Your search keyword '"De Recondo AM"' showing total 71 results

1. Observer la Science en action : Ou comment les sciences de l'information permettent de suivre l'évolution et la convergence des concepts de prion et d'hérédité non mendélienne dans la littérature.

Author

Maunoury, MT, primary, De Recondo, AM, additional, and Turner, WA, additional

Published

1999

2. New Approaches in Eukaryotic DNA Replication

Author

de Recondo Am, Korn D, and Kohiyama M

Subjects

DNA re-replication, DNA replication factor CDT1, Licensing factor, Control of chromosome duplication, biology, Chemistry, Semiconservative replication, biology.protein, Origin recognition complex, Eukaryotic DNA replication, Computational biology, Pre-replication complex

Published

1983

3. [Is the replicon model applicable to higher eukaryotes?].

Author

de Recondo AM

Subjects

Animals, Base Sequence, Drosophila melanogaster embryology, Embryo, Nonmammalian cytology, Humans, Molecular Sequence Data, Regulatory Sequences, Nucleic Acid, Replication Origin physiology, S Phase, Saccharomyces cerevisiae cytology, Species Specificity, Xenopus laevis embryology, DNA Replication, Eukaryotic Cells cytology, Models, Genetic, Replicon

Abstract

Thirty-five years ago, the Replicon model was proposed by Jacob, Brenner and Cuzin to explain the regulation of the Escherichia coli DNA replication. In this model, a genetic element, the replicator, would function as a target for a positive-acting initiator protein to drive the initiation of replication. This simple idea has been extremely useful in providing a framework to explain how the initiation of DNA replication occurs in all organisms. The identification of autonomously replicating sequences (ARSs) in budding yeast was the first extension of the Replicon model to eukaryotic chromosomes. In the higher eukaryotes, many biochemically defined replication start sites have been identified; nevertheless there is little genetic data indicating that these sites contain DNA sequences that are essential for replication. Moreover, in early Xenopus or Drosophila embryos, specific DNA sequences are not required either for initiating DNA replication or for preventing rereplication within a single cell cycle. This apparently fundamental difference between replicators in yeast and metazoan embryos may be more superficial than initially thought. In fact, during the past several years, an eukaryotic initiator conserved from yeast to man and also present in embryonic cells, the origin recognition complex (ORC), has been characterized, suggesting that the initiation mechanism should be essentially the same in prokaryotes and eukaryotes. In addition, the efficient once-per-cell-cycle replication of DNA is ensured in eukaryotes by a simple two-step mechanism in which the assembly of stable prereplicative complexes (PreRCs) at origins precedes and is temporally separated from the firing of these origins. Regulation of this process by cyclin-dependent kinases ensures that when origins fire, the cell is no longer competent to form new PreRCs. Now, it is important to understand how these complexes are remodeled or disassembled during replication initiation to trigger the transition from a stable origin-bound complex to a mobile replication machine.

Published

1998

4. Inter-species DNA polymerase delta chimeras are functional in Saccharomyces cerevisiae.

Author

Moussy G, De Recondo AM, and Baldacci G

Subjects

Base Sequence, DNA Polymerase III, DNA-Directed DNA Polymerase genetics, Molecular Sequence Data, Oligodeoxyribonucleotides, Recombinant Fusion Proteins genetics, Species Specificity, DNA-Directed DNA Polymerase metabolism, Recombinant Fusion Proteins metabolism, Saccharomyces cerevisiae enzymology, Schizosaccharomyces enzymology

Abstract

The catalytic subunits of DNA polymerase delta of Schizosaccharomyces pombe and Saccharomyces cerevisiae share over 50% identity. The capability of S. pombe DNA polymerase delta to complement two thermosensitive mutants of S. cerevisiae was studied in vivo and it was determined that complementation was allele dependent. However, DNA polymerase delta from S. pombe did not restore growth of a S. cerevisiae strain containing a disrupted chromosomal copy of the POL3 gene that encodes DNA polymerase delta. To identify the regions of DNA polymerase delta responsible for species-specific interactions, we constructed different chimeras with S. cerevisiae and S. pombe DNA polymerase delta genes. The growth of a S. cerevisiae strain with a disrupted chromosomal POL3 gene was studied after transformation with plasmids expressing different chimeras. A 1254-bp region located in the 3' region of the S. cerevisiae POL3 gene is responsible for species-specific functions.

Published

1995

5. DNA polymerase delta is required for the replication feedback control of cell cycle progression in Schizosaccharomyces pombe.

Author

Francesconi S, De Recondo AM, and Baldacci G

Subjects

Cdc20 Proteins, Checkpoint Kinase 1, DNA Polymerase III, Feedback, Fungal Proteins genetics, Genes, Fungal genetics, Genes, Lethal, Mitosis, Protein Kinases genetics, Radiation Tolerance, Schizosaccharomyces genetics, Schizosaccharomyces growth & development, Schizosaccharomyces pombe Proteins, Sequence Deletion physiology, Temperature, Cell Cycle Proteins, DNA Replication physiology, DNA-Directed DNA Polymerase physiology, S Phase genetics, Saccharomyces cerevisiae Proteins, Schizosaccharomyces enzymology

Abstract

DNA replication and DNA repair are essential cell cycle steps ensuring correct transmission of the genome. The feedback replication control system links mitosis to completion of DNA replication and partially overlaps the radiation checkpoint control. Deletion of the chk1/rad27 gene abolishes the radiation but not the replication feedback control. Thermosensitive mutations in the DNA polymerase delta, cdc18 or cdc20 genes lead cells to arrest in the S phase of the cell cycle. We show that strains carrying any of these mutations enter lethal mitosis in the absence of the radiation checkpoint chk1/rad27. We interpret these data as an indication that an assembled replisome is essential for replication dependent control of mitosis and we propose that the arrest of the cell cycle in the thermosensitive mutants is due to the chk1+/rad27+ pathway, which monitors directly DNA for signs of damage.

Published

1995

6. In vivo phosphorylation, mitotic behavior, and nuclear binding of the catalytic subunit of DNA polymerase alpha in fission yeast.

Author

Bouvier D, De Recondo AM, and Baldacci G

Subjects

Binding Sites, Cell Cycle, Cell Nucleus chemistry, Cell Nucleus metabolism, DNA Polymerase II analysis, DNA Polymerase II chemistry, Mitosis, Phosphorylation, Serine metabolism, DNA Polymerase II metabolism, Schizosaccharomyces metabolism

Abstract

We studied the phosphorylation of fission yeast p170 (the catalytic subunit of DNA polymerase alpha) and its relationship to the cell cycle. In exponentially growing cells, p170 was phosphorylated at serine residues. Its phosphorylation level did not quantitatively change when cell strains carrying conditional cell division cycle (cdc) mutations arrested at different stages of the cell cycle, under restrictive growth conditions. Especially, phosphorylation did not significantly vary when cells carrying the temperature-sensitive cdc2-33 mutation were shifted to the restrictive temperature, which indicates a minor role, if any, of p34cdc2 in this process. Also, the extent of p170 phosphorylation did not remarkably change during mitosis, a situation which differs from that reported for human DNA polymerase alpha. We used immunofluorescence microscopy and cell fractionation to study the intracellular distribution of p170. We here provide evidence that the protein remains tenaciously associated with nuclear structures throughout the cell cycle and is not redistributed into the cytoplasm at mitosis, as it is in human cells. A possible correlation between phosphorylation, nuclear binding, and mitotic behavior of DNA polymerase alpha catalytic subunits in eukaryotes is therefore conceivable.

Published

1993

7. DNA polymerase alpha in the fission yeast Schizosaccharomyces pombe: identification and tracing of the catalytic subunit during the cell cycle.

Author

Bouvier D, Pignede G, Damagnez V, Tillit J, de Recondo AM, and Baldacci G

Subjects

Blotting, Western, Chromatography, Affinity, Cloning, Molecular, DNA Polymerase II analysis, DNA Polymerase II chemistry, Escherichia coli genetics, Escherichia coli metabolism, Kinetics, Peptide Mapping, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Schizosaccharomyces growth & development, Schizosaccharomyces metabolism, Temperature, beta-Galactosidase genetics, beta-Galactosidase metabolism, Cell Cycle physiology, DNA Polymerase II metabolism, Schizosaccharomyces enzymology

Abstract

A recombinant protein was obtained in Escherichia coli by subcloning part of the Schizosaccharomyces pombe POL1 gene at the 3'-end of lacZ. Antibodies raised against this protein were used to identify the POL1 gene product in extracts of exponentially growing S. pombe cells. A major 170-kDa protein, whose structure and properties were typical of the catalytic subunit of eukaryotic DNA polymerases alpha (pol alpha), was detected. The same antibodies were used to trace pol alpha and to quantify its level during the S. pombe cell cycle. We found that pol alpha was present at all stages of the cycle and that its cellular pool was subject to limited (three-fold) increase in G1 and S phases, with a decline to the initial level soon after. In addition, we found that a second form of pol alpha with slightly lower molecular weight (165 kDa) existed only during late G1 and S phases. Moreover, absence of initiation or perturbations in the course of DNA replication induced overproduction of the 165-kDa form.

Published

1992

8. Expression of the catalytic subunits of pol alpha and pol delta from fission yeast Schizosaccharomyces pombe.

Author

Pignède G, Moussy G, Bouvier D, Tillit J, de Recondo AM, and Baldacci G

Subjects

Amino Acid Sequence, Codon, DNA Polymerase III, Escherichia coli genetics, Gene Expression Regulation, Enzymologic, Gene Expression Regulation, Fungal, Microscopy, Fluorescence, Molecular Sequence Data, Phosphorylation, Recombinant Proteins biosynthesis, Subcellular Fractions enzymology, DNA Polymerase II metabolism, DNA-Directed DNA Polymerase metabolism, Schizosaccharomyces enzymology

Abstract

This paper reports on expression and posttranslational modifications of the catalytic subunits of pol alpha and pol delta from fission yeast Schizosaccharomyces pombe. Okadaic acid treatment of S. pombe spheroplasts in amounts known to inhibit phosphatases 1 and 2A resulted in decreased proteolysis of both pol alpha and pol delta. Computer analysis of pol alpha and pol delta sequences confirmed the presence of consensus motifs for protein phosphorylation. Indirect immunofluorescence microscopy of S. pombe cells showed nuclear location of both proteins in wild type cells. However, whereas cells transformed with a vector expressing pol alpha produced a clear increase of the nuclear signal, no increase was detectable in cells transformed with pol delta. This observation suggests the existence of a mechanism limiting the cell concentration of pol delta in the cell. Constitutive expression of S. pombe pol delta in E. coli was possible only with vectors containing truncated forms of its gene, indicating a toxic effect of pol delta on E. coli growth.

Published

1992

9. Characterization of the POL3 gene product from Schizosaccharomyces pombe indicates inter-species conservation of the catalytic subunit of DNA polymerase delta.

Author

Pignède G, Bouvier D, de Recondo AM, and Baldacci G

Subjects

Amino Acid Sequence, Base Sequence, Blotting, Western, Chromosome Mapping, Cloning, Molecular, Cross Reactions, DNA Polymerase III, DNA-Directed DNA Polymerase immunology, Molecular Sequence Data, RNA, Fungal genetics, RNA, Messenger genetics, Restriction Mapping, Saccharomyces cerevisiae enzymology, Schizosaccharomyces enzymology, Sequence Alignment, Transcription, Genetic, DNA-Directed DNA Polymerase genetics, Genes, Fungal, Schizosaccharomyces genetics

Abstract

The Schizosaccharomyces pombe POL3 gene was isolated by sequence homology with a region of the Saccharomyces cerevisiae POL3 gene, the only gene sequenced to date encoding the catalytic subunit of eukaryotic DNA polymerase delta. The fission yeast POL3 gene contains a 52 base-pair (bp) intron and encodes a 3600 bp transcript the 5'-end of which is located 32 bp upstream from the initiation codon. The polypeptides predicted from budding and fission yeast POL3 genes share 52% of conserved amino acid residues and have a 60% identical central region. This structural conservation of the catalytic subunit of DNA polymerases delta is probably related to functional constraints. A portion of the most conserved region was used to raise antibodies against an S. pombe polymerase delta/beta-galactosidase fusion protein expressed in Escherichia coli. The purified antibodies recognized a 123,000 Da protein in S. pombe wild-type cell extracts and inhibited an aphidicolin-sensitive DNA polymerase activity that was distinct from DNA polymerase alpha. The antibodies also detected a 140,000 Da protein in extracts from different proliferating mammalian cells, indicating that the catalytic subunits of DNA polymerase delta are highly conserved between yeast and higher eukaryotes.

Published

1991

10. The POL1 gene from the fission yeast, Schizosaccharomyces pombe, shows conserved amino acid blocks specific for eukaryotic DNA polymerases alpha.

Author

Damagnez V, Tillit J, de Recondo AM, and Baldacci G

Subjects

Amino Acid Sequence, Base Sequence, Cloning, Molecular, DNA, DNA Polymerase II biosynthesis, DNA, Fungal, Humans, Introns, Molecular Sequence Data, Molecular Weight, Multigene Family, Saccharomyces cerevisiae genetics, Schizosaccharomyces enzymology, Sequence Homology, Nucleic Acid, Transcription, Genetic, DNA Polymerase II genetics, Genes, Fungal, Schizosaccharomyces genetics

Abstract

The POL1 gene of the fission yeast, Schizosaccharomyces pombe, was isolated using a POL1 gene probe from the budding yeast Saccharomyces cerevisiae, cloned and sequenced. This gene is unique and located on chromosome II. It includes a single 91 bp intron and is transcribed into a mRNA of about 4500 nucleotides. The predicted protein coded for by the S. pombe POL1 gene is 1405 amino acid long and its calculated molecular weight is about 160,000 daltons. This peptide contains seven amino acid blocks conserved among several DNA polymerases from different organisms and shares overall 37% and 34% identity with DNA polymerases alpha from S. cerevisiae and human cells, respectively. These results indicate that this gene codes for the S. pombe catalytic subunit of DNA polymerase alpha. The comparisons with human DNA polymerase alpha and with the budding yeast DNA polymerases alpha, delta and epsilon reveal conserved blocks of amino acids which are structurally and/or functionally specific only for eukaryotic alpha-type DNA polymerases.

Published

1991

11. Identification of a gene encoding the predicted ribosomal protein L7b divergently transcribed from POL1 in fission yeast Schizosaccharomyces pombe.

Author

Damagnez V, de Recondo AM, and Baldacci G

Subjects

Amino Acid Sequence, Animals, Base Sequence, DNA, Fungal, Genes, Fungal, Introns, Molecular Sequence Data, Open Reading Frames, Promoter Regions, Genetic, Rats, Restriction Mapping, Sequence Homology, Nucleic Acid, DNA Polymerase II genetics, Genes, pol, Ribosomal Proteins genetics, Schizosaccharomyces genetics, Schizosaccharomyces pombe Proteins, Transcription, Genetic

Abstract

A 0.85 Kb RNA molecule is transcribed in the region upstream from the 5'-end of the S. pombe POL1 gene encoding the catalytic subunit of DNA polymerase alpha. The nucleotide sequence of the DNA region hybridizing with the 0.85 Kb transcript allowed us to identify an open reading frame coding for a predicted peptide which shows 50% identity with the rat ribosomal protein L7 and which is transcribed divergently from POL1. We have named this gene RPL7b because of the existence in S. pombe of a different sequence, named RPL7, which also codes for a putative protein showing homology with the rat ribosomal protein L7. The RPL7b gene includes a 291 bp-long intron containing the sequences necessary for intron excision and RNA splicing in S. pombe. The precise location of the intron was established by amplification and sequencing of a partial cDNA copy of the mRNA, whereas the initiation site of transcription was determined by reverse transcription of the 5' region of the mRNA. The 320 bp separating the starting methionine codons of RPL7b and POL1 genes should contain the signals necessary for their divergent transcription and regulation. The sequence 5'-AAGACAGTCACA-3', whose primary structure is homologous to a conserved block present in the 5'-untranscribed regions of other S. pombe genes of ribosomal proteins, is located about 50 bp upstream the transcription initiation site of RPL7b.

Published

1991

12. The DNA polymerase from the archaebacterium Sulfolobus acidocaldarius: a thermophilic and thermoresistant enzyme which can perform automated polymerase chain reaction.

Author

Salhi S, Elie C, Jean-Jean O, Meunier-Rotival M, Forterre P, Rossignol JM, and de Recondo AM

Subjects

Adenoviruses, Human genetics, Base Sequence, DNA genetics, DNA-Directed DNA Polymerase isolation & purification, Enzyme Stability, Escherichia coli genetics, Genes, Bacterial, Genes, Viral, Hepatitis B virus genetics, Hot Temperature, Information Systems, Molecular Sequence Data, Plasmids, Restriction Mapping, Bradyrhizobiaceae enzymology, DNA-Directed DNA Polymerase metabolism, Nucleic Acid Amplification Techniques, Polymerase Chain Reaction methods

Abstract

A DNA polymerase purified from the thermoacidophilic archaebacterium Sulfolobus acidocaldarius was used to perform automated DNA amplification at 70 degrees C as well as site directed mutagenesis by Polymerase Chain Reaction (P.C.R.). The yield of amplification performed at optimum MgCl2 concentration for the Taq or the S. acidocaldarius DNA polymerase, for the same DNA target, was equivalent. The ability of S. acidocaldarius DNA polymerase to perform P.C.R. under less stringent requirement of MgCl2 concentration gives this enzyme a non-negligible advantage over the Taq DNA polymerase.

Published

1990

13. Functional implications related to the gene structure of the elongation factor EF-Tu from Halobacterium marismortui.

Author

Baldacci G, Guinet F, Tillit J, Zaccai G, and de Recondo AM

Subjects

Amino Acid Sequence, Amino Acids analysis, Base Composition, Cloning, Molecular, DNA Restriction Enzymes, Electrophoresis, Polyacrylamide Gel, Escherichia coli genetics, Macromolecular Substances, Molecular Sequence Data, Nucleic Acid Hybridization, Protein Conformation, Sequence Homology, Nucleic Acid, DNA, Bacterial genetics, Halobacterium genetics, Peptide Elongation Factor Tu genetics

Abstract

The primary structure of the gene for the elongation factor EF-Tu from the halophilic archaebacterium Halobacterium marismortui (hEF-Tu) is described. It is the first gene of a halophilic elongation factor EF-Tu to be sequenced. When the sequence of hEF-Tu is compared to that of homologous proteins from other organisms, the highest identity (61%) is found with EF-Tu from Methanococcus vannielii, a non-halophilic archaebacterium. In the search for halophilic characteristics therefore the most appropriate comparison is with the M. vannielii sequence. The excess of acidic amino acid residues in the hEF-Tu sequence (already observed in the composition of other halophilic proteins) results to a large extent from changes of Lys, Asn or Gln to Asp or Glu. A structural analysis algorithm applied to the halophilic sequence places these acidic residues on the surface of the protein. The corresponding residues in the crystal structure of the first domain of EF-Tu from E. coli (the only EF-Tu structure available) are grouped in patches on the protein surface, in each of which several residues that may be far apart in the sequence come quite close to each other in the tertiary structure.

Published

1990

14. DNA polymerase from Sulfolobus acidocaldarius. Replication at high temperature of long stretches of single-stranded DNA.

Author

Salhi S, Elie C, Forterre P, de Recondo AM, and Rossignol JM

Subjects

Archaea genetics, Time Factors, Bacteriophages genetics, DNA Replication, DNA, Single-Stranded, DNA-Directed DNA Polymerase metabolism, Temperature

Abstract

The activity of a homogeneous DNA polymerase from the thermophilic archaebacterium, Sulfolobus acidocaldarius, on a singly primed, single-stranded recombinant phage M13 DNA has been examined. At the optimal temperature (70 to 75 degrees C) this template is efficiently replicated in ten minutes using a ratio of enzyme molecule to primed-template of 0.8. Analysis of DNA products during the course of polymerization shows that species of quite homogeneous size are observed and that the number of primers extended by the enzyme is constant, whatever the enzyme molecule to primed template ratio is in the range 1/50 to 2, indicating that the 100 x 10(3) Mr DNA polymerase from S. acidocaldarius is randomly recycled on the template molecules. At non-optimal temperature (60 degrees C and 80 degrees C) the distribution of products observed indicated the presence of arrest sequences; some have been shown to be reversible. One of these pausing signals detected at 80 degrees C has been further analysed, and has been found to be DNA sequence-dependent.

Published

1989

15. Deoxyribonucleic acid of Cancer pagurus. II. Template activity for a DNA-dependent DNA polymerase of eukaryotic cells.

Author

de Recondo AM, Londos-Gagliardi D, and Aubel-Sadron G

Subjects

Animals, DNA metabolism, DNA, Single-Stranded metabolism, Dactinomycin pharmacology, Endodeoxyribonucleases metabolism, Eukaryotic Cells metabolism, Fungal Proteins metabolism, Hot Temperature, Kinetics, Liver enzymology, Liver Regeneration, Neurospora crassa enzymology, Nucleic Acid Denaturation, Nucleic Acid Synthesis Inhibitors pharmacology, Poly dA-dT chemical synthesis, Poly dA-dT isolation & purification, Rats, Templates, Genetic, Brachyura chemistry, DNA isolation & purification, DNA Replication drug effects, DNA-Directed DNA Polymerase metabolism, Poly dA-dT metabolism

Abstract

The template activity of Cancer pagurus DNA and its two components (poly d(A-T) and main component) in response to a DNA polymerase purified from regenerating rat liver has been studied and compared to the results previously obtained with synthetic templates. In the double-stranded native state, whole crab DNA and the main component were poor templates. Their replication was increased by thermal denaturation and inhibited by actinomycin. Like the synthetic copolymer poly[d(A-T).d(T-A)], native crab poly d(A-T) could be copied and its duplication was not inhibited by actinomycin. The structural difference between native poly d(A-T) Form I, isolated on a density gradient, and partially renatured poly d(A-T) Form II, isolated on hydroxylapatite, resulted in a modification of their template activity. The kinetic studies of [(3)H] dGMP and [(3)H] dAMP incorporation confirmed the importance of single-stranded regions (particulary dC regions) in the initiation of the in vitro duplication.

Published

1974

16. Single-strand DNA binding protein from rat liver: interactions with supercoiled DNA.

Author

Bonne C, Duguet M, and de Recondo AM

Subjects

Animals, Carrier Proteins, DNA, DNA, Viral metabolism, DNA-Binding Proteins, Microscopy, Electron, Protein Binding drug effects, Rats, Simian virus 40, Sodium Chloride pharmacology, DNA, Single-Stranded metabolism, DNA, Superhelical metabolism, Liver metabolism

Abstract

As shown by competition experiments, the single-strand DNA binding protein from normal rat liver (S25) interacts preferentially with supercoiled DNA compared to relaxed DNA duplexes. When followed both by sedimentation analysis and by nitrocellulose filter assay, the binding of S25 to SV40 supercoiled DNA (FI) appears to be non-cooperative. Saturation is reached at a protein to DNA weight ratio of about 2. The S25-DNA complexes prefixed with glutaraldehyde appear as beaded structures having an average of 14 to 16 beads per SV40 DNA molecules. Cross-linking of S25 bound to SV40 DNA by dimethyl suberimidate allows to detect oligomeric structures containing a maximum of twenty monomers of S25. When complexes are treated by glutaraldehyde, 10% of the genome become resistant against micrococcal nuclease. Moreover, S25 affects the DNA helical structure. Superhelical forms are generated by the association of S25 with SV40 DNA, in the presence of nicking-closing enzyme.

Published

1980

17. Detection of a DNA-binding factor associated with mammalian DNA polymerase-alpha.

Author

Méchali M and de Recondo AM

Subjects

Animals, Kinetics, Liver enzymology, Nucleoproteins, Protein Binding, Rats, Simian virus 40, Carrier Proteins, DNA Polymerase II metabolism, DNA, Viral, DNA-Directed DNA Polymerase metabolism

Published

1978

18. Single-strand deoxyribonucleic acid binding protein from rat liver changes the helical structure of deoxyribonucleic acid.

Author

Duguet M, Bonne C, and de Recondo AM

Subjects

Animals, DNA Topoisomerases, Type I metabolism, DNA, Superhelical metabolism, Liver metabolism, Microscopy, Electron, Nucleic Acid Conformation, Rats, Simian virus 40 metabolism, Carrier Proteins metabolism, DNA, Single-Stranded metabolism, DNA, Viral metabolism

Abstract

Incubation of rat liver single-strand DNA binding protein S25 with covalently closed relaxed SV40 DNA in the presence of rat liver topoisomerase I induced a decrease in the linking number LK of DNA, so that it appeared negatively supertwisted after removal of the protein. delta LK was found to be a linear function of protein to DNA ratio and reached a plateau corresponding to about 15 superhelical turns. The same result was obtained when S25 was incubated with form I or form Ir before addition of topoisomerase I or when SV40 was replaced by PM2 DNA. The observed reduction in the linking number of DNA when it is closed in the presence of rat liver protein S25 can be explained either by supercoiling of DNA induced by S25 or by detorsion or unwinding of DNA.

Published

1981

19. [New approaches in eukaryotic DNA replication].

Author

de Recondo AM, Kohiyama M, and Korn D

Subjects

Adenosine Triphosphatases physiology, Animals, Bacterial Proteins physiology, Cattle, Chick Embryo, Coliphages physiology, DNA Helicases physiology, DNA Repair, DNA Topoisomerases, Type I physiology, DNA, Circular biosynthesis, Drosophila, Endonucleases metabolism, Escherichia coli physiology, Exonucleases metabolism, Female, Humans, Mice, Molecular Weight, Peptide Initiation Factors physiology, Pregnancy, Rats, Rec A Recombinases, Simian virus 40 physiology, T-Phages physiology, Xenopus, Cell Physiological Phenomena, DNA Replication, DNA-Directed DNA Polymerase physiology, Eukaryotic Cells physiology

Published

1980

20. Rat liver HMG1: a physiological nucleosome assembly factor.

Author

Bonne-Andrea C, Harper F, Sobczak J, and De Recondo AM

Subjects

Animals, DNA Topoisomerases, Type I metabolism, DNA, Single-Stranded metabolism, Dimethyl Suberimidate, High Mobility Group Proteins, Micrococcal Nuclease, Microscopy, Electron, Protein Binding, Rats, Chromosomal Proteins, Non-Histone metabolism, Histones metabolism, Liver physiology, Nucleosomes physiology

Abstract

Incubation of rat liver single-stranded DNA-binding protein HMG1 with the four core histones at 0.15 M NaCl favors histone association primarily into tetramers and, to a lesser extent, into octamers. The assembly of pre-formed histone-HMG1 complexes with DNA yields nucleosome-like subunits which satisfy most of the criteria defining native core particles: (i) the circular DNA extracted from the complexes is supercoiled indicating that the initially relaxed DNA acquired superhelical turns during complex formation in the presence of topoisomerase I; (ii) the digestion of the complexes with micrococcal nuclease yields a DNA fragment of approximately 140 bp in length; (iii) electron microscopy of the reconstituted complexes shows a beaded structure with the DNA wrapped around the histone cores, leading to a reduction in the contour length of the genome compared with free DNA. Moreover, in the presence of HMG1, nucleosome assembly occurs rapidly at 0.15 M NaCl. Therefore, in addition to its DNA-binding properties, HMG1 mediates the assembly of nucleosomes in vitro under conditions of physiological ionic strength. The possible involvement of these properties in the DNA replication process is discussed.

Published

1984

21. Eukaryotic DNA polymerase alpha. Structural analysis of the enzyme from regenerating rat liver.

Author

Mechali M, Abadiedebat J, and de Recondo AM

Subjects

Animals, Macromolecular Substances, Microscopy, Electron, Molecular Weight, Protein Conformation, Rats, DNA Polymerase I isolation & purification, DNA-Directed DNA Polymerase isolation & purification, Liver enzymology, Liver Regeneration

Abstract

The DNA polymerase alpha from regenerating rat liver has been purified to near homogeneity. The most highly purified fraction gave a single stained band on native polyacrylamide gel electrophoresis, and DNA polymerase alpha activity was coincident with this band. On pore gradient gel electrophoresis, a molecular radius of 72 A was obtained for the enzyme. On denaturing sodium dodecyl sulfate-polyacrylamide gel, five polypeptides were reproducibly resolved, corresponding to molecular weights of 156,000, 64,000, 61,000, 58,000, and 54,000. The catalytic subunit correlated with the 156,000-dalton polypeptide. In the native state, the separated 54,000- to 64,000-dalton polypeptides interacted among themselves to constitute a hetero oligomer of apparent high molecular weight without DNA polymerase activity. Electron microscopy studies of the enzyme confirmed the biochemical results. The specific activity of the isolated catalytic subunit was in all cases lower than when it was associated with the 54,000- to 64,000-dalton structure.

Published

1980

22. Stimulation of rat liver alpha- and beta-type DNA polymerases by an homologous DNA-unwinding protein.

Author

Duguet M, Soussi T, Rossignol JM, Méchali M, and De Recondo AM

Subjects

Animals, Enzyme Activation, Kinetics, Magnesium pharmacology, Molecular Weight, Proteins isolation & purification, Rats, Templates, Genetic, DNA Polymerase I metabolism, DNA Polymerase II metabolism, DNA-Directed DNA Polymerase metabolism, Liver enzymology, Proteins physiology

Published

1977

23. Nuclear accumulation of HMG1 protein is correlated to DNA synthesis.

Author

Bonne-Andrea C, Harper F, Puvion E, Delpech M, and De Recondo AM

Subjects

Animals, Cell Division, Cell Line, Cell Nucleus ultrastructure, Immunoenzyme Techniques, Microscopy, Electron, Cell Nucleus metabolism, Cell Transformation, Viral, DNA biosynthesis, DNA Replication, High Mobility Group Proteins metabolism, Simian virus 40 genetics

Abstract

The subcellular localization of HMG1 protein was studied by immunoelectron microscopy during growth of CV1 cells in culture and in confluent CV1 cells subsequently lytically infected with SV40. HMG1 was always detected in the cytoplasm of both non-infected and infected cells. On the other hand, this protein displayed a nuclear localization only in those cells active in cellular and/or viral DNA replication, that is, in actively dividing non-infected cells and in confluent cells following SV40 infection. The combination of electron microscope immunocytochemistry and autoradiography revealed that during SV40 lytic infection, HMG1 accumulates at sites of active viral DNA replication. Since HMG1 is a single-stranded DNA binding protein and acts in vitro as a physiological nucleosome assembly factor, we suggest that its presence in the nucleus is related to its requirement in the DNA replication process.

Published

1986

24. Deoxyribonucleic acid of the crab Cancer pagurus. 3. Intracellular localization of poly d(A-T) of Cancer pagurus by hybridization in situ.

Author

Chevaillier P, de Recondo AM, and Geuskens M

Subjects

Adenine metabolism, Adenine Nucleotides analysis, Animals, Autoradiography, Cell Nucleus analysis, Intestines analysis, Male, Microscopy, Electron, Nucleic Acid Hybridization, Polynucleotides analysis, Spermatozoa analysis, Staining and Labeling, Testis analysis, Thymine metabolism, Thymine Nucleotides analysis, Tritium, Brachyura, DNA analysis

Published

1974

25. DNA polymerase activities in growing cells infected with simian virus 40.

Author

Méchali M, Girard M, and de Recondo AM

Subjects

Cell Line, Cell Nucleus enzymology, Cell-Free System, Cytoplasm enzymology, DNA Polymerase I metabolism, DNA Polymerase II metabolism, DNA Polymerase III metabolism, DNA, Viral biosynthesis, RNA-Directed DNA Polymerase metabolism, Simian virus 40 metabolism, Subcellular Fractions, Templates, Genetic, DNA-Directed DNA Polymerase metabolism, Simian virus 40 growth & development

Abstract

Growing CV1 cells were infected with simian virus 40 (SV40), and the levels of DNA polymerases-alpha, -beta, and -gamma were analyzed in the cytoplasm, nuclear Triton wash, and nucleus. In the cytoplasmic fraction, the amount of alpha-, beta-, or gamma-polymerase remained unaltered after SV40 infection. The activity of DNA polymerase-alpha increased five- to sixfold in the nuclear Triton wash and threefold in the nuclei and then remained enhanced only inside the nuclei. That of DNA polymerases-beta and gamma increased mostly in the nuclei after infection. These results suggest that DNA polymerase-alpha could be the major enzyme involved in SV40 DNA replication.

Published

1977

26. Identification of a single-stranded DNA binding protein from rat liver with high mobility group protein 1.

Author

Bonne C, Sautiere P, Duguet M, and de Recondo AM

Subjects

Amino Acids analysis, Animals, Chromatin analysis, DNA-Binding Proteins, Electrophoresis, Polyacrylamide Gel, High Mobility Group Proteins, Liver Regeneration, Peptide Fragments analysis, Rats, Trypsin, Carrier Proteins isolation & purification, Chromosomal Proteins, Non-Histone isolation & purification, Liver analysis

Abstract

The rat liver single-stranded DNA binding protein, S25 and HD25, isolated by differential DNA cellulose affinity chromatography was compared to the high mobility group proteins, HMG1 and HMG2, isolated from rat liver chromatin by the technique of Goodwin et al. (Goodwin, G. H., Sanders, C., and Johns, E. W. (1973) Eur. J. Biochem. 38, 14-19). Analysis of their amino acid composition, electrophoretic mobility, and tryptic peptide map reveal the identity of the single-stranded DNA binding protein with HMG1 protein, implying that the rat liver HMG1 protein becomes able both to destabilize a double helix of DNA and to stimulate homologous DNA polymerases only when rat liver cells enter a phase of DNA synthesis, possibly after a specific modification.

Published

1982

27. Association between primase and DNA polymerase alpha in murine cells.

Author

Philippe M, Sheinin R, and De Recondo AM

Subjects

Animals, DNA Polymerase II isolation & purification, DNA Primase, Fibroblasts metabolism, Liver metabolism, Liver Regeneration, Mice, Mutation, RNA Nucleotidyltransferases isolation & purification, Rats, Temperature, DNA Polymerase II metabolism, RNA Nucleotidyltransferases metabolism

Published

1984

28. Effects of the antitumor drug VP16 (etoposide) on the archaebacterial Halobacterium GRB 1.7 kb plasmid in vivo.

Author

Sioud M, Forterre P, and de Recondo AM

Subjects

DNA, Bacterial isolation & purification, Halobacterium drug effects, Halobacterium growth & development, Kinetics, Molecular Weight, Nucleic Acid Hybridization, Etoposide pharmacology, Halobacterium genetics, Plasmids drug effects

Abstract

The topoprofile of 1.7 kb plasmids from the archaebacterium Halobacterium GRB was analysed from cells growing with or without VP16 (etoposide). This drug interferes with the breakage-reunion reaction of eukaryotic DNA topoisomerase II by inhibiting the ligase activity of this enzyme. Addition of VP16 to the culture medium of Halobacterium GRB cells results in the introduction of single- and double-strand DNA breaks in part of the plasmid population, with proteins covalently associated at their 5' ends. While some of the remaining covalently closed circular DNA molecules are relaxed, VP16 treatment also gives rise to the production of positively supercoiled 1.7 kb plasmids. In contrast to adriamycin, VP16 does not intercalate into the 1.7 kb plasmid DNA in vivo. These results suggest that the VP16 target in halobacteria is a DNA topoisomerase II. Three major cleavage sites were detected on the 1.7 kb plasmid after VP16 treatment in vivo.

Published

1987

29. The role of HMG1 protein in nucleosome assembly and in chromatin replication.

Author

Bonne-Andrea C, Harper F, Sobczak J, and De Recondo AM

Subjects

DNA, Superhelical metabolism, DNA, Viral metabolism, Histones metabolism, Micrococcal Nuclease, Molecular Conformation, Simian virus 40 metabolism, Chromatin metabolism, DNA Replication, High Mobility Group Proteins metabolism, Nucleosomes metabolism

Published

1984

30. Biosynthesis of hepatitis B virus e antigen: directed mutagenesis of the putative aspartyl protease site.

Author

Jean-Jean O, Salhi S, Carlier D, Elie C, De Recondo AM, and Rossignol JM

Subjects

Amino Acid Sequence, Aspartic Acid Endopeptidases, Base Sequence, Hepatitis B virus enzymology, Hepatitis B virus immunology, Information Systems, Molecular Sequence Data, Restriction Mapping, Sequence Homology, Nucleic Acid, Endopeptidases genetics, Genes, Viral, Hepatitis B e Antigens genetics, Hepatitis B virus genetics, Mutation, Viral Structural Proteins genetics

Abstract

The C gene products of all mammalian hepadnaviruses contain a region with sequence similarities to the catalytic center of the aspartyl proteases. This region could have the capacity to cleave precore proteins, leading to the synthesis of e antigen. By site-directed mutagenesis on a plasmid containing the hepatitis B virus C gene, we have replaced either the Asp residue of the putative aspartyl protease catalytic center or an Asp residue located 3 amino acids upstream. Transient expression of the mutated hepatitis B virus C gene in human and mouse cells showed that none of these mutations prevented the secretion of an accurately processed HBe antigen. Thus, we demonstrated that the aspartyl protease responsible for e antigen precursor processing is not C gene encoded but is more likely to be a cellular enzyme. From these results, we suggest a model for the mechanism of e antigen synthesis.

Published

1989

31. A DNA polymerase from a thermoacidophilic archaebacterium: evolutionary and technological interests.

Author

Elie C, Salhi S, Rossignol JM, Forterre P, and De Recondo AM

Subjects

Archaea genetics, Base Sequence, Centrifugation, Density Gradient, DNA biosynthesis, DNA, Single-Stranded, DNA-Directed DNA Polymerase isolation & purification, Drug Stability, Escherichia coli enzymology, Gene Amplification, Hot Temperature, Kinetics, Nucleic Acid Conformation, Templates, Genetic, Archaea enzymology, Bacteria enzymology, Biological Evolution, DNA-Directed DNA Polymerase metabolism

Abstract

The archaebacteria constitute a group of prokaryotes with an intermediate phylogenetic position between eukaryotes and eubacteria. The study of their DNA polymerases may provide valuable information about putative evolutionary relationships between prokaryotic and eukaryotic DNA polymerases. As a first step towards this goal, we have purified to near homogeneity a DNA polymerase from the thermoacidophilic archaebacterium Sulfolobus acidocaldarius. This enzyme is a monomeric protein of 100 kDa which can catalyze DNA synthesis using either activated calf thymus DNA or oligonucleotide-primed single-stranded DNA as a template. The activity is optimal at 70 degrees C and the enzyme is thermostable up to 80 degrees C; however, it can still polymerize up to 200 nucleotides at 100 degrees C. These remarkable thermophilic properties and thermostability permit examination of the mechanism of DNA synthesis under conditions of decreased stability of the DNA helix. Furthermore, these properties make S. acidocaldarius DNA polymerase a very efficient enzyme to be used in DNA amplification by the recently developed polymerase chain reaction method (PCR) as well as in the Sanger DNA sequencing technique.

Published

1988

32. Inhibitors of DNA topoisomerase II induce topological changes in an archaebacterial plasmid in vivo.

Author

Sioud M, Baldacci G, de Recondo AM, and Forterre P

Subjects

DNA, Superhelical drug effects, Etoposide pharmacology, Novobiocin pharmacology, Nucleic Acid Conformation drug effects, Archaea drug effects, Bacteria drug effects, DNA, Bacterial drug effects, Plasmids, Topoisomerase II Inhibitors

Published

1988

33. [DNA replication in eukaryotic cells].

Author

de Recondo AM

Subjects

Adenosine Triphosphatases metabolism, Animals, Carrier Proteins metabolism, Coliphages metabolism, DNA, Viral biosynthesis, DNA-Directed DNA Polymerase metabolism, Escherichia coli metabolism, Molecular Weight, Nucleic Acid Conformation, Simian virus 40 metabolism, Virus Replication, DNA Replication

Published

1977

34. Novobiocin induces positive supercoiling of small plasmids from halophilic archaebacteria in vivo.

Author

Sioud M, Baldacci G, de Recondo AM, and Forterre P

Subjects

DNA, Superhelical drug effects, Nucleic Acid Hybridization, Osmolar Concentration, Halobacterium genetics, Novobiocin pharmacology, Plasmids drug effects

Abstract

The halophilic archaebacterium Halobacterium strain GRB harbours a multicopy plasmid of 1.7 kb which is negatively supercoiled. After addition of novobiocin to culture medium all 1.7 kb plasmid molecules become positively supercoiled. Positive supercoiling occurs at the same dose of novobiocin inhibiting the eubacterial DNA gyrase in vitro. Novobiocin also induces positive supercoiling of pHV2, a 6.3 kb plasmid from Halobacterium volcanii. These results indicate the existence of a mechanism producing positive superturns in halobacteria. The 1.7 kb plasmid from Halobacterium GRB could be used to produce high amounts of pure positively supercoiled DNA for biophysical and biochemical studies.

Published

1988

35. Thermal sensitivity of eukaryotic DNA polymerase-alpha and protection by its templates.

Author

Mechali M and de Recondo AM

Subjects

Animals, Cattle, Hot Temperature, Kinetics, Protein Denaturation, Templates, Genetic, Cells enzymology, DNA Polymerase II metabolism, DNA-Directed DNA Polymerase metabolism, Eukaryotic Cells enzymology

Published

1980

36. In vitro binding of 3H-acrolein to regeneration rat liver DNA polymerase.

Author

Munsch N, de Recondo AM, and Frayssinet C

Subjects

Animals, Binding Sites, Binding, Competitive, Enzyme Activation, Escherichia coli enzymology, In Vitro Techniques, Liver enzymology, Protein Binding, Rats, Tritium, Acrolein metabolism, Aldehydes metabolism, DNA Nucleotidyltransferases metabolism, Liver metabolism, Liver Regeneration

Published

1974

37. Co-fractionation of an endonuclease activity during the purification of DNA polymerase-alpha from regenerating rat liver. Properties and separation from DNA polymerase.

Author

Mechali M and de Recondo AM

Subjects

Animals, Calcium pharmacology, Chromatography, DNA, Viral metabolism, Endonucleases isolation & purification, Hydrogen-Ion Concentration, Hydroxymercuribenzoates pharmacology, Magnesium pharmacology, Molecular Weight, Rats, Simian virus 40, Sodium pharmacology, DNA Nucleotidyltransferases isolation & purification, Endonucleases metabolism, Liver enzymology, Liver Regeneration

Abstract

The presence of endonuclease activity associated with DNA polymerase was detected during the purification of high-molecular-weight DNA polymerase-alpha from regenerating rat liver by the use of a highly sensitive test. This endonuclease activity co-fractionated with DNA polymerase in a great variety of purification procedures involving ion-exchange chromatographies or molecular weight fractionation, but was further completely separated from DNA polymerase activity by using affinity chromatography on DNA-cellulose. The endonuclease acted on native or denatured DNA by introducing single-strand nicks in the DNA molecules; its enzymatic properties indicate that it could act in polymerisation conditions in vitro.

Published

1975

38. Thermostable DNA polymerase from the archaebacterium Sulfolobus acidocaldarius. Purification, characterization and immunological properties.

Author

Elie C, De Recondo AM, and Forterre P

Subjects

Centrifugation, Density Gradient methods, Chromatography, Affinity methods, Chromatography, Ion Exchange methods, DNA-Directed DNA Polymerase metabolism, Enzyme Stability, Hot Temperature, Indicators and Reagents, Kinetics, Macromolecular Substances, Molecular Weight, Templates, Genetic, Archaea enzymology, Bacteria enzymology, DNA-Directed DNA Polymerase isolation & purification

Abstract

We have purified to near homogeneity a DNA polymerase from the thermoacidophilic archaebacterium Sulfolobus acidocaldarius. Sodium dodecyl sulfate gel electrophoresis of the purified enzyme revealed a polypeptide of 100 kDa. On the basis of a Stokes radius of 4.2 nm and a sedimentation coefficient of 6 S, the purified enzyme has an estimated molecular mass of 109 kDa. These results are consistent with the enzyme being a monomer of 100 kDa. In addition a polyclonal antiserum, obtained by injection of the electroeluted 100-kDa polypeptide into a rabbit, specifically neutralized the DNA-polymerase activity. The enzyme is sensitive to both N-ethylmaleimide and 2',3'-dideoxyribosylthymine triphosphate and resistant to aphidicolin. The purified DNA polymerase has neither exonuclease nor primase activities. In our in vitro conditions, the enzyme is thermostable up to 80 degrees C and is active between 55 degrees C and 85 degrees C in the presence of activated calf-thymus DNA.

Published

1989

39. Novobiocin induces accumulation of a single strand of plasmid pGRB-1 in the archaebacterium Halobacterium GRB.

Author

Sioud M, Baldacci G, Forterre P, and de Recondo AM

Subjects

Bacterial Proteins biosynthesis, DNA Replication drug effects, DNA, Circular drug effects, DNA, Single-Stranded ultrastructure, Halobacterium drug effects, Halobacterium ultrastructure, Transcription, Genetic drug effects, DNA, Single-Stranded drug effects, Halobacterium genetics, Novobiocin pharmacology, Plasmids drug effects

Abstract

Treatment of Halobacterium GRB cells with the DNA topoisomerase II inhibitor novobiocin induces the accumulation of a circular single-stranded DNA form of the plasmid pGRB-1. This form corresponds to the transcribed strand of pGRB-1. A tiny amount of this form is detectable in untreated cells. The induction of single-stranded pGRB-1 molecules by novobiocin is abolished when cells are pretreated with aphidicolin or anisomycin, which inhibit halobacterial DNA replication and protein synthesis, respectively. These results suggest that the single-stranded form of pGRB-1 is generated in the course of plasmid replication.

Published

1988

40. High molecular weight deoxyribonucleic acid polymerase of LF hepatoma. Purification and properties.

Author

Cazillis M, De Recondo AM, and Frayssinet C

Subjects

Animals, Centrifugation, Density Gradient, Chromatography, Affinity, Cytosol enzymology, DNA Nucleotidyltransferases metabolism, Enzyme Activation drug effects, Hydrogen-Ion Concentration, Kinetics, Liver Neoplasms, Magnesium pharmacology, Manganese pharmacology, Molecular Weight, Neoplasms, Experimental enzymology, Potassium pharmacology, Rats, Templates, Genetic, Carcinoma, Hepatocellular enzymology, DNA Nucleotidyltransferases isolation & purification

Abstract

A high molecular weight DNA polymerase has been purified from the cytosol of a fast growing hepatoma: LF hepatoma. This enzyme sediments at 11.3 S under polymerization reaction conditions (6 mM KCl) and at 8.3 S in higher salt concentrations (200 mM KCl). In either case, no activity is seen in the 3 to 4 S region where low molecular weight DNA polymerase is found. The purified enzyme has a neutral pH optimum and requires a divalent cation, all four deoxyribonucleoside triphosphates and an initiated DNA template for maximal activity. The synthetic template specificity of LF DNA polymerase has been studied. Although this enzyme cannot copy a polyribonucleotide template, the ribostrand of a synthetic hybrid can be used with low efficiency as an initiator for the synthesis of the complementary deoxyribonucleotide strand. The activity of the purified enzyme is strongly inhibited by thiol-blocking agents. The general properties of LF DNA polymerase are similar to those of high molecular weight mammalian DNA polymerases. In our experimental conditions, the error frequency of this tumoral DNA polymerase was no greater than that made by the purified high molecular weight DNA polymerase of regenerating rat liver.

Published

1975

41. Expression of an enzymatically active murine retroviral reverse transcriptase in human cells.

Author

Jean-Jean O, Moyret C, Bernard D, de Recondo AM, and Rossignol JM

Subjects

Animals, Cells, Cultured, Cloning, Molecular, Endoribonucleases genetics, Gene Expression Regulation, Genetic Engineering, Humans, Immunologic Techniques, Mice, Plasmids, RNA-Directed DNA Polymerase genetics, RNA-Directed DNA Polymerase immunology, Regulatory Sequences, Nucleic Acid, Ribonuclease H, Time Factors, Endoribonucleases metabolism, RNA-Directed DNA Polymerase metabolism

Abstract

The region of the pol gene of the Moloney murine leukemia virus (M-MuLV) encoding the reverse transcriptase and RNase H activities was inserted in an eukaryotic expression vector and transiently expressed in human cultured cells. This results in the expression of high levels of reverse transcriptase activity. This enzyme, partially purified, also carries a RNase H activity, has the biochemical requirements of the viral enzyme and is recognized and inhibited by antibodies directed against a M-MuLV reverse transcriptase expressed in Escherichia coli.

Published

1989

42. Phospholipid configuration and template capacity of liver nuclei and purified chromatin in presence or absence of hepatic DNA polymerase.

Author

Goureau-Counis MF, Fichot O, Raulin J, and De Recondo AM

Subjects

Animals, Chromatin ultrastructure, Fatty Acids analysis, Kinetics, Male, Molecular Conformation, Nucleic Acid Conformation, Nucleic Acid Denaturation, Rats, Templates, Genetic, Cell Nucleus metabolism, Chromatin metabolism, DNA Nucleotidyltransferases metabolism, Liver metabolism, Phospholipids metabolism

Published

1974

43. DNA topoisomerases from rat liver: physiological variations.

Author

Duguet M, Lavenot C, Harper F, Mirambeau G, and De Recondo AM

Subjects

Animals, DNA Topoisomerases, Type I isolation & purification, Isoenzymes isolation & purification, Isoenzymes metabolism, Kinetics, Microscopy, Electron, Plasmids, Rats, Cell Nucleus enzymology, DNA Topoisomerases, Type I metabolism, Liver enzymology

Abstract

Besides the nicking-closing (topoisomerase I) activity, an ATP-dependent DNA topoisomerase is present in rat liver nuclei. The enzyme, partially purified, is able to catenate in vitro closed DNA circles in a magnesium-dependent, ATP-dependent, histone H1-dependent reaction, and to decatenate in vitro kinetoplast DNA networks to yield free minicircles in a magnesium-dependent and ATP-dependent reaction. It is largely similar to other eukaryotic type II topoisomerases in its requirements, and presumably belongs to this class of enzymes. Type I and type II activities were measured in rat liver nuclei as a function of regenerating time after partial hepatectomy: type I activity was not significantly changed during this process. In contrast, type II activity was considerably increased, suggesting a possible involvement of the enzyme in DNA replication.

Published

1983

44. Reverse transciptase activity associated with R-type virus-like particles of SV40-transformed hamster cells (TSV5 clone 2).

Author

Rossignol JM, Kress M, and de Recondo AM

Subjects

Animals, Bromodeoxyuridine pharmacology, Cell-Free System, Clone Cells, Cricetinae, DNA Nucleotidyltransferases metabolism, Dexamethasone pharmacology, Endoplasmic Reticulum microbiology, Polynucleotides metabolism, RNA Viruses ultrastructure, Simian virus 40 growth & development, Templates, Genetic, Cell Transformation, Neoplastic, RNA Viruses enzymology, RNA-Directed DNA Polymerase metabolism

Abstract

A line of hamster cells transformed by SV40 (TSV5 clone 2) contains different DNA polymerase activities. One of them has the same template specificity as viral reverse transcriptases. Partial isolation of R-type virus-like particles from TSV5 clone 2 shows that a reverse transcriptase activity is associated with these RNA viruses. This reverse transcriptase was partially purified and its biochemical properties are described.

Published

1975

45. Intranuclear distribution of mouse liver nuclear DNA polymerase.

Author

Philippe M, De Recondo AM, and Chevaillier P

Subjects

Animals, Cell Fractionation, Cell Nucleolus enzymology, Cell Nucleus ultrastructure, Chromatin enzymology, DNA biosynthesis, DNA pharmacology, Heterochromatin enzymology, Hydroxymercuribenzoates pharmacology, Liver ultrastructure, Mercaptoethanol pharmacology, Mice, Thymine Nucleotides metabolism, Cell Nucleus enzymology, DNA Nucleotidyltransferases metabolism, Liver enzymology

Published

1976

46. DNA polymerase-alpha from regenerating rat liver. Catalytic properties of the highly purified enzyme.

Author

Fichot O, Pascal M, Mechali M, and de Recondo AM

Subjects

Animals, Catalysis, Cations, DNA-Directed DNA Polymerase isolation & purification, Kinetics, Molecular Weight, Rats, Substrate Specificity, Templates, Genetic, DNA-Directed DNA Polymerase metabolism, Liver enzymology, Liver Regeneration

Abstract

DNA polymerase-alpha from the cytosol of regenerating rat liver has been highly purified by a procedure which includes affinity chromatography. The purified enzyme sediments at 7.4 S in high ionic strength and at 9--10 S in low ionic strength, i.e. under in vitro polymerization conditions. This enzyme has all the properties of the other mammalian DNA polymerases-alpha: sensitivity to sulfhydryl-blocking agents, to heparin, and to the level of salt in the assay, neutral pH optimum, use of ribonucleotide-initiated DNA templates, and inability to copy the ribostrand of hybrids. After chromatography on denatured DNA-cellulose, the alpha-polymerase is completely devoid of exo- and endonuclease activities. Template competition experiments indicate that the binding of the enzyme to the template can be distinguished from the polymerization itself and that the in vitro synthesis catalyzed by this alpha-polymerase is not distributive in a classical sense. These facts are discussed.

Published

1979

47. Regenerating rat liver DNA polymerases: disimilitude or relationship between nuclear and cytoplasmic enzymes?

Author

de Recondo AM and Abadiedebat J

Subjects

Animals, Cytosol enzymology, Isoenzymes isolation & purification, Isoenzymes metabolism, Macromolecular Substances, Molecular Weight, Osmolar Concentration, Polyethylene Glycols, Rats, Cell Nucleus enzymology, Liver enzymology, Liver Regeneration

Abstract

The possible relationship between the nuclear and cytoplasmic DNA polymerases of regenerating rat liver was studied by sucrose gradient analysis, salt dissociation, and with specific inhibitors. After aqueous subcellular fractionation and removal of the nuclear membranes, three species of DNA-dependent DNA polymerases were characterized: 1) a DNA polymerase-beta in the nuclei. 2) a DNA polymerase-alpha in the cytosol which was not dissociated at high salt concentrations; and 3) an intermediate form in the cytosol and in the Triton wash containing the nuclear membranes. The latter form behaved like DNA polymerase-alpha et low salt concentration but was dissociated at high salt concentrations to a low molecular weight species with properties like DNA polymerase-beta (resistance to inhibition by N-ethylmaleimide, heparin and KCL). In vitro reassociation experiments suggest that this intermediate form corresponds to the association of DNA polymerase-beta with a membrane component or cytoplasmic protein(s) which appear(s) in regenerating rat liver.

Published

1976

48. Autoradiographic demonstration of DNA replication in ultrathin sections of plastic-embedded tissues using an exogeneous DNA polymerase.

Author

Geuskens M, de Recondo AM, and Chevaillier P

Subjects

Animals, Autoradiography, Brachyura, Liver enzymology, Liver Regeneration, Male, Templates, Genetic, Testis cytology, DNA Nucleotidyltransferases, DNA Replication

Abstract

A DNA-dependent DNA polymerase isolated from regenerating rat liver can mediate the incorporation of tritiated nucleoside triphosphates into acid-insoluble polydeoxyribonucleotides using the DNA contained in ultrathin sections of glycol methacrylate-embedded crab testis as initiator-template. (Summary see p. 186).

Published

1975

49. A deoxyribonucleic acid unwinding protein isolated from regenerating rat liver. Physical and functional properties.

Author

Duguet M and de Recondo AM

Subjects

Animals, DNA-Directed DNA Polymerase metabolism, Kinetics, Molecular Weight, Nucleic Acid Denaturation, Nucleic Acid Renaturation, Poly dA-dT, Rats, DNA Helicases isolation & purification, DNA Helicases metabolism, Liver enzymology, Liver Regeneration

Abstract

A DNA-unwinding protein has been purified from regenerating rat liver cytosol to apparent homogeneity. The protein is present in about 10(6) copies per cell. It is a tetramer, composed of 25,000-dalton subunits which does not exhibit enzymatic activity for ATPase, DNA polymerase, or DNase. The protein is able to unwind the double helix of poly[d(A-T)], depressing the melting point of this synthetic polymer by about 40 degrees. It also binds to supercoiled SV40 DNA, probably by melting A-T-rich regions in the genome. The fully saturated complex of protein and SV40 DNA sediments at 30 S. Homologous DNA polymerases-alpha and -beta are stimulated by the protein at a different level depending on the templates used. This result argues in favor of the intervention of the unwinding protein in replication processes.

Published

1978

50. Rat liver DNA binding proteins: physiological variations.

Author

Bonne C, Duguet M, and de Recondo AM

Subjects

Animals, DNA Helicases isolation & purification, DNA-Directed DNA Polymerase metabolism, Molecular Weight, Nucleic Acid Conformation, Nucleic Acid Denaturation, Polydeoxyribonucleotides, Rats, Structure-Activity Relationship, Templates, Genetic, DNA Helicases metabolism, Liver enzymology

Published

1979