Publications
2004
Przykorska A., Solecka K., Olszak K., Keith G., Nawrot B., Kuligowska E.
Wheat (Triticum vulgare) chloroplast nuclease ChSI exhibits 5' flap structure-specific endonuclease activity Article de journal
Dans: Biochemistry, vol. 43, no. 35, p. 11283-94, 2004, (0006-2960 Journal Article).
Résumé | BibTeX | Étiquettes: &, Acid, Catalysis, Chloroplasts/*enzymology, Conformation, Desorption-Ionization, DNA, Endonucleases/*chemistry/isolation, Exonucleases/chemistry/metabolism, Flap, Gov't, Hydrolysis, KEITH, Kinetics, Laser, Mass, Matrix-Assisted, Non-U.S., Nucleic, Oligonucleotides/chemical, Plant/chemistry/metabolism, purification/*metabolism, Relationship, Single-Stranded/chemistry/metabolism, Specificity, Spectrometry, Structure-Activity, Substrate, Support, synthesis/metabolism, Thermodynamics, Triticum/*enzymology
@article{,
title = {Wheat (Triticum vulgare) chloroplast nuclease ChSI exhibits 5' flap structure-specific endonuclease activity},
author = { A. Przykorska and K. Solecka and K. Olszak and G. Keith and B. Nawrot and E. Kuligowska},
year = {2004},
date = {2004-01-01},
journal = {Biochemistry},
volume = {43},
number = {35},
pages = {11283-94},
abstract = {The structure-specific ChSI nuclease from wheat (Triticum vulgare) chloroplast stroma has been previously purified and characterized in our laboratory. It is a single-strand-specific DNA and RNA endonuclease. Although the enzyme has been initially characterized and used as a structural probe, its biological function is still unknown. Localization of the ChSI enzyme inside chloroplasts, possessing their own DNA that is generally highly exposed to UV light and often affected by numerous redox reactions and electron transfer processes, might suggest, however, that this enzyme could be involved in DNA repair. The repair of some types of DNA damage has been shown to proceed through branched DNA intermediates which are substrates for the structure-specific DNA endonucleases. Thus we tested the substrate specificity of ChSI endonuclease toward various branched DNAs containing 5' flap, 5' pseudoflap, 3' pseudoflap, or single-stranded bulged structural motifs. It appears that ChSI has a high 5' flap structure-specific endonucleolytic activity. The catalytic efficiency (k(cat)/K(M)) of the enzyme is significantly higher for the 5' flap substrate than for single-stranded DNA. The ChSI 5' flap activity was inhibited by high concentrations of Mg(2+), Mn(2+), Zn(2+), or Ca(2+). However, low concentrations of divalent cations could restore the loss of ChSI activity as a consequence of EDTA pretreatment. In contrast to other known 5' flap nucleases, the chloroplast enzyme ChSI does not possess any 5'-->3' exonuclease activity on double-stranded DNA. Therefore, we conclude that ChSI is a 5' flap structure-specific endonuclease with nucleolytic activity toward single-stranded substrates.},
note = {0006-2960
Journal Article},
keywords = {&, Acid, Catalysis, Chloroplasts/*enzymology, Conformation, Desorption-Ionization, DNA, Endonucleases/*chemistry/isolation, Exonucleases/chemistry/metabolism, Flap, Gov't, Hydrolysis, KEITH, Kinetics, Laser, Mass, Matrix-Assisted, Non-U.S., Nucleic, Oligonucleotides/chemical, Plant/chemistry/metabolism, purification/*metabolism, Relationship, Single-Stranded/chemistry/metabolism, Specificity, Spectrometry, Structure-Activity, Substrate, Support, synthesis/metabolism, Thermodynamics, Triticum/*enzymology},
pubstate = {published},
tppubtype = {article}
}
2000
Delagoutte B., Keith G., Moras D., Cavarelli J.
Crystallization and preliminary X-ray crystallographic analysis of yeast arginyl-tRNA synthetase-yeast tRNAArg complexes Article de journal
Dans: Acta Crystallogr D Biol Crystallogr, vol. 56, no. Pt 4, p. 492-4, 2000, (0907-4449 Journal Article).
Résumé | BibTeX | Étiquettes: &, Arg/*chemistry/isolation, Arginine-tRNA, cerevisiae/enzymology/genetics, Crystallization, Crystallography, Fungal/chemistry/isolation, Gov't, Ligase/*chemistry/isolation, Non-U.S., purification/*metabolism, purification/metabolism, RNA, Saccharomyces, Support, Transfer, X-Ray
@article{,
title = {Crystallization and preliminary X-ray crystallographic analysis of yeast arginyl-tRNA synthetase-yeast tRNAArg complexes},
author = { B. Delagoutte and G. Keith and D. Moras and J. Cavarelli},
year = {2000},
date = {2000-01-01},
journal = {Acta Crystallogr D Biol Crystallogr},
volume = {56},
number = {Pt 4},
pages = {492-4},
abstract = {Three different crystal forms of complexes between arginyl-tRNA synthetase from the yeast Saccharomyces cerevisae (yArgRS) and the yeast second major tRNA(Arg) (tRNA(Arg)(ICG)) isoacceptor have been crystallized by the hanging-drop vapour-diffusion method in the presence of ammonium sulfate. Crystal form II, which diffracts beyond 2.2 A resolution at the European Synchrotron Radiation Facility ID14-4 beamline, belongs to the orthorhombic space group P2(1)2(1)2, with unit-cell parameters a = 129.64},
note = {0907-4449
Journal Article},
keywords = {&, Arg/*chemistry/isolation, Arginine-tRNA, cerevisiae/enzymology/genetics, Crystallization, Crystallography, Fungal/chemistry/isolation, Gov't, Ligase/*chemistry/isolation, Non-U.S., purification/*metabolism, purification/metabolism, RNA, Saccharomyces, Support, Transfer, X-Ray},
pubstate = {published},
tppubtype = {article}
}
Wilhelm M., Boutabout M., Wilhelm F. X.
Expression of an active form of recombinant Ty1 reverse transcriptase in Escherichia coli: a fusion protein containing the C-terminal region of the Ty1 integrase linked to the reverse transcriptase-RNase H domain exhibits polymerase and RNase H activities Article de journal
Dans: Biochem J, vol. 348, no. Pt 2, p. 337-42, 2000, (0264-6021 Journal Article).
Résumé | BibTeX | Étiquettes: &, Acid, affinity, Alignment, Amino, Calf, cerevisiae/*enzymology/*genetics, Chromatography, Cloning, Codon, coli, Comparative, Data, DNA, DNA/metabolism, Escherichia, Frames, Fusion, Genetic, Gov't, H, Heteroduplexes/metabolism, HIV-1, Homology, Integrases/chemistry/metabolism, Kinetics, Molecular, Non-U.S., Nucleic, Open, Polymerase/chemistry/isolation, Proteins/chemistry/isolation, purification/*metabolism, purification/metabolism, Reading, Recombinant, Retroelements/*genetics, Reverse, Ribonuclease, RNA-Directed, RNA/metabolism, Saccharomyces, Sequence, Study, Support, Templates, Terminator, Thymus/isolation, Transcriptase/chemistry
@article{,
title = {Expression of an active form of recombinant Ty1 reverse transcriptase in Escherichia coli: a fusion protein containing the C-terminal region of the Ty1 integrase linked to the reverse transcriptase-RNase H domain exhibits polymerase and RNase H activities},
author = { M. Wilhelm and M. Boutabout and F. X. Wilhelm},
year = {2000},
date = {2000-01-01},
journal = {Biochem J},
volume = {348},
number = {Pt 2},
pages = {337-42},
abstract = {Replication of the Saccharomyces cerevisiae Ty1 retrotransposon requires a reverse transcriptase capable of synthesizing Ty1 DNA. The first description of an active form of a recombinant Ty1 enzyme with polymerase and RNase H activities is reported here. The Ty1 enzyme was expressed as a hexahistidine-tagged fusion protein in Escherichia coli to facilitate purification of the recombinant protein by metal-chelate chromatography. Catalytic activity of the recombinant protein was detected only when amino acid residues encoded by the integrase gene were added to the N-terminus of the reverse transcriptase-RNase H domain. This suggests that the integrase domain could play a role in proper folding of reverse transcriptase. Several biochemical properties of the Ty1 enzyme were analysed, including the effect of MgCl(2), NaCl, temperature and of the chain terminator dideoxy GTP on its polymerase activity. RNase H activity was examined by monitoring the cleavage of a RNA-DNA template-primer. Our results suggest that the distance between the RNase H and polymerase active sites corresponds to the length of a 14-nucleotide RNA-DNA heteroduplex. The recombinant protein produced in E. coli should be useful for further biochemical and structural analyses and for a better understanding of the role of integrase in the activation of reverse transcriptase.},
note = {0264-6021
Journal Article},
keywords = {&, Acid, affinity, Alignment, Amino, Calf, cerevisiae/*enzymology/*genetics, Chromatography, Cloning, Codon, coli, Comparative, Data, DNA, DNA/metabolism, Escherichia, Frames, Fusion, Genetic, Gov't, H, Heteroduplexes/metabolism, HIV-1, Homology, Integrases/chemistry/metabolism, Kinetics, Molecular, Non-U.S., Nucleic, Open, Polymerase/chemistry/isolation, Proteins/chemistry/isolation, purification/*metabolism, purification/metabolism, Reading, Recombinant, Retroelements/*genetics, Reverse, Ribonuclease, RNA-Directed, RNA/metabolism, Saccharomyces, Sequence, Study, Support, Templates, Terminator, Thymus/isolation, Transcriptase/chemistry},
pubstate = {published},
tppubtype = {article}
}
1998
Brigotti M., Keith G., Pallanca A., Carnicelli D., Alvergna P., Dirheimer G., Montanaro L., Sperti S.
Identification of the tRNAs which up-regulate agrostin, barley RIP and PAP-S, three ribosome-inactivating proteins of plant origin Article de journal
Dans: FEBS Lett, vol. 431, no. 2, p. 259-62, 1998, (0014-5793 Journal Article).
Résumé | BibTeX | Étiquettes: &, Acid, Adenosine, Base, Conformation, Data, effects/*metabolism, Gov't, Hordeum/metabolism, Hydrolases/*metabolism, Molecular, N-Glycosyl, Non-U.S., Nucleic, Plant, Plant/chemistry/isolation, Proteins/drug, purification/*metabolism, RNA, Sequence, Support, Transfer/chemistry/isolation, Triphosphate/pharmacology, Up-Regulation
@article{,
title = {Identification of the tRNAs which up-regulate agrostin, barley RIP and PAP-S, three ribosome-inactivating proteins of plant origin},
author = { M. Brigotti and G. Keith and A. Pallanca and D. Carnicelli and P. Alvergna and G. Dirheimer and L. Montanaro and S. Sperti},
year = {1998},
date = {1998-01-01},
journal = {FEBS Lett},
volume = {431},
number = {2},
pages = {259-62},
abstract = {Ribosome-inactivating proteins (RIP) are RNA-N-glycosidases widely diffused in plants which depurinate ribosomal RNA at a specific universally conserved position, A4324 in rat ribosomes. A small group of RIPs (cofactor-dependent RIPs) require ATP and tRNA to reach maximal activity on isolated ribosomes. The tRNA which stimulates gelonin was identified as tRNA(Trp). The present paper reports the identification of three other tRNAs which stimulate agrostin (tRNA(Ala)), barley RIP (tRNA(Ala), tRNA(Val)) and PAP-S (tRNA(Gly)), while for tritin-S no particular stimulating tRNA emerged. The sequences of tRNA(Val) and tRNA(Gly) correspond to the already known ones (rabbit and man, respectively). The tRNA(Ala) (anticodon IGC) identifies a new isoacceptor. Only the stimulating activity of the tRNA(Ala) for agrostin approaches the specificity previously observed for the couple gelonin-tRNA(Trp).},
note = {0014-5793
Journal Article},
keywords = {&, Acid, Adenosine, Base, Conformation, Data, effects/*metabolism, Gov't, Hordeum/metabolism, Hydrolases/*metabolism, Molecular, N-Glycosyl, Non-U.S., Nucleic, Plant, Plant/chemistry/isolation, Proteins/drug, purification/*metabolism, RNA, Sequence, Support, Transfer/chemistry/isolation, Triphosphate/pharmacology, Up-Regulation},
pubstate = {published},
tppubtype = {article}
}
1995
Gabryszuk J., Keith G., Monko M., Kuligowska E., Dirheimer G., Szarkowski J. W., Przykorska A.
Structural specificity of nuclease from wheat chloroplasts stroma Article de journal
Dans: Nucleic Acids Symp Ser, no. 33, p. 115-9, 1995, (0261-3166 Journal Article).
Résumé | BibTeX | Étiquettes: &, Acid, Asp/chemistry/genetics/metabolism, Base, Binding, Chloroplasts/*enzymology, Conformation, Data, Endonucleases/isolation, Fungal/chemistry/genetics/metabolism, Gov't, Molecular, Non-U.S., Nucleic, Phe/chemistry/genetics/metabolism, purification/*metabolism, RNA, RNA/chemistry/metabolism, Sequence, Sites, Specificity, Substrate, Support, Transfer, Triticum/*enzymology
@article{,
title = {Structural specificity of nuclease from wheat chloroplasts stroma},
author = { J. Gabryszuk and G. Keith and M. Monko and E. Kuligowska and G. Dirheimer and J. W. Szarkowski and A. Przykorska},
year = {1995},
date = {1995-01-01},
journal = {Nucleic Acids Symp Ser},
number = {33},
pages = {115-9},
abstract = {A single-strand-specific nuclease from wheat chloroplasts (ChS nuclease) was tested as a tool for RNA secondary and tertiary structure investigations, using yeast tRNA(Phe) and yeast tRNA(Asp) as models. In tRNA(Phe) the nuclease introduced main primary cleavages at positions U33, A35 and A36 in the anticodon-loop and G18 and G19 in the D-loop. In tRNA(Asp) the main primary cleavages occurred at positions U33, G34 and U35 in the anticodon-loop and the lower one at position C20:1 in the D-loop. No primary cleavages were observed within the double-stranded stems. Because ChS nuclease has (i) a low molecular weight, (ii) a wide pH range of action (5.0 to 7.5) (iii) no divalent cation requirement in the reaction mixture and (iv) can be obtained as a pure protein in rather large quantities it appeared to be a very good tool for secondary and tertiary structural studies of RNAs.},
note = {0261-3166
Journal Article},
keywords = {&, Acid, Asp/chemistry/genetics/metabolism, Base, Binding, Chloroplasts/*enzymology, Conformation, Data, Endonucleases/isolation, Fungal/chemistry/genetics/metabolism, Gov't, Molecular, Non-U.S., Nucleic, Phe/chemistry/genetics/metabolism, purification/*metabolism, RNA, RNA/chemistry/metabolism, Sequence, Sites, Specificity, Substrate, Support, Transfer, Triticum/*enzymology},
pubstate = {published},
tppubtype = {article}
}