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12. Developing a programmed restriction endonuclease for highly specific DNA cleavage

Author

Kristin Eisenschmidt, Vera Pingoud, Thomas Lanio, Albert Jeltsch, András Simoncsits, Alfred Pingoud, and Wolfgang Wende

Subjects
Oligonucleotide, Base pair, Oligonucleotides, Succinimides, DNA, Biology, Cleavage (embryo), Article, Substrate Specificity, Restriction fragment, Restriction enzyme, genomic DNA, chemistry.chemical_compound, Restriction site, Cross-Linking Reagents, Biochemistry, chemistry, Genetics, biology.protein, Deoxyribonucleases, Type II Site-Specific
Abstract

Specific cleavage of large DNA molecules at few sites, necessary for the analysis of genomic DNA or for targeting individual genes in complex genomes, requires endonucleases of extremely high specificity. Restriction endonucleases (REase) that recognize DNA sequences of 4-8 bp are not sufficiently specific for this purpose. In principle, the specificity of REases can be extended by fusion to sequence recognition modules, e.g. specific DNA-binding domains or triple-helix forming oligonucleotides (TFO). We have chosen to extend the specificity of REases using TFOs, given the combinatorial flexibility this fusion offers in addressing a short, yet precisely recognized restriction site next to a defined triple-helix forming site (TFS). We demonstrate here that the single chain variant of PvuII (scPvuII) covalently coupled via the bifunctional cross-linker N-(gamma-maleimidobutryloxy) succinimide ester to a TFO (5'-NH2-[CH2](6 or 12)-MPMPMPMPMPPPPPPT-3', with M being 5-methyl-2'-deoxycytidine and P being 5-[1-propynyl]-2'-deoxyuridine), cleaves DNA specifically at the recognition site of PvuII (CAGCTG) if located in a distance of approximately one helical turn to a TFS (underlined) complementary to the TFO ('addressed' site: 5'-TTTTTTTCTCTCTCTCN(approximately 10)CAGCTG-3'), leaving 'unaddressed' PvuII sites intact. The preference for cleavage of an 'addressed' compared to an 'unaddressed' site is1000-fold, if the cleavage reaction is initiated by addition of Mg2+ ions after preincubation of scPvuII-TFO and substrate in the absence of Mg2+ ions to allow triple-helix formation before DNA cleavage. Single base pair substitutions in the TFS prevent addressed DNA cleavage by scPvuII-TFO.

Published
2005
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13. DNA-mediated assembly of weakly interacting DNA-binding protein subunits: in vitro recruitment of phage 434 repressor and yeast GCN4 DNA-binding domains

Author

Sándor Pongor, Sotir Zahariev, Bakthisaran Raman, Corrado Guarnaccia, and András Simoncsits

Subjects
Operator Regions, Genetic, Saccharomyces cerevisiae Proteins, Macromolecular Substances, Protein subunit, Molecular Sequence Data, Repressor, Biology, DNA-binding protein, Viral Proteins, chemistry.chemical_compound, Genetics, Viral Regulatory and Accessory Proteins, Amino Acid Sequence, Disulfides, Binding site, Peptide sequence, Fluorescent Dyes, Binding Sites, Pyrenes, Oligonucleotide, DNA, Articles, DNA-binding domain, Protein Structure, Tertiary, DNA-Binding Proteins, Repressor Proteins, Protein Subunits, Spectrometry, Fluorescence, chemistry, Biochemistry, Dimerization, Protein Kinases
Abstract

The specificity of DNA-mediated protein assembly was studied in two in vitro systems, based on (i) the DNA-binding domain of bacteriophage 434 repressor cI (amino acid residues 1–69), or (ii) the DNA-binding domain of the yeast transcription factor GCN4, (amino acids 1–34) and their respective oligonucleotide cognates. In vivo, both of these peptides are part of larger protein molecules that also contain dimerization domains, and the resulting dimers recognize cognate palindromic DNA sequences that contain two half-sites of 4 bp each. The dimerization domains were not included in the peptides tested, so in solution—in the presence or absence of non-cognate DNA oligonucleotides—these molecules did not show appreciable dimerization, as determined by pyrene excimer fluorescence spectroscopy and oxidative cross-linking monitored by mass spectrometry. Oligonucleotides with only one 4 bp cognate half-site were able to initiate measurable dimerization, and two half-sites were able to select specific dimers even from a heterogeneous pool of molecules of closely related specificity (such as DNA-binding domains of the 434 repressor and their engineered mutants that mimic the binding helix of the related P22 phage repressor). The fluorescent technique allowed us to separately monitor the unspecific, ionic interaction of the peptides with DNA which produced a roughly similar signal in the case of both cognate and non-cognate oligonucleotides. But in the former case, a concomitant excimer fluorescence signal showed the formation of correctly positioned dimers. The results suggest that DNA acts as a highly specific template for the recruitment of weakly interacting protein molecules that can thus build up highly specific complexes.

Published
2004
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14. Repair of a minimal DNA double-strand break by NHEJ requires DNA-PKcs and is controlled by the ATM/ATR checkpoint

Author

Marie-Louise Tjörnhammar, András Simoncsits, Christian Kühne, Lawrence Banks, and Sándor Pongor

Subjects
Cell cycle checkpoint, DNA Repair, DNA repair, DNA damage, Cell Cycle Proteins, Rodentia, Ataxia Telangiectasia Mutated Proteins, DNA-Activated Protein Kinase, Protein Serine-Threonine Kinases, Biology, Cell Line, chemistry.chemical_compound, Genetics, Animals, Deoxyribonucleases, Type II Site-Specific, Ku Autoantigen, DNA-PKcs, Hydrolysis, Tumor Suppressor Proteins, Cell Cycle, fungi, DNA Helicases, Antigens, Nuclear, Articles, DNA, G2-M DNA damage checkpoint, Cell cycle, DNA repair protein XRCC4, Molecular biology, Cell biology, DNA-Binding Proteins, enzymes and coenzymes (carbohydrates), chemistry, Gene Products, tat, Tumor Suppressor Protein p53, biological phenomena, cell phenomena, and immunity, Gene Deletion, DNA Damage
Abstract

Mammalian cells primarily rejoin DNA double-strand breaks (DSBs) by the non-homologous end-joining (NHEJ) pathway. The joining of the broken DNA ends appears directly without template and accuracy is ensured by the NHEJ factors that are under ATM/ATR regulated checkpoint control. In the current study we report the engineering of a mono-specific DNA damaging agent. This was used to study the molecular requirements for the repair of the least complex DSB in vivo. Single-chain PvuII restriction enzymes fused to protein delivery sequences transduce cells efficiently and induce blunt end DSBs in vivo. We demonstrate that beside XRCC4/LigaseIV and KU, the DNA-PK catalytic subunit (DNA-PKcs) is also essential for the joining of this low complex DSB in vivo. The appearance of blunt end 3'-hydroxyl and 5'-phosphate DNA DSBs induces a significantly higher frequency of anaphase bridges in cells that do not contain functional DNA-PKcs, suggesting an absolute requirement for DNA-PKcs in the control of chromosomal stability during end joining. Moreover, these minimal blunt end DSBs are sufficient to induce a p53 and ATM/ATR checkpoint function.

Published
2003
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16. Selection and design of high affinity DNA ligands for mutant single-chain derivatives of the bacteriophage 434 repressor

Author

Tiebing Liang, Kehui Tan, Kang Chong, Zhiqing Zhu, Sándor Pongor, and András Simoncsits

Subjects
education.field_of_study, HMG-box, Stereochemistry, Population, Cooperative binding, Repressor, Biology, General Biochemistry, Genetics and Molecular Biology, DNA binding site, Biochemistry, Binding site, General Agricultural and Biological Sciences, education, Binding selectivity, General Environmental Science, Binding domain
Abstract

Single-chain repressor RR(Tres) is a derivative of bacteriophage 434 repressor, which contains covalently dimerized DNA-binding domains (amino acids 1-69) of the phage 434 repressor. In this single-chain molecule, the wild type domain R is connected to the mutant domain R(TRES) by a recombinant linker in a head-to-tail arrangement. The DNA-contacting amino acids of R(TRES) at the -1, 1, 2, and 5 positions of the a3 helix are T, R, E, S respectively. By using a randomized DNA pool containing the central sequence -CATACAAGAAAGNNNNNNTTT-, a cyclic,in vitro DNA-binding site selection was performed. The selected population was cloned and the individual members were characterized by determining their binding affinities to RR(Tres) The results showed that the optimal operators contained the TTAC or TTCC sequences in the underlined positions as above, and that the Kd values were in the 1 x 10(-12) mol/L-1 x 10(11) mol/L concentration range. Since the affinity of the natural 434 repressor to its natural operator sites is in the 1 x 10(-9) mol/L range, the observed binding affinity increase is remarkable. It was also found that binding affinity was strongly affected by the flanking bases of the optimal tetramer binding sites, especially by the base at the 5' position. We constructed a new homodimeric single-chain repressor R(TRES)R(TRES) and its DNA-binding specificity was tested by using a series of new operators designed according to the recognition properties previously determined for the R(TREs) domain. These operators containing the consensus sequenceGTAAGAAARNTTACN orGGAAGAAARNTTCCN (R is A or G) were recognized by R(TRES)R(TRES) specifically, and with high binding affinity. Thus, by using a combination of random selection and rational design principles, we have discovered novel, high affinity protein-DNA interactions with new specificity. This method can potentially be used to obtain new binding specificity for other DNA-binding proteins.

Published
2001
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17. A thermodynamic study of the 434-repressor N-terminal domain and of its covalently linked dimers

Author

András Simoncsits, Pedro L. Mateo, Sándor Pongor, Imre Törö, Vladimir V. Filimonov, and Javier Ruiz-Sanz

Subjects
chemistry.chemical_classification, Isothermal microcalorimetry, Protein Folding, Circular dichroism, Calorimetry, Differential Scanning, Protein Conformation, Chemistry, Globular protein, Circular Dichroism, Osmolar Concentration, Repressor, Peptide, Hydrogen-Ion Concentration, Biochemistry, Repressor Proteins, Viral Proteins, Crystallography, Drug Stability, Covalent bond, Ionic strength, Thermodynamics, Dimerization, Linker
Abstract

The isolated N-terminal 1-69 domain of the 434-phage repressor, R69, and its covalently linked (head-to-tail and tail-to-tail) dimers have been studied by differential scanning microcalorimetry (DSC) and CD. At neutral solvent conditions the R69 domain maintains its native structure, both in isolated form and within the dimers. The stability of the domain depends highly upon pH within the acidic range, thus at pH 2 and low ionic strength R69 is already partially unfolded at room temperature. The thermodynamic parameters of unfolding calculated from the DSC data are typical for small globular proteins. At neutral pH and moderate ionic strength, the domains of the dimers behave as two independent units with unfolding parameters similar to those of the isolated domain, which means that linking two R69 domains, either by a long peptide linker or by a designed C-terminal disulfide bridge, does not induce any cooperation between them.

Published
1999
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18. [Untitled]

Author

A. Simoncsits, M.‐L. Tjörnhammar, S. Wang, and S. Pongor

Subjects
Genetics, chemistry.chemical_classification, Phenotypic screening, Mutant, Wild type, Repressor, Plant Science, General Medicine, Biology, DNA sequencing, Amino acid, chemistry.chemical_compound, chemistry, Insect Science, Animal Science and Zoology, Linker, DNA
Abstract

Combinatorial mutant libraries of the single-chain 434 repressor were used to discover novel DNA-binding specificities. Members of the library contain one wild type domain and one mutant domain which are connected by a recombinant peptide linker. The mutant domain contains randomized amino acids in place of the DNA-contacting residues. The single-chain derivatives are expected to recognize artificial operators containing the DNA sequence of ACAA ‐ 6 base-pairs ‐ NNNN, where ACAA is bound by the wild-type and NNNN by the mutant domain. An in vivo library screening method was used to isolate mutant DNA-binding domains which recognize the TTAA site of an asymmetric operator. Several mutants showed high affinity binding to the selection target and also strong (up to 80 fold) preference for TTAA over the wild type TTGT sequence. Some of the isolated mutants bound with very high affinities (10‐50 pM) to operators containing the TTAC sequence, a close homologue of the TTAA selection target.

Published
1999
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19. A Positive Selection Cloning System Based on thegltSGene ofEscherichia coli

Author

Sándor Pongor, Szilvia Szekeres, Miklos Kalman, József Gál, Róbert Schnell, and András Simoncsits

Subjects
Cloning, Symporters, Amino Acid Transport Systems, Acidic, Escherichia coli Proteins, Positive selection, Genetic Vectors, Biophysics, Cell Biology, Computational biology, Biology, medicine.disease_cause, Biochemistry, Genes, Bacterial, Escherichia coli, medicine, Cloning, Molecular, Carrier Proteins, Molecular Biology, Gene
Published
1999
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20. A Somatostatin Analogue Induces Translocation of Ku 86 Autoantigen from the Cytosol to the Nucleus in Colon Tumour Cells

Author

Sándor Pongor, Attila Steták, András Simoncsits, József Tóvári, Arturo Falaschi, György Kéri, Jozsef Bocsi, Judit Érchegyi, and Béla Szende

Subjects
Protein subunit, Antineoplastic Agents, Biology, Octreotide, Autoantigens, Peptides, Cyclic, HT29 Cells, Cytosol, Humans, Ku Autoantigen, Cell Nucleus, Kinase, DNA Helicases, Nuclear Proteins, Antigens, Nuclear, Biological Transport, Cell Biology, Molecular biology, In vitro, Ku Protein, DNA-Binding Proteins, Somatostatin, Biochemistry, Cytoplasm
Abstract

Flow cytometric and electron microscopic immunocytochemical studies have been performed in HT-29 human colon tumour cells in vitro, to determine and localise p86 Ku protein, which is a regulatory subunit of DNA-dependent kinase and a specific binding site for somatostatin. We have demonstrated that HT-29 cells contain p86 Ku and that the distribution between the cytoplasm and the nucleus is even. After administration of the somatostatin analogues Sandostatin and TT-232 to HT-29 cells, the p86 Ku content of the cytoplasmic compartment decreased in the first 4 h. An increase in the content of this protein in the nuclear compartment was observed at hour 1 followed by a decrease at hour 4 after treatment. Quantitative differences between the two analogues have been observed in this respect. The practical significance of these findings is discussed.

Published
1998
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21. Functional Properties of the Separate Subunits of Human DNA Helicase II/Ku Autoantigen

Author

Thierry Rabilloud, Doris Skopac, Mario Costa, András Simoncsits, Alexander Ochem, Mauro Giacca, Arturo Falaschi, Laurent Vuillard, A. E., Ochem, D., Skopac, M., Costa, T., Rabilloud, L., Vuillard, A., Simoncsit, Giacca, Mauro, and A., Falaschi

Subjects
Adenosine Triphosphatase, Protein Denaturation, Protein Folding, DNA Repair, metabolism, Antigen, Protein Conformation, Protein subunit, Autoantigens, Biochemistry, metabolism, Adenosine Triphosphate, HeLa, Adenosine Triphosphatases, metabolism, Antigens, Nuclear, Autoantigens, metabolism, DNA Helicases, DNA Repair, DNA-Binding Proteins, metabolism, HeLa Cells, Humans, Kinetics, Nuclear Proteins, metabolism, Protein Conformation, Protein Denaturation, Protein Folding, Recombinant Proteins, metabolism, Solubility, Transcription Factors, metabolism, chemistry.chemical_compound, Adenosine Triphosphate, metabolism, HeLa Cells, Humans, Kinetics, Nuclear Protein, metabolism, Solubility, Transcription Factor, Humans, Nuclear, Autoantigen, Nuclear, Antigens, Ku Autoantigen, Molecular Biology, metabolism, Protein Conformation, Protein Denaturation, Protein Folding, Recombinant Protein, biology, DNA Helicases, Nuclear Proteins, Helicase, Antigens, Nuclear, Cell Biology, Metabolism, biology.organism_classification, Molecular biology, Recombinant Proteins, In vitro, Ku Protein, DNA-Binding Proteins, Kinetics, Solubility, chemistry, metabolism, DNA Helicases, DNA Repair, DNA-Binding Protein, Duplex (building), biology.protein, DNA, HeLa Cells, Transcription Factors
Abstract

The Ku antigen consists of two subunits of 70 and 83 kDa and is endowed with both duplex DNA end-binding capacity and helicase activity (human DNA helicase II). HeLa Ku can be isolated from in vitro cultured human cells uniquely as a heterodimer, and the subunits can be separated by electrophoresis only under denaturing conditions. To dissect the molecular functions of the two subunits of the heterodimer, we have cloned and expressed their cDNAs separately in Escherichia coli. The two activities of Ku (DNA binding and unwinding) were reconstituted by mixing and refolding both subunits in equimolar amounts (Tuteja, N., Tuteja, R., Ochem, A., Taneja, P., Huang, N-W., Simoncsits, A., Susic, S., Rahman, K., Marusic, L., Chen, J., Zang, J., Wang, S., Pongor, S., and Falaschi, A. (1994) EMBO J. 13, 4991-5001). Renaturation of the separate subunits can be achieved in the presence of a synthetic solubilizing and stabilizing agent, dimethyl ethylammonium propane sulfonate (NDSB 195). The helicase activity of the Ku protein resides uniquely in the 70-kDa subunit, whereas the DNA end-binding activity can be reconstituted only through renaturation of the two subunits in the heterodimeric form and is practically absent in the separate subunits. The 83-kDa subunit, when refolded in the absence of the 70-kDa subunit, forms homodimers unable to unwind DNA and bind duplex ends. The three separate species (heterodimer, 70-kDa subunit, and 83-kDa subunit homodimer) all have ssDNA-dependent ATPase activity.

Published
1997
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22. Single-chain repressors containing Engineered DNA-binding domains of the phage 434 repressor recognize symmetric or asymmetric DNA operators

Author

Jinqiu Chen, András Simoncsits, Sándor Pongor, Shenglun Wang, Imre Törö, and Piergiorgio Percipalle

Subjects
Operator Regions, Genetic, Stereochemistry, Genetic Vectors, Molecular Sequence Data, DNA, Single-Stranded, Repressor, lac operon, Helix-turn-helix, Bacteriophage, Viral Proteins, chemistry.chemical_compound, Structural Biology, Viral Regulatory and Accessory Proteins, Protein–DNA interaction, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, biology, DNA-binding domain, biology.organism_classification, Bacteriophage lambda, DNA-Binding Proteins, Repressor Proteins, chemistry, Biochemistry, DNA, Viral, Linker, DNA
Abstract

Single-chain (sc) DNA-binding proteins containing covalently dimerized N-terminal domains of the bacteriophage 434 repressor cI have been constructed. The DNA-binding domains (amino acid residues 1 to 69) were connected in a head-to-tail arrangement with a part of the natural linker sequence that connects the N and C-terminal domains of the intact repressor. Compared to the isolated N-terminal DNA-binding domain, the sc molecule showed at least 100-fold higher binding affinity in vitro and a slightly stronger repression in vivo. The recognition of the symmetric OR1 operator sequence by this sc homodimer was indistinguishable from that of the naturally dimerized repressor in terms of binding affinity, DNase I protection pattern and in vivo repressor function. Using the new, sc framework, mutant proteins with altered DNA-binding specificity have also been constructed. Substitution of the DNA-contacting amino acid residues of the recognition helix in one of the domains with the corresponding residues of the Salmonella phage P22 repressor c2 resulted in a sc heterodimer of altered specificity. This new heterodimeric molecule recognized an asymmetric, artificial 434-P22 chimeric operator with high affinity. Similar substitutions in both 434 domains have led to a new sc homodimer which showed high affinity binding to a natural, symmetric P22 operator. These findings, supported by both in vitro and in vivo experiments, show that the sc architecture allows for the introduction of independent changes in the binding domains and suggest that this new protein framework could be used to generate new specificities in protein-DNA interaction. # 1997 Academic Press Limited

Published
1997
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24. Rationally designed helix-turn-helix proteins and their conformational changes upon DNA binding

Author

Piergiorgio Percipalle, Sotir Zakhariev, Corrado Guarnaccia, Roberte Sánchez, Sándor Pongor, and András Simoncsits

Subjects
DNA, Bacterial, Models, Molecular, Circular dichroism, Conformational change, HMG-box, Protein Conformation, Molecular Sequence Data, Helix-turn-helix, Biology, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, Protein structure, Computer Simulation, Amino Acid Sequence, Molecular Biology, Base Sequence, General Immunology and Microbiology, Circular Dichroism, General Neuroscience, Helix-Loop-Helix Motifs, Molecular biology, DNA-Binding Proteins, Repressor Proteins, DNA binding site, chemistry, Biophysics, DNA, Research Article, Binding domain
Abstract

Circular dichroism and electrophoretic mobility shift studies were performed to confirm that dimerized N-terminal domains of bacterial repressors containing helix-turn-helix motifs are capable of high-affinity and specific DNA recognition as opposed to the monomeric N-terminal domains. Specific, high-affinity DNA binding proteins were designed and produced in which two copies of the N-terminal 1-62 domain of the bacteriophage 434 repressor are connected either in a dyad-symmetric fashion, with a synthetic linker attached to the C-termini, or as direct sequence repeats. Both molecules bound to their presumptive cognate nearly as tightly as does the natural (full-length and non-covalently dimerized) 434 repressor, showing that covalent dimerization can be used to greatly enhance the binding activity of individual protein segments. Circular dichroism spectroscopy showed a pronounced increase in the alpha-helix content when these new proteins interacted with their cognate DNA and a similar, although 30% lower, increase was also seen upon their interaction with non-cognate DNA. These results imply that a gradual conformational change may occur when helix-turn-helix motifs bind to DNA, and that a scanning mechanism is just as plausible for this motif class as that which is proposed for the more flexible basic-leucine zipper and basic-helix-loop-helix motifs.

Published
1995
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26. Selection of human anti-hapten antibodies from semisynthetic libraries

Author

Carlos F. Barbas, Andras Simoncsits, Richard A. Lerner, Terri Jones, and Willi Amberg

Subjects
Phage display, medicine.drug_class, Stereochemistry, Recombinant Fusion Proteins, Molecular Sequence Data, Antibody Affinity, Complementarity determining region, Cross Reactions, Monoclonal antibody, Polymerase Chain Reaction, Antibodies, Bacteriophage, Immunoglobulin Fab Fragments, Inovirus, Genetics, medicine, Humans, Amino Acid Sequence, Surface plasmon resonance, Base Sequence, biology, General Medicine, biology.organism_classification, Molecular biology, Affinities, Haptens, Hapten, Antibody Diversity, Conjugate
Abstract

Semisynthetic human Fab libraries were constructed, displayed on the surface of filamentous phage and selected for binding to three hapten conjugates. A number of Fabs were isolated and characterized with respect to affinity and specificity. Fabs exhibited affinities of between 80 and 29 nM, as determined by surface plasmon resonance, for the conjugate on which they were selected. Conservation of Asp101 in the third heavy-chain complementarity determining region (HCDR3) appears to be important in the construction of synthetically diverse repertoires.

Published
1993
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27. Binding studies with recombinant human serum albumin obtained by expression of a synthetic gene in yeast

Author

András Simoncsits, Júlia Visy, and Ilona Fitos

Subjects
Pharmacology, Stereochemistry, Allosteric regulation, Albumin, Biology, Human serum albumin, Coumarin, Biochemistry, In vitro, Yeast, law.invention, chemistry.chemical_compound, chemistry, law, medicine, Recombinant DNA, Stereoselectivity, medicine.drug
Abstract

The specific ligand binding ability of recombinant human serum albumin produced in yeast using the synthetic gene was studied by affinity Chromatographic method. It was found that synthetic protein possesses those stereoselective binding and binding interactions for several chiral benzodiazepine and coumarin compounds which are characteristic of the natural human serum albumin, suggesting identical tertiary structures.

Published
1993
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28. Characterization of a neuronal interleukin-1 receptor and the corresponding mRNA in the mouse anterior pituitary cell line AtT-20

Author

Jesper Bristulf, András Simoncsits, and Tamas Bartfai

Subjects
T-Lymphocytes, Molecular Sequence Data, Cell, Biology, Interleukin-1 receptor, Binding, Competitive, Polymerase Chain Reaction, Cell Line, Mice, Adrenocorticotropic Hormone, Anterior pituitary, Pituitary Gland, Anterior, Complementary DNA, medicine, Animals, RNA, Messenger, Receptors, Immunologic, Binding site, Receptor, Neurons, Base Sequence, General Neuroscience, Receptors, Interleukin-1, DNA, Molecular biology, Recombinant Proteins, Cytosolic part, medicine.anatomical_structure, Cell culture, Electrophoresis, Polyacrylamide Gel
Abstract

Interleukin-1 (IL-1) mediates numerous responses on the mouse anterior pituitary cell line AtT-20. We have studied the ligand binding properties of the IL-1 receptors (IL-1R) of the AtT-20 cells and found that they possess 1.5 × 10 3 receptors/cell with a K d of 0.15 nM for [ 125 I]IL-1α. Using oligonucleotide primers, which define a 236 bp region of the cDNA coding for the cytosolic part of the mouse T-cell IL-1R, and cDNA prepared from AtT-20 cells, we obtained by polymerase chain reaction (PCR) a DNA fragment which was shown to posses an identical sequence to that of the corresponding region of the mouse T-cell IL-1R. Thus the AtT-20 pituitary cell line IL-1 receptor appears to be similar to those found on mouse T-cells and fibroblasts.

Published
1991
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29. The Conformational Composition of 4-Fluoro-1-butene as Studied by Microwave Spectroscopy and Ab Initio Computations

Author

Gamil A. Guirgis, Andras Simoncsits, Harald Møllendal, K.-M. Marstokk, H. Weihe, and O. Mønsted

Subjects
Quantitative Biology::Biomolecules, Chemistry, General Chemical Engineering, 1-Butene, Astrophysics::Cosmology and Extragalactic Astrophysics, symbols.namesake, Dipole, chemistry.chemical_compound, Stark effect, Computational chemistry, Excited state, symbols, Physical chemistry, Fluorocarbon, Rotational spectroscopy, Conformational isomerism, Microwave
Abstract

The microwave spectrum of 4-fluoro-1-butene has been reinvestigated in the 10-26.5 GHz spectral range. The ground and several vibrationally excited states have been assigned for two «new» rotamers denoted Skew-Gauche I and Skew-Gauche II. The dipole moments of the «new» conformers have been determined

Published
1991
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30. Acid-Catalyzed Hydrolysis of Bridged Bi- and Tricyclic Compounds. XXVIII. Evaluation of alpha-Values for the Protonation of Norbornenes and Nortricyclanes from Solvent Isotope and Acidity Effects and Their Use to Compare the Characters of the Intermediate Carbocations

Author

Martti Lajunen, Lennart Kenne, Göran Widmalm, Andras Simoncsits, O. Mønsted, and H. Weihe

Subjects
Solvent, Acid catalysis, chemistry.chemical_compound, Reaction rate constant, Chemistry, General Chemical Engineering, Kinetic isotope effect, Organic chemistry, Protonation, Reaction intermediate, Carbocation, Medicinal chemistry, Norbornene
Abstract

α-Values evaluated from solvent deuterium isotope effects and excess acidity correlations have been observed to be very similar in the acid-catalyzed hydrations of both norbornenes (0.77±0.11 and 0.77±0.05, respectively) and nortricyclanes (0.78±0.15 and 0.80±0.03, respectively). By using these, together with reaction constants, the α-values were also estimated for the solvolyses of 2-norbornyl tosylates. They are reasonable (0.88±0.10) if the first-formed carbocations are of similar character in the solvolyses and hydrations, but unreasonable if their characters are different

Published
1991
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31. Applications of the CASPER Program: Comparison between Experimental and Simulated Spectra and an Enhancement Procedure for the Database

Author

Per-Erik Jansson, Lennart Kenne, Göran Widmalm, Andras Simoncsits, O. Mønsted, and H. Weihe

Subjects
chemistry.chemical_classification, Database, biology, Chemistry, General Chemical Engineering, Extraction (chemistry), Experimental data, Glycoside, Nuclear magnetic resonance spectroscopy, Carbon-13 NMR, computer.software_genre, biology.organism_classification, Spectral line, Shigella flexneri, computer
Abstract

CASPER, a computer program by which structural analysis of polysaccharides can be performed, has been tested for accuracy. This was done by simulation of the 1 H and 13 C NMR spectra of the Shigella flexneri type Y O-polysaccharide using data from the constituent disaccharides and then comparing these with experimental data. A close fit between experimental and calculated 1 H and 13 C NMR spectra was observed. Conformational and NMR studies on the disaccharides, as methyl glycosides, were also performed. Furthermore, an extraction procedure, aimed at improving the database in CASPER is demonstrated

Published
1991
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32. Synthesis of a gene for human serum albumin and its expression inSaccharomyces cerevisiae

Author

Éva Horv'ath, Imre Cserpán, Miklos Kalman, Cecilia Pázmán, András Simoncsits, Albert Dobi, and György Bajszar

Subjects
Base Sequence, Base pair, Oligonucleotide, Molecular Sequence Data, Structural gene, Gene Expression, Saccharomyces cerevisiae, Biology, Molecular biology, body regions, Oligodeoxyribonucleotides, Biochemistry, Shuttle vector, Regulatory sequence, embryonic structures, Escherichia coli, Genes, Synthetic, Genetics, Humans, Expression cassette, Cloning, Molecular, Peptide sequence, Gene, Serum Albumin
Abstract

A 1761 base pairs long artificial gene coding for human serum albumin (HSA) has been prepared by a newly developed synthetic approach, resulting in the largest synthetic gene so far described. Oligonucleotides corresponding to only one strand of the HSA gene were prepared by chemical synthesis, while the complementary strand was obtained by a combination of enzymatic and cloning steps. 24 synthetic, 69-85 nucleotides long oligonucleotides covering the major part of the HSA gene (41-1761 nucleotides) were used as building blocks. Generally, four groups of 6-6 such oligonucleotides were successively cloned in pUC19 Escherichia coli vector to obtain about quarters of the gene as large fragments. Joining of these four fragments resulted in a cloned DNA coding for the 13-585 amino acid region of HSA, which was further supplemented with a double-stranded linker sequence coding for the amino terminal 12 amino acids. The completed structural gene composed of frequently used codons in the highly expressed yeast genes was then supplied with yeast regulatory sequences and the HSA expression cassette so obtained was inserted into an Escherichia coli-Saccharomyces cerevisiae shuttle vector. This vector was shown to direct the expression in Saccharomyces cerevisiae of correctly processed, mature HSA which was recognized by antiserum to HSA, and possessed the correct N-terminal amino acid sequence.

Published
1990
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33. Structural and biochemical characterization of a new Mg(2+) binding site near Tyr94 in the restriction endonuclease PvuII

Author

Eva Scheuring-Vanamee, Alekos Athanasiadis, Albert Jeltsch, Claudia Matzen, Thomas Lanio, Alfred Pingoud, András Simoncsits, Michael Kokkinidis, and Aspasia Spyridaki

Subjects
Models, Molecular, DNA-Cytosine Methylases, Time Factors, Cooperativity, Cleavage (embryo), Crystallography, X-Ray, Active center, chemistry.chemical_compound, Endonuclease, Structural Biology, Catalytic Domain, Magnesium, Binding site, Cloning, Molecular, Molecular Biology, Ions, Binding Sites, biology, Dose-Response Relationship, Drug, Chemistry, Concerted reaction, DNA, Crystallography, Restriction enzyme, Kinetics, Mutation, biology.protein, Mutagenesis, Site-Directed, Tyrosine, Plasmids, Protein Binding
Abstract

We have determined the crystal structure of the PvuII endonuclease in the presence of Mg(2+). According to the structural data, divalent metal ion binding in the PvuII subunits is highly asymmetric. The PvuII-Mg(2+) complex has two distinct metal ion binding sites, one in each monomer. One site is formed by the catalytic residues Asp58 and Glu68, and has extensive similarities to a catalytically important site found in all structurally examined restriction endonucleases. The other binding site is located in the other monomer, in the immediate vicinity of the hydroxyl group of Tyr94; it has no analogy to metal ion binding sites found so far in restriction endonucleases. To assign the number of metal ions involved and to better understand the role of Mg(2+) binding to Tyr94 for the function of PvuII, we have exchanged Tyr94 by Phe and characterized the metal ion dependence of DNA cleavage of wild-type PvuII and the Y94F variant. Wild-type PvuII cleaves both strands of the DNA in a concerted reaction. Mg(2+) binding, as measured by the Mg(2+) dependence of DNA cleavage, occurs with a Hill coefficient of 4, meaning that at least two metal ions are bound to each subunit in a cooperative fashion upon formation of the active complex. Quenched-flow experiments show that DNA cleavage occurs about tenfold faster if Mg(2+) is pre-incubated with enzyme or DNA than if preformed enzyme-DNA complexes are mixed with Mg(2+). These results show that Mg(2+) cannot easily enter the active center of the preformed enzyme-DNA complex, but that for fast cleavage the metal ions must already be bound to the apoenzyme and carried with the enzyme into the enzyme-DNA complex. The Y94F variant, in contrast to wild-type PvuII, does not cleave DNA in a concerted manner and metal ion binding occurs with a Hill coefficient of 1. These results indicate that removal of the Mg(2+) binding site at Tyr94 completely disrupts the cooperativity in DNA cleavage. Moreover, in quenched-flow experiments Y94F cleaves DNA about ten times more slowly than wild-type PvuII, regardless of the order of mixing. From these results we conclude that wild-type PvuII cleaves DNA in a fast and concerted reaction, because the Mg(2+) required for catalysis are already bound at the enzyme, one of them at Tyr94. We suggest that this Mg(2+) is shifted to the active center during binding of a specific DNA substrate. These results, for the first time, shed light on the pathway by which metal ions as essential cofactors enter the catalytic center of restriction endonucleases.

Published
2003

34. Modular construction of extended DNA recognition surfaces: mutant DNA-binding domains of the 434 repressor as building blocks

Author

Tiebing Liang, András Simoncsits, Marie-Louise Tjörnhammar, Jinqiu Chen, and Sándor Pongor

Subjects
Operator Regions, Genetic, Base pair, Stereochemistry, Mutant, Oligonucleotides, Repressor, Bioengineering, Biochemistry, Substrate Specificity, chemistry.chemical_compound, Viral Proteins, Tetramer, Molecular Biology, Genetics, Binding Sites, Base Sequence, Chemistry, DNA-binding domain, Base (topology), Protein Structure, Tertiary, DNA-Binding Proteins, Repressor Proteins, Mutation, Sequence motif, DNA, Biotechnology, Protein Binding
Abstract

Single-chain derivatives of the 434 repressor containing one wild-type and one mutant DNA-binding domain recognize the general operator ACAA-6 base pairs-NNNN, where the ACAA operator subsite is contacted by the wild-type and the NNNN tetramer by the mutant domain. The DNA-binding specificities of several single-chain mutants were studied in detail and the optimal subsites of the mutant domains were determined. The characterized mutant domains were used as building units to obtain homo- and heterodimeric single-chain derivatives. The DNA-binding properties of these domain-shuffled derivatives were tested with a series of designed operators of NNNN-6 base pairs-NNNN type. It was found that the binding specificities of the mutant domains were generally maintained in the new environments and the binding affinities for the optimal DNA ligands were high (with K(d) values in the range of 10(-11)-10(-10) M). Considering that only certain sequence motifs in place of the six base pair spacer can support optimal contacts between the mutant domains and their subsites, the single-chain 434 repressor mutants are highly specific for a limited subset of 14 base pair long DNA targets.

Published
2001

35. Covalent joining of the subunits of a homodimeric type II restriction endonuclease: single-chain PvuII endonuclease

Author

Marie Louise Tjörnhammar, Sándor Pongor, Tamás Raskó, Antal Kiss, and András Simoncsits

Subjects
Models, Molecular, Protein subunit, Peptide, Cleavage (embryo), Protein Engineering, Catalysis, Substrate Specificity, Endonuclease, chemistry.chemical_compound, Structural Biology, Escherichia coli, Proteus vulgaris, Amino Acid Sequence, Deoxyribonucleases, Type II Site-Specific, Protein Structure, Quaternary, Molecular Biology, chemistry.chemical_classification, biology, Base Sequence, DNA, Turnover number, DNA-Binding Proteins, Restriction enzyme, Kinetics, Protein Subunits, Enzyme, chemistry, Biochemistry, Solubility, Mutation, biology.protein, Thermodynamics, Calcium, Dimerization, Protein Binding
Abstract

The Pvu II restriction endonuclease has been converted from its natural homodimeric form into a single polypeptide chain by tandemly linking the two subunits through a short peptide linker. The arrangement of the single-chain Pvu II (sc Pvu II) is (2-157)-GlySerGlyGly-(2-157), where (2-157) represents the amino acid residues of the enzyme subunit and GlySerGlyGly is the peptide linker. By introducing the corresponding tandem gene into Escherichia coli , Pvu II endonuclease activity could be detected in functional in vivo assays. The sc enzyme was expressed at high level as a soluble protein. The purified enzyme was shown to have the molecular mass expected for the designed sc protein. Based on the DNA cleavage patterns obtained with different substrates, the cleavage specificity of the sc Pvu II is indistinguishable from that of the wild-type (wt) enzyme. The sc enzyme binds specifically to the cognate DNA site under non-catalytic conditions, in the presence of Ca 2+ , with the expected 1:1 stoichiometry. Under standard catalytic conditions, the sc enzyme cleaves simultaneously the two DNA strands in a concerted manner. Steady-state kinetic parameters of DNA cleavage by the sc and wt Pvu II showed that the sc enzyme is a potent, but somewhat less efficient catalyst; the k cat / K M values are 1.11 × 10 9 and 3.50 × 10 9 min −1 M −1 for the sc and wt enzyme, respectively. The activity decrease is due to the lower turnover number and to the lower substrate affinity. The sc arrangement provides a facile route to obtain asymmetrically modified heterodimeric enzymes.

Published
2001

36. Proteins of circularly permuted sequence present within the same organism: The major serine proteinase inhibitor from Capsicum annuum seeds

Author

András Patthy, Endre Barta, Nikolinka Antcheva, Alessandro Pintar, Sándor Pongor, András Simoncsits, and Bojidar Tchorbanov

Subjects
Models, Molecular, Serine Proteinase Inhibitors, Molecular Sequence Data, Sequence alignment, Biochemistry, Article, Evolution, Molecular, Serine, Protein structure, medicine, Chymotrypsin, Amino Acid Sequence, Disulfides, Elméleti orvostudományok, Molecular Biology, Peptide sequence, Phylogeny, biology, Thrombin, food and beverages, Orvostudományok, Circular permutation in proteins, Trypsin, Molecular biology, Kinetics, Mutation, biology.protein, Capsicum, Trypsin Inhibitors, Sequence Alignment, Factor Xa Inhibitors, medicine.drug
Abstract

The major serine proteinase inhibitor from bell pepper (Capsicum annuum, paprika) seeds was isolated, characterized, and sequenced, and its disulfide bond topology was determined. PSI-1.2 is a 52-amino-acid-long, cysteine-rich polypeptide that inhibits both trypsin (K(i) = 4.6 x 10(-9) M) and chymotrypsin (K(i) = 1.1 x 10(-8) M) and is a circularly permuted member of the potato type II inhibitor family. Mature proteins of this family are produced from precursor proteins containing two to eight repeat units that are proteolytically cleaved within, rather than between, the repeats. In contrast, PSI-1.2 corresponds to a complete repeat that was predicted as the putative ancestral protein of the potato type II family. To our knowledge, this is the first case in which two proteins related to each other by circular permutation are shown to exist in the same organism and are expressed within the same organ. PSI-1.2 is not derived from any of the known precursors, and it contains a unique amphiphilic segment in one of its loops. A systematic comparison of the related precursor repeat-sequences reveals common evolutionary patterns that are in agreement with the ancestral gene-duplication hypothesis.

Published
2001

37. Single-chain 434 repressors with altered DNA-binding specificities. Isolation of mutant single-chain repressors by phenotypic screening of combinatorial mutant libraries

Author

A, Simoncsits, M L, Tjörnhammar, S, Wang, and S, Pongor

Subjects
DNA-Binding Proteins, Repressor Proteins, Operator Regions, Genetic, Phenotype, Base Sequence, Molecular Sequence Data, Mutation, Escherichia coli, Gene Library, Plasmids
Abstract

Combinatorial mutant libraries of the single-chain 434 repressor were used to discover novel DNA-binding specificities. Members of the library contain one wild type domain and one mutant domain which are connected by a recombinant peptide linker. The mutant domain contains randomized amino acids in place of the DNA-contacting residues. The single-chain derivatives are expected to recognize artificial operators containing the DNA sequence of ACAA--6 base-pairs--NNNN, where ACAA is bound by the wild-type and NNNN by the mutant domain. An in vivo library screening method was used to isolate mutant DNA-binding domains which recognize the TTAA site of an asymmetric operator. Several mutants showed high affinity binding to the selection target and also strong (up to 80 fold) preference for TTAA over the wild type TTGT sequence. Some of the isolated mutants bound with very high affinities (10-50 pM) to operators containing the TTAC sequence, a close homologue of the TTAA selection target.

Published
2000

38. Mechanism of Oxidative Decarboxylation of Substituted Mandelic Acids by Alkaline Sodium Hypochlorite

Author

Robert Eliason, Jeffery Platz, Per H. J. Carlsen, Andras Simoncsits, O. Mønsted, and H. Weihe

Subjects
Aqueous solution, Bleach, Hydrogen, General Chemical Engineering, Inorganic chemistry, chemistry.chemical_element, Mandelic acid, Medicinal chemistry, chemistry.chemical_compound, chemistry, Deuterium, Sodium hypochlorite, Kinetic isotope effect, Oxidative decarboxylation
Abstract

The mechanism of oxidative decarboxylation of 2-hydroxy-2-phenylethanoic acid (mandelic acid) by aqueous alkaline sodium hypochlorite (commercial bleach) has been studied. Kinetic studies for a series of 4-substituted mandelic acids (CH 3 O, CH 3 , H, F, Cl, CF 3 , NO 2 substituents) gave a Hammett o value of −0.23. When deuterium was substituted for hydrogen on the α-carbon atom of mandelic acid, a secondary kinetic isotope effect, (k H /k D ), of 1.07 was obtained. On the basis of these results a model for the transition state is proposed

Published
1991
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39. Isolation of altered specificity mutants of the single-chain 434 repressor that recognize asymmetric DNA sequences containing the TTAA and TTAC subsites

Author

Sándor Pongor, András Simoncsits, Shenglun Wang, and Marie-Louise Tjörnhammar

Subjects
Stereochemistry, Mutant, Molecular Sequence Data, DNA Footprinting, DNA footprinting, Repressor, Biology, DNA-binding protein, chemistry.chemical_compound, Viral Proteins, Peptide Library, Sequence Homology, Nucleic Acid, Genetics, Escherichia coli, Amino Acid Sequence, Binding site, Peptide library, Peptide sequence, Binding Sites, Base Sequence, DNA, Molecular biology, DNA-Binding Proteins, Repressor Proteins, Kinetics, Phenotype, chemistry, Mutation, Protein Binding, Research Article
Abstract

A novel single-chain (sc) protein framework containing covalently dimerized DNA-binding domains (DBD) of the phage 434 repressor was used to construct combinatorial mutant libraries in order to isolate mutant DBDs with altered specificities. The library members contain one wild-type DBD and one mutant domain with randomized amino acids in the DNA-contacting region. Based on previous studies, the mutant sc derivatives are expected to recognize a general ACAA-6 bp-NNNN sequence, where ACAA is contacted by the wild-type and NNNN by the mutant domain. In principle, any sequence can stand for NNNN and serve as a selection target. Here an in vivo library screening method was used to isolate mutant sc repressors that interact with an asymmetric operator containing the TTAA target. Several mutants showed high affinity in vitro binding to operators containing the target and strong (up to 80-fold) preference for the TTAA target over the wild-type TTGT. Specificity studies revealed that certain mutants bound with substantially higher affinities (K(d) approximately 10(-11)M) to operators containing the TTAC sequence, a close homolog of the TTAA target. Thus, we have fortuitously isolated mutant sc repressors that show up to a several hundred-fold preference for TTAC over TTGT.

Published
1999

40. Single-Chain 434 Repressors with Altered DNA-Binding Specificities

Author

Shenglun Wang, Sándor Pongor, András Simoncsits, and Marie-Louise Tjörnhammar

Subjects
chemistry.chemical_classification, Genetics, Mutant, Wild type, Repressor, Biology, DNA sequencing, Amino acid, chemistry.chemical_compound, chemistry, Biochemistry, Protein–DNA interaction, Linker, DNA
Abstract

Combinatorial mutant libraries of the single-chain 434 repressor were used to discover novel DNA-binding specificities. Members of the library contain one wild type domain and one mutant domain which are connected by a recombinant peptide linker. The mutant domain contains randomized amino acids in place of the DNA-contacting residues. The single-chain derivatives are expected to recognize artificial operators containing the DNA sequence of ACAA - 6 base-pairs - NNNN, where ACAA is bound by the wild-type and NNNN by the mutant domain. An in vivo library screening method was used to isolate mutant DNA-binding domains which recognize the TTAA site of an asymmetric operator. Several mutants showed high affinity binding to the selection target and also strong (up to 80 fold) preference for TTAA over the wild type TTGT sequence. Some of the isolated mutants bound with very high affinities (10 to 50 pM) to operators containing the TTAC sequence, a close homologue of the TTAA selection target

Published
1999
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41. Recognition of DNA by single-chain derivatives of the phage 434 repressor: high affinity binding depends on both the contacted and non-contacted base pairs

Author

András Simoncsits, Sándor Pongor, and Jinqiu Chen

Subjects
Base pair, Operon, Stereochemistry, DNA Mutational Analysis, Repressor, Biology, DNA-binding protein, chemistry.chemical_compound, Viral Proteins, Consensus Sequence, Genetics, Consensus sequence, Viral Regulatory and Accessory Proteins, Binding site, Binding Sites, Mutagenesis, DNA, Sequence Analysis, DNA, Molecular biology, Bacteriophage lambda, DNA-Binding Proteins, Repressor Proteins, chemistry, Dimerization, Protein Binding, Research Article
Abstract

Single-chain derivatives of the phage 434 repressor, termed single-chain repressors, contain covalently dimerized DNA-binding domains (DBD) which are connected with a peptide linker in a head-to-tail arrangement. The prototype RR69 contains two wild-type DBDs, while RR*69 contains a wild-type and an engineered DBD. In this latter domain, the DNA- contacting amino acids of thealpha3 helix of the 434 repressor are replaced by the corresponding residues of the related P22 repressor. We have used binding site selection, targeted mutagenesis and binding affinity studies to define the optimum DNA recognition sequence for these single-chain proteins. It is shown that RR69 recognizes DNA sequences containing the consensus boxes of the 434 operators in a palindromic arrangement, and that RR*69 optimally binds to non-palindromic sequences containing a 434 operator box and a TTAA box of which the latter is present in most P22 operators. The spacing of these boxes, as in the 434 operators, is 6 bp. The DNA-binding of both single-chain repressors, similar to that of the 434 repressor, is influenced indirectly by the sequence of the non-contacted, spacer region. Thus, high affinity binding is dependent on both direct and indirect recognition. Nonetheless, the single-chain framework can accommodate certain substitutions to obtain altered DNA-binding specificity and RR*69 represents an example for the combination of altered direct and unchanged indirect readout mechanisms.

Published
1997

42. The type I interleukin-1 receptor mediates fever in the rat as shown by interleukin-1 receptor subtype selective ligands

Author

David Malinowsky, Jesper Bristulf, András Simoncsits, Zhen Chai, and Tamas Bartfai

Subjects
Male, medicine.medical_specialty, Fever, C-C chemokine receptor type 7, Interleukin-1 receptor, Biology, Ligands, Iodine Radioisotopes, Rats, Sprague-Dawley, Internal medicine, medicine, Enzyme-linked receptor, Animals, Humans, 5-HT5A receptor, Receptor, Janus kinase 1, General Neuroscience, Receptors, Interleukin-1, Molecular biology, Recombinant Proteins, Rats, Endocrinology, Interleukin-21 receptor, Interleukin 1 receptor, type I, Gene Deletion, Interleukin-1
Abstract

The interleukin-1 (IL-1) system possesses two distinct receptors (type I and type II) which, together with the accessory protein, mediate a multitude of responses to IL-1 alpha and IL-1 beta, including fever. So far, no receptor subtype-specific ligands have been described. Since both types of IL-1 receptors occur in the thermoregulatory areas it was unclear which IL-1 receptor type mediates fever. We report here that for a series of deletion mutants of human recombinant IL-1 beta (hrIL-1 beta), the affinity of these ligands for the type I IL-1 receptor correlates with their efficacy to evoke the fever response (hrIL-1 betades-SND52-54des-QGE48-50des-I56). Thus, the results suggest that agonist occupancy of the type I IL-1 receptor is essential for IL-1 beta-mediated fever.

Published
1995

43. Interleukin-1 receptor antagonist protein and mRNA in the rat adrenal gland

Author

Stefan Nobel, Susanne Tingsborg, Tamas Bartfai, Stefan B. Svenson, András Simoncsits, Johan Lundkvist, and Marianne Schultzberg

Subjects
Male, medicine.medical_specialty, medicine.drug_class, medicine.medical_treatment, Sialoglycoproteins, Immunology, Molecular Sequence Data, Biology, Rats, Sprague-Dawley, Estrogen-related receptor alpha, chemistry.chemical_compound, Virology, Internal medicine, medicine, Animals, RNA, Messenger, Fluorescent Antibody Technique, Indirect, Messenger RNA, Base Sequence, Adrenal gland, Receptors, Interleukin-1, Cell Biology, Receptor antagonist, Recombinant Proteins, Rats, Phenylethanolamine, Interleukin 1 Receptor Antagonist Protein, Endocrinology, medicine.anatomical_structure, Cytokine, chemistry, Adrenal Medulla, Immunohistochemistry, Rabbits, Adrenal medulla, Interleukin-1
Abstract

The occurrence of the endogenous receptor antagonist for the cytokine interleukin-1 in the rat adrenal gland was analyzed y polymerase chain reaction and by immunohistochemistry using a rabbit polyclonal antiserum. Expression of interleukin-1 receptor antagonist mRNA was demonstrated in both adrenal medulla and cortex, and a marked increase in the transcription was observed after systemic administration of lipopolysaccharides. Interleukin-1 receptor antagonist immunoreactivity was seen in the adrenal medulla, and the immunofluorescence intensity was stronger in the adrenergic, phenylethanolamine N-methyltransferase-positive cells than in the noradrenergic chromaffin cells. The distribution of interleukin-1 receptor antagonist protein is complementary to that of interleukin-1 alpha-like immunoreactivity found in phenylethanolamine N-methyltransferase-negative cells and overlaps with and resembles the distribution of interleukin-1 beta-immunoreactive material. The expression of the interleukin-1 receptor antagonist in the adrenal gland complements previous findings of large constitutive pools of interleukin-1 alpha and interleukin-1 beta in this neuroendocrine organ and also suggests participation of adrenal interleukin-1 receptor antagonist in neuroimmune modulation.

Published
1995

45. Human DNA helicase II: a novel DNA unwinding enzyme identified as the Ku autoantigen

Author

Renu Tuteja, J. Chen, S. Susic, L. Marusic, András Simoncsits, Alexander Ochem, P. Taneja, N.W. Huang, Khalilur Rahman, and Narendra Tuteja

Subjects
Blotting, Western, Molecular Sequence Data, medicine.disease_cause, DNA-binding protein, General Biochemistry, Genetics and Molecular Biology, law.invention, Substrate Specificity, chemistry.chemical_compound, law, Neutralization Tests, medicine, Humans, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Escherichia coli, Peptide sequence, Ku Autoantigen, chemistry.chemical_classification, Adenosine Triphosphatases, General Immunology and Microbiology, biology, Base Sequence, Sequence Homology, Amino Acid, General Neuroscience, DNA Helicases, Helicase, Nuclear Proteins, Antigens, Nuclear, Molecular biology, Ku Protein, DNA-Binding Proteins, Enzyme, Biochemistry, chemistry, biology.protein, Recombinant DNA, DNA, Research Article, HeLa Cells
Abstract

Human DNA helicase II (HDH II) is a novel ATP-dependent DNA unwinding enzyme, purified to apparent homogeneity from HeLa cells, which (i) unwinds exclusively DNA duplexes, (ii) prefers partially unwound substrates and (iii) proceeds in the 3' to 5' direction on the bound strand. HDH II is a heterodimer of 72 and 87 kDa polypeptides. It shows single-stranded DNA-dependent ATPase activity, as well as double-stranded DNA binding capacity. All these activities comigrate in gel filtration and glycerol gradients, giving a sedimentation coefficient of 7.4S and a Stokes radius of approximately 46 A, corresponding to a native molecular weight of 158 kDa. The antibodies raised in rabbit against either polypeptide can remove from the solution all the activities of HDH II. Photoaffinity labelling with [alpha-32P]ATP labelled both polypeptides. Microsequencing of the separate polypeptides of HDH II and cross-reaction with specific antibodies showed that this enzyme is identical to Ku, an autoantigen recognized by the sera of scleroderma and lupus erythematosus patients, which binds specifically to duplex DNA ends and is regulator of a DNA-dependent protein kinase. Recombinant HDH II/Ku protein expressed in and purified from Escherichia coli cells showed DNA binding and helicase activities indistinguishable from those of the isolated protein. The exclusively nuclear location of HDH II/Ku antigen, its highly specific affinity for double-stranded DNA, its abundance and its newly demonstrated ability to unwind exclusively DNA duplexes, point to an additional, if still unclear, role for this molecule in DNA metabolism.

Published
1994

46. Deletion mutants of human interleukin 1 beta with significantly reduced agonist properties: search for the agonist/antagonist switch in ligands to the interleukin 1 receptors

Author

Silvia Gatti, Sándor Pongor, Marie Louise Tjörnhammar, András Simoncsits, Jesper Bristulf, Miklós Cserzö, E. G. Rybakina, and Tamas Bartfai

Subjects
Agonist, Models, Molecular, medicine.drug_class, Sialoglycoproteins, Immunology, Interleukin 5 receptor alpha subunit, Molecular Sequence Data, Interleukin 1 receptor, type II, Biology, Ligands, Biochemistry, Binding, Competitive, Protein Structure, Secondary, Mice, Interleukin 26, Interleukin-4 receptor, medicine, Immunology and Allergy, Animals, Humans, Amino Acid Sequence, Molecular Biology, Interleukin 12 receptor, beta 1 subunit, DNA Primers, Sequence Deletion, Sheep, Base Sequence, Sequence Homology, Amino Acid, Receptors, Interleukin-1, Hematology, Molecular biology, Recombinant Proteins, Rats, Interleukin 1 Receptor Antagonist Protein, Interleukin 1 receptor antagonist, Mutagenesis, Cattle, Rabbits, Interleukin 1 receptor, type I, Interleukin-1
Abstract

The existence of an endogenous high affinity interleukin 1 receptor antagonist (IL-1ra) suggests that this molecule lacks some structural motif(s) which are present in the closely homologous agonist interleukin 1 beta (IL-1 beta) and which serve as the 'agonist switch' causing signal transduction by the agonist-receptor complex. The primary sequence alignment of IL-1 beta and IL-1ra sequences from different species reveals a six amino acid long motif that is quasi conserved among IL-1 beta sequences, but is missing from the IL-1ra sequences. The three-dimensional structure of human IL-1 beta was used as a template for building structural models of deletion mutants (delta SND 52-54 and delta EESNDK 50-55) using molecular graphics. These models indicated that the middle three residues SND 52-54 from the EESNDK 50-55 loop may be deleted without causing major changes in the tertiary structure of the mutant as compared to that of IL-1 beta. Residues SND 52-54 from the above loop were deleted. When compared with IL-1 beta the IL-1 beta-delta SND analog (delta SND 52-54) binds with the same affinity to type 2 IL-1 receptor but with a more than 10-fold lower affinity to type 1 IL-1 receptor. Despite of this small decrease in affinity at the type 1 receptor the delta SND 52-54 has a 1000-fold lower biological activity than IL-1 beta when tested in a thymocyte activating factor assay.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1994

47. Binding studies with recombinant human serum albumin obtained by expression of a synthetic gene in yeast. Stereoselective binding and allosteric interaction with benzodiazepine and coumarin ligands

Author

I, Fitos, J, Visy, and A, Simoncsits

Subjects
Benzodiazepines, Binding Sites, Coumarins, Genes, Fungal, Humans, Drug Interactions, Stereoisomerism, Carbon Radioisotopes, Saccharomyces cerevisiae, Chromatography, Affinity, Recombinant Proteins, Serum Albumin, Protein Structure, Tertiary
Abstract

The specific ligand binding ability of recombinant human serum albumin produced in yeast using the synthetic gene was studied by affinity chromatographic method. It was found that synthetic protein possesses those stereoselective binding and binding interactions for several chiral benzodiazepine and coumarin compounds which are characteristic of the natural human serum albumin, suggesting identical tertiary structures.

Published
1993

49. Conversion of single-stranded oligonucleotides into cloned duplexes and its consecutive application to short artificial genes

Author

Imre Cserpan, Miklos Kalman, Marie-Louise Tjörnhammar, Andras Simoncsits, O. Mønsted, and H. Weihe

Subjects
Cloning, Base Sequence, Stereochemistry, Chemistry, Oligonucleotide, General Chemical Engineering, Genetic Vectors, Molecular Sequence Data, Restriction Mapping, Cloning vector, DNA Restriction Enzymes, Molecular cloning, chemistry.chemical_compound, Restriction enzyme, Adapter (genetics), Biochemistry, Genetic Techniques, Oligodeoxyribonucleotides, Duplex (building), Genes, Synthetic, Humans, Insulin, Amino Acid Sequence, Cloning, Molecular, DNA
Abstract

A general method to convert single-stranded, chemically synthesized oligonucleotides into cloned duplexes is described. Oligonucleotides supplied with 3'-terminal extensions that are complementary to 3'-protruding ends obtained by certain restriction enzymes can be cloned either directly or with the help of an adapter molecule into double-stranded vectors. Two methods have also been developed for consecutive cloning applications. According to these methods, the synthetic oligonucleotides (and their enzymatically prepared complementary strands) are joined, one after the other, inside a cloning vector, each joining requiring one cloning step. Synthetic genes are thus built up from oligonucleotides corresponding to only one strand of the DNA. The sequential assembly of the cloned duplex takes place in the 5' to 3' direction. Each oligonucleotide is supplied with a four-nucleotide-long 3'-terminal extension, but this sequence is eliminated when the joining takes place, leaving no limiting sequence between the oligonucleotides. The two consecutive cloning methods, the adapter and the polycloning site methods, are illustrated by the assembly of short artificial genes.

Published
1991

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