the cd loop (relative to PbRC), and the intrinsically higher Em of Chla compared with BChla (relative to PbRC). [ABSTRACT FROM AUTHOR]

Published
2006
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25. The enzyme-binding region of human GM2-activator protein.

Author

Wendeler, Michaela, Werth, Norbert, Maier, Timm, Schwarzmann, Guenter, Kolter, Thomas, Schoeniger, Maike, Hoffmann, Daniel, Lemm, Thorsten, Saenger, Wolfram, and Sandhoff, Konrad

Subjects
GANGLIOSIDES, ENZYMES, CHEMICAL synthesis, PROTEIN analysis, SURFACE plasmon resonance, TAY-Sachs disease, LYSOSOMES, HYDROLYSIS
Abstract

The GM2-activator protein (GM2AP) is an essential cofactor for the lysosomal degradation of ganglioside GM2 by β-hexosaminidase A (HexA). It mediates the interaction between the water-soluble exohydrolase and its membrane-embedded glycolipid substrate at the lipid–water interface. Functional deficiencies in this protein result in a fatal neurological storage disorder, the AB variant of GM2 gangliosidosis. In order to elucidate this cofactor's mode of action and identify the surface region of GM2AP responsible for binding to HexA, we designed several variant forms of this protein and evaluated the consequences of these mutations for lipid- and enzyme-binding properties using a variety of biophysical and functional studies. The point mutants D113K, M117V and E123K showed a drastically decreased capacity to stimulate HexA-catalysed GM2 degradation. However, surface plasmon resonance (SPR) spectroscopy showed that the binding of these variants to immobilized lipid bilayers and their ability to solubilize lipids from anionic vesicles were the same as for the wild-type protein. In addition, a fluorescence resonance energy transfer (FRET)-based assay system showed that these variants had the same capacity as wild-type GM2AP for intervesicular lipid transfer from donor to acceptor liposomes. The concentration-dependent effect of these variants on hydrolysis of the synthetic substrate 4-methylumbelliferyl-2-acetamido-2-deoxy-6-sulfo-β-d-glucopyranoside (MUGS) indicated a weakened association with the enzyme's α subunit. This identifies the protein region affected by these mutations, the single short α helix of GM2AP, as the major determinant for the interaction with the enzyme. These results further confirm that the function of GM2AP is not restricted to a biological detergent that simply disrupts the membrane structure or lifts the substrate out of the lipid plane. In contrast, our data argue in favour of the critical importance of distinct activator–hexosaminidase interactions for GM2 degradation, and corroborate the view that the activator/lipid complex represents the true substrate for the degrading enzyme. [ABSTRACT FROM AUTHOR]

Published
2006
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26. Crystallization and preliminary characterization of three different crystal forms of human saposin C heterologously expressed in Pichia pastoris.

Author

Schultz-Heienbrok, Robert, Remmel, Natascha, Klingenstein, R., Rossocha, Maksim, Sandhoff, Konrad, Saenger, Wolfram, and Maier, Timm

Subjects
PICHIA pastoris, LYSOSOMES, ORGANELLES, HYDROLYSIS, MEMBRANE proteins, CRYSTALLIZATION
Abstract

The amphiphilic saposin proteins (A, B, C and D) act at the lipid–water interface in lysosomes, mediating the hydrolysis of membrane building blocks by water-soluble exohydrolases. Human saposin C activates glucocerebrosidase and β-­galactosylceramidase. The protein has been expressed in Pichia pastoris, purified and crystallized in three different crystal forms, diffracting to a maximum resolution of 2.5 Å. Hexagonal crystals grew from 2-propanol-containing solution and contain a single molecule in the asymmetric unit according to the Matthews coefficient. Orthorhombic and tetragonal crystals were both obtained with pentaerythritol ethoxylate and are predicted to contain two molecules in the asymmetric unit. Attempts to determine the respective crystal structures by molecular replacement using either the known NMR structure of human saposin C or a related crystal structure as search models have so far failed. The failure of the molecular-replacement method is attributed to conformational changes of the protein, which are known to be required for its biological activity. Crystal structures of human saposin C therefore might be the key to mapping out the conformational trajectory of saposin-like proteins. [ABSTRACT FROM AUTHOR]

Published
2006
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27. Towards complete cofactor arrangement in the 3.0 Å resolution structure of photosystem II.

Author

Loll, Bernhard, Kern, Jan, Saenger, Wolfram, Zouni, Athina, and Biesiadka, Jacek

Subjects
CYANOBACTERIA, SUNSHINE, OXIDATION, CRYSTALLOGRAPHY, MONOMERS, ELECTRON transport
Abstract

Oxygenic photosynthesis in plants, algae and cyanobacteria is initiated at photosystem II, a homodimeric multisubunit protein–cofactor complex embedded in the thylakoid membrane. Photosystem II captures sunlight and powers the unique photo-induced oxidation of water to atmospheric oxygen. Crystallographic investigations of cyanobacterial photosystem II have provided several medium-resolution structures (3.8 to 3.2 Å) that explain the general arrangement of the protein matrix and cofactors, but do not give a full picture of the complex. Here we describe the most complete cyanobacterial photosystem II structure obtained so far, showing locations of and interactions between 20 protein subunits and 77 cofactors per monomer. Assignment of 11 β-carotenes yields insights into electron and energy transfer and photo-protection mechanisms in the reaction centre and antenna subunits. The high number of 14 integrally bound lipids reflects the structural and functional importance of these molecules for flexibility within and assembly of photosystem II. A lipophilic pathway is proposed for the diffusion of secondary plastoquinone that transfers redox equivalents from photosystem II to the photosynthetic chain. The structure provides information about the Mn4Ca cluster, where oxidation of water takes place. Our study uncovers near-atomic details necessary to understand the processes that convert light to chemical energy. [ABSTRACT FROM AUTHOR]

Published
2005
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28. Cyanobacterial Photosystem II at 3.2 Å resolution – the plastoquinone binding pockets.

Author

Kern, Jan, Loll, Bernhard, Zouni, Athina, Saenger, Wolfram, Irrgang, Klaus-Dieter, and Biesiadka, Jacek

Abstract

Photosystem II from thylakoid membranes of the thermophilic cyanobacterium Thermosynechococcus elongatus was solubilized with n- β-dodecylmaltoside and purified using anion exchange chromatography. Molecular weight, pigment stoichiometry and subunit composition were assayed using various techniques. The holocomplex is dimeric with a molecular mass of 756 ± 18 kDa and functionally fully active. Crystals obtained from these samples showed significantly improved quality leading to a 3D structure at 3.2 Å resolution. Several loop regions of the principal protein subunits are now defined that were not interpretable at lower (3.8 Å) resolution, thus resulting in a more complete model. The head groups of the cofactors of the electron transfer chain and of the antennae have been modeled, coordinating and hydrogen bonding amino acids identified and the nature of the binding pockets derived. The orientations of these cofactors resemble those of the reaction centre from anoxygenic purple bacteria. For the two plastoquinones, electron density was only found for the head group of Q A and none for Q B indicating low or even no occupancy of this site in the crystal structure. Both binding pockets and problems related to the Q B site are discussed here and compared to the situation in the purple bacterial reaction centre. [ABSTRACT FROM AUTHOR]

Published
2005
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29. Tuning electron transfer by ester-group of chlorophylls in bacterial photosynthetic reaction center

Author

Ishikita, Hiroshi, Loll, Bernhard, Biesiadka, Jacek, Galstyan, Artur, Saenger, Wolfram, and Knapp, Ernst-Walter

Subjects
CHARGE exchange, CHLOROPHYLL, PHOTOSYNTHESIS, ELECTRONS
Abstract

Abstract: Accessory chlorophylls (BA/B) in bacterial photosynthetic reaction center play a key role in charge-separation. Although light-exposed and dark-adapted bRC crystal structures are virtually identical, the calculated BA redox potentials for one-electron reduction differ. This can be traced back to different orientations of the BA ester-group. This tuning ability of chlorophyll redox potentials modulates the electron transfer from SP* to BA. [Copyright &y& Elsevier]

Published
2005
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32. Structure of DNA helicase RepA in complex with sulfate at 1.95 Å resolution implicates structural changes to an 'open' form.

Author

Hai Xu, Sträter, Norbert, Schröder, Werner, Böttcher, Christoph, Ludwig, Kai, and Saenger, Wolfram

Subjects
DNA helicases, ISOMERASES, DNA, CRYSTALS, CRYSTALLOGRAPHY
Abstract

The structure of a new crystal form (space group C2), grown at pH 8.0 and diffracting to 1.95 Å resolution, of the replicative homo-hexameric DNA helicase RepA encoded by plasmid RSF1010 is reported. In contrast to previous crystals grown at pH 6.0 in space group P2[SUB1] (Niedenzu et al., 2001), only one half (a trimer) of the RepA hexamer occupies the asymmetric unit of the space-group C2 crystals. The new crystal packing explains the pH-dependent hexamer-hexamer association mechanism of RepA. The C-terminus [SUP264]VLERQRKSKGVPRGEA[SUP279], which could not be modelled in the previous structure, is clearly defined in the present electron density except for the last four amino acids. Sulfate anions occupy the six ATPase active sites of RepA at positions where the product phosphates are supposed to bind. Binding of sulfate anions induces conformational changes both at the ATPase active sites and throughout the whole molecular structure. In agreement with electron microscopy the above studies implicate structural changes to an 'open' form that may occur upon binding and hydrolysis of nucleotide 5'-triphosphates and could be essential for DNA duplex-unwinding activity. [ABSTRACT FROM AUTHOR]

Published
2003
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33. Crystal structure of the plasmid maintenance system ε/ζ: Functional mechanism of toxin ζ and inactivation by ε[sub 2]ζ[sub 2] complex formation.

Author

Meinhart, Anton, Alonso, Juan C., Sträter, Norbert, and Saenger, Wolfram

Subjects
CELL death, PROKARYOTES, ANTITOXINS
Abstract

Programmed cell death in prokaryotes is frequently found as postsegregational killing. It relies on antitoxin/toxin systems that secure stable inheritance of low and medium copy number plasraids during cell division and kill cells that have lost the plasmid. The broad-host-range, Iow-copy-number plasmid pSM19035 from Streptococcus pyogenes carries the genes encoding the antitoxin/ toxin system ε/ζ and antibiotic resistance proteins, among others. The crystal structure of the biologically nontoxic ε[sub 2]/ζ[sub 2] protein complex at a 1.95-Å resolution and site-directed mutagenesis showed that free ζ acts as phosphotransferase by using ATP/GTP. in ε[sub 2]ζ[sub 2], the toxin ζ is inactivated because the N-terminal helix of the antitoxin ε blocks the ATP/GTP-binding site. To our knowledge, this is the first prokaryotic postsegregational killing system that has been entirely structurally characterized. [ABSTRACT FROM AUTHOR]

Published
2003
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37. Complex of Burkholderia cepacia lipase with transition state analogue of 1-phenoxy-2-acetoxybutane.

Author

Luić, Marija, Tomić, Sanja, Leščić, Ivana, Ljubović, Edina, Šepac, Dragan, Šunjić, Vitomir, Vitale, Ljubinka, Saenger, Wolfram, and Kojić-Prodić, Biserka

Subjects
LIPASES, MOLECULAR models, ENZYMES
Abstract

In a series of four racemic phenoxyalkyl-alkyl carbinols, 1-phenoxy-2-hydroxybutane (1) is enantioselectively acetylated by Burkholderia cepacia (formerly Pseudomonas cepacia) lipase with an E value ≥ 200, whereas for the other three racemates E was found to be ≤ 4. To explain the high preference of B. cepacia lipase for (R)-(+)-1, a precursor of its transition state analogue with a tetrahedral P-atom, (RP,SP)-O-(2R)-(1-phenoxybut-2-yl)methylphosphonic acid chloride was prepared and crystallized in complex with B. cepacia lipase. The X-ray structure of the complex was determined, allowing to compare the conformation of the inhibitor with results of molecular modelling. [ABSTRACT FROM AUTHOR]

Published
2001
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38. Three-dimensional structure of cyanobacterial photosystem I at 2.5 A resolution.

Author

Jordan, Patrick, Fromme, Petra, Witt, Horst Tobias, Klukas, Olaf, Saenger, Wolfram, and Kraub, Norbert

Subjects
PHOTOSYNTHETIC bacteria -- Ultrastructure, CYANOBACTERIA
Abstract

Presents information on a study that determined the X-ray crystal structure of photosystem I (PSI) from the thermophilic cyanobacterium S. elongatus. How the structure is determined; Controversial issue in PSI; Comparison of the antenna systems in PSI and PSII.

Published
2001
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39. Crystal structure of photosystem II from Synechococcus elongatus at 3.8 A resolution.

Author

Zouni, Athina, Witt, Horst-Tobias, Kern, Jan, Fromme, Petra, Kraub, Norbert, Saenger, Wolfram, and Orth, Peter

Subjects
PHOTOSYNTHESIS, OXIDATION, EFFECT of manganese on plants, MANGANESE catalysts
Abstract

Describes the X-ray structure of photosynthesis II on the basis of crystals fully active in water oxidation. How protein subunits and cofactors are spatially organized; Information on the position, size and shape of the manganese cluster, which catalyzes water oxidation.

Published
2001
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40. Calf spleen purine nucleoside phosphorylase: structure of its ternary complex with an N(7)-acycloguanosine inhibitor and a phosphate anion.

Author

Luić, Marija, Koellner, Gertraud, Shugar, David, Saenger, Wolfram, and Bzowska, Agnieszka

Subjects
CALVES, SPLEEN, PURINE nucleotides, PHOSPHORYLATION, CRYSTALLIZATION, X-ray diffraction, HEMATOPOIETIC system, OPTICAL diffraction
Abstract

The calf spleen purine nucleoside phosphorylase (PNP) ternary complex with an N(7)-acycloguanosine inhibitor and a phosphate ion has been crystallized in the cubic space group P213, with unit-cell parameter a = 94.11 Å and one monomer per asymmetric unit. X-ray diffraction data were collected using synchrotron radiation (Station X31, EMBL Outstation, DESY, Hamburg). The crystal structure was refined to a resolution of 2.2 Å and R and Rfree values of 17.5 and 24.5%, respectively. The acyclonucleoside inhibitor is bound in the active site in an inverted (‘upside-down’) orientation of the purine base compared with natural substrates. The side chain of Asp243 forms two hydrogen bonds with the base ring: Nδ donates a hydrogen to N(3) and Oδ accepts a hydrogen from the guanine N(2)-amino group. N(1)—H of the base is hydrogen bonded to O of Glu201, while N(9) accepts a hydrogen bond from Thr242 Oγ. In addition, a water molecule (W417) bridges the N(2)-amino group of the base and O of Glu201. In the phosphate-binding site, a phosphate ion is bound to Ser33, His64, Arg84, His86, Ala116 and Ser220. The acyclic chain of the N(7)-acycloguanosine inhibitor is in a folded conformation and together with a water molecule (W388) occupies the pentose-binding site, with possible hydrogen bonds to Tyr88 Oη and His257 Nδ1. This new binding mode fully accounts for the previously observed substrate properties of 7-β-d-ribofuranosides of hypoxanthine and guanine. It also provides a new starting point for the design of inhibitors of PNP for therapeutic and other applications. [ABSTRACT FROM AUTHOR]

Published
2001
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41. X-ray structure of acarbose bound to amylomaltase from Thermus aquaticus: Implications for the synthesis of large cyclic glucans.

Author

Przylas, Ingo, Terada, Yoshinobu, Fujii, Kazutoshi, Takaha, Takeshi, Saenger, Wolfram, and Sträter, Norbert

Subjects
ACARBOSE, RING formation (Chemistry), HYDROLASES
Abstract

Examines the X-ray structure of acarbose from Thermus aquaticus. Determination on the inhibitory cyclitol ring of acarbose; Mechanisms of intramolecular cyclization; Analysis on the inhibitory action of acarbose on alpha-hydrolases.

Published
2000
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43. Structural basis of gene regulation by the tetracycline inducible Tet repressor?operator system.

Author

Orth, Peter, Schnappinger, Dirk, Hillen, Wolfgang, Saenger, Wolfram, and Hinrichs, Winfried

Subjects
TETRACYCLINES, GENETIC repressors, MICROSTRUCTURE
Abstract

The tetracycline repressor (TetR) regulates the most abundant resistance mechanism against the antibiotic tetracycline in gram-negative bacteria. The TetR protein and its mutants are commonly used as control elements to regulate gene expression in higher eukaryotes. We present the crystal structure of the TetR homodimer in complex with its palindromic DNA operator at 2.5 Å resolution. Comparison to the structure of TetR in complex with the inducer tetracycline-Mg2+ allows the mechanism of induction to be deduced. Inducer binding in the repressor core initiates conformational changes starting with C-terminal unwinding and shifting of the short helix α6 in each monomer. This forces a pendulum-like motion of helix α4, which increases the separation of the attached DNA binding domains by 3 Å, abolishing the affinity of TetR for its operator DNA. [ABSTRACT FROM AUTHOR]

Published
2000

47. Huntingtin aggregation monitored dynamic light scattering.

Author

Georgalis, Yannis, Starikov, E.B., Hollenbach, Birgit, Lurz, Rudi, Scherzinger, Eberhard, Saenger, Wolfram, Lehrach, Hans, and Wanker, Erich E.

Subjects
VENTRICULAR fibrillation, GLUTATHIONE, HUNTINGTON disease
Abstract

Investigates an initial stage of fibrillogenesis in solutions of glutathione S-transferase-huntingtin (GST-HD) fusion proteins, by using dynamic light scattering. Examination of two GST-HD systems with poly-L-glutamine (polyGln) extensions of different lengths; What is huntington's disease (HD); Details on the mechanism by which an elongated polyGln sequence causes neurodegeneration within the frame of HD.

Published
1998
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