Publications
2002
Cristofari G., Bampi C., Wilhelm M., Wilhelm F. X., Darlix J. L.
A 5'-3' long-range interaction in Ty1 RNA controls its reverse transcription and retrotransposition Journal Article
In: EMBO J, vol. 21, no. 16, pp. 4368-79, 2002, (0261-4189 Journal Article).
Abstract | BibTeX | Tags: *Gene, *Transcription, Acid, cerevisiae/*genetics, Complementary/biosynthesis, Conformation, DNA, Expression, Fungal, Fungal/chemistry/*metabolism, Genetic, Gov't, in, Messenger/chemistry/*metabolism, Non-U.S., Nucleic, Phylogeny, Regulation, Retroelements/*genetics, RNA, Saccharomyces, Support, vitro
@article{,
title = {A 5'-3' long-range interaction in Ty1 RNA controls its reverse transcription and retrotransposition},
author = { G. Cristofari and C. Bampi and M. Wilhelm and F. X. Wilhelm and J. L. Darlix},
year = {2002},
date = {2002-01-01},
journal = {EMBO J},
volume = {21},
number = {16},
pages = {4368-79},
abstract = {LTR-retrotransposons are abundant components of all eukaryotic genomes and appear to be key players in their evolution. They share with retroviruses a reverse transcription step during their replication cycle. To better understand the replication of retrotransposons as well as their similarities to and differences from retroviruses, we set up an in vitro model system to examine minus-strand cDNA synthesis of the yeast Ty1 LTR-retrotransposon. Results show that the 5' and 3' ends of Ty1 genomic RNA interact through 14 nucleotide 5'-3' complementary sequences (CYC sequences). This 5'-3' base pairing results in an efficient initiation of reverse transcription in vitro. Transposition of a marked Ty1 element and Ty1 cDNA synthesis in yeast rely on the ability of the CYC sequences to base pair. This 5'-3' interaction is also supported by phylogenic analysis of all full-length Ty1 and Ty2 elements present in the Saccharomyces cerevisiae genome. These novel findings lead us to propose that circularization of the Ty1 genomic RNA controls initiation of reverse transcription and may limit reverse transcription of defective retroelements.},
note = {0261-4189
Journal Article},
keywords = {*Gene, *Transcription, Acid, cerevisiae/*genetics, Complementary/biosynthesis, Conformation, DNA, Expression, Fungal, Fungal/chemistry/*metabolism, Genetic, Gov't, in, Messenger/chemistry/*metabolism, Non-U.S., Nucleic, Phylogeny, Regulation, Retroelements/*genetics, RNA, Saccharomyces, Support, vitro},
pubstate = {published},
tppubtype = {article}
}
1999
Wilhelm M., Boutabout M., Heyman T., Wilhelm F. X.
Reverse transcription of the yeast Ty1 retrotransposon: the mode of first strand transfer is either intermolecular or intramolecular Journal Article
In: J Mol Biol, vol. 288, no. 4, pp. 505-10, 1999, (0022-2836 Journal Article).
Abstract | BibTeX | Tags: *Retroelements, *Transcription, Acid, Base, cerevisiae/*genetics, DNA, Genetic, Gov't, Non-U.S., Nucleic, Repetitive, Saccharomyces, Sequence, Sequences, Single-Stranded/genetics, Support
@article{,
title = {Reverse transcription of the yeast Ty1 retrotransposon: the mode of first strand transfer is either intermolecular or intramolecular},
author = { M. Wilhelm and M. Boutabout and T. Heyman and F. X. Wilhelm},
year = {1999},
date = {1999-01-01},
journal = {J Mol Biol},
volume = {288},
number = {4},
pages = {505-10},
abstract = {Replication of the yeast Ty1 retrotransposon occurs by a mechanism similar to that of retroviruses. According to the current model of retroviral reverse transcription, two strand transfers (the so-called minus-strand and plus-strand strong-stop DNA transfers) are required to produce full-length preintegrative DNA. Because two genomic RNA molecules are packaged inside the viral particles, the strand transfers can be either intra- or intermolecular. To study the mode of transfer of minus-strand strong-stop DNA during reverse transcription of the yeast Ty1 retrotransposon, we have analyzed the cDNA products that accumulate in the cytoplasmic virus-like particles of yeast cells harboring two marked Ty1 elements. Our results indicate that Ty1 minus-strand transfer occurs in a random manner with approximately similar frequencies of intra- and intermolecular transfer. It has been observed recently that intra- and intermolecular minus-strand transfer occur at similar frequencies during replication of a complex retrovirus such as HIV-1. These results together with the observation that genetic recombination occurs with a high frequency during minus-strand synthesis suggest that both packaged RNA molecules are needed for the synthesis of one minus-strand DNA.},
note = {0022-2836
Journal Article},
keywords = {*Retroelements, *Transcription, Acid, Base, cerevisiae/*genetics, DNA, Genetic, Gov't, Non-U.S., Nucleic, Repetitive, Saccharomyces, Sequence, Sequences, Single-Stranded/genetics, Support},
pubstate = {published},
tppubtype = {article}
}
Wilhelm M., Heyman T., Boutabout M., Wilhelm F. X.
A sequence immediately upstream of the plus-strand primer is essential for plus-strand DNA synthesis of the Saccharomyces cerevisiae Ty1 retrotransposon Journal Article
In: Nucleic Acids Res, vol. 27, no. 23, pp. 4547-52, 1999, (0305-1048 Journal Article).
Abstract | BibTeX | Tags: *DNA, *Retroelements, Base, cerevisiae/*genetics, DNA, Elements, Fungal/*biosynthesis, Gov't, Mutation, Non-U.S., Primers, response, Saccharomyces, Sequence, Support
@article{,
title = {A sequence immediately upstream of the plus-strand primer is essential for plus-strand DNA synthesis of the Saccharomyces cerevisiae Ty1 retrotransposon},
author = { M. Wilhelm and T. Heyman and M. Boutabout and F. X. Wilhelm},
year = {1999},
date = {1999-01-01},
journal = {Nucleic Acids Res},
volume = {27},
number = {23},
pages = {4547-52},
abstract = {Priming of plus-strand DNA is a critical step in reverse transcription of retroviruses and retrotransposons. All retroelements use an RNase H-resistant oligoribonucleotide spanning a purine-rich sequence (the polypurine tract or PPT) to prime plus-strand DNA synthesis. Plus-strand DNA synthesis of the yeast Saccharomyces cerevisiae Ty1-H3 retrotransposon is initiated at two sites, PPT1 and PPT2, located at the upstream boundary of the 3'-long terminal repeat and near the middle of the pol gene in the integrase coding region. The two plus-strand primers have the same purine-rich sequence GGGTGGTA. This sequence is not sufficient by itself to generate a plus-strand origin since two identical sequences located upstream of PPT2 in the integrase coding region are not used efficiently as primers for plus-strand DNA synthesis. Thus, other factors must be involved in the formation of a specific plus-strand DNA primer. We show here that mutations upstream of the PPT in a highly conserved T-rich region severely alters plus-strand DNA priming of Ty1. Our results demonstrate the importance of sequences or structural elements upstream of the PPT for initiation of plus-strand DNA synthesis.},
note = {0305-1048
Journal Article},
keywords = {*DNA, *Retroelements, Base, cerevisiae/*genetics, DNA, Elements, Fungal/*biosynthesis, Gov't, Mutation, Non-U.S., Primers, response, Saccharomyces, Sequence, Support},
pubstate = {published},
tppubtype = {article}
}
1998
Gabus C., Ficheux D., Rau M., Keith G., Sandmeyer S., Darlix J. L.
The yeast Ty3 retrotransposon contains a 5'-3' bipartite primer-binding site and encodes nucleocapsid protein NCp9 functionally homologous to HIV-1 NCp7 Journal Article
In: EMBO J, vol. 17, no. 16, pp. 4873-80, 1998, (0261-4189 Journal Article).
Abstract | BibTeX | Tags: *Capsid, *Retroelements, Acid, Base, Binding, Capsid/*genetics, cerevisiae/*genetics, dimerization, gag/*genetics, Gene, Gov't, Homology, Met/genetics/*metabolism, Non-U.S., Nucleic, P.H.S., Products, Proteins, RNA, Saccharomyces, Sequence, Sites, Support, Transfer, U.S.
@article{,
title = {The yeast Ty3 retrotransposon contains a 5'-3' bipartite primer-binding site and encodes nucleocapsid protein NCp9 functionally homologous to HIV-1 NCp7},
author = { C. Gabus and D. Ficheux and M. Rau and G. Keith and S. Sandmeyer and J. L. Darlix},
year = {1998},
date = {1998-01-01},
journal = {EMBO J},
volume = {17},
number = {16},
pages = {4873-80},
abstract = {Retroviruses, including HIV-1 and the distantly related yeast retroelement Ty3, all encode a nucleoprotein required for virion structure and replication. During an in vitro comparison of HIV-1 and Ty3 nucleoprotein function in RNA dimerization and cDNA synthesis, we discovered a bipartite primer-binding site (PBS) for Ty3 composed of sequences located at opposite ends of the genome. Ty3 cDNA synthesis requires the 3' PBS for primer tRNAiMet annealing to the genomic RNA, and the 5' PBS, in cis or in trans, as the reverse transcription start site. Ty3 RNA alone is unable to dimerize, but formation of dimeric tRNAiMet bound to the PBS was found to direct dimerization of Ty3 RNA-tRNAiMet. Interestingly, HIV-1 nucleocapsid protein NCp7 and Ty3 NCp9 were interchangeable using HIV-1 and Ty3 RNA template-primer systems. Our findings impact on the understanding of non-canonical reverse transcription as well as on the use of Ty3 systems to screen for anti-NCp7 drugs.},
note = {0261-4189
Journal Article},
keywords = {*Capsid, *Retroelements, Acid, Base, Binding, Capsid/*genetics, cerevisiae/*genetics, dimerization, gag/*genetics, Gene, Gov't, Homology, Met/genetics/*metabolism, Non-U.S., Nucleic, P.H.S., Products, Proteins, RNA, Saccharomyces, Sequence, Sites, Support, Transfer, U.S.},
pubstate = {published},
tppubtype = {article}
}
1994
Wilhelm M., Wilhelm F. X., Keith G., Agoutin B., Heyman T.
Yeast Ty1 retrotransposon: the minus-strand primer binding site and a cis-acting domain of the Ty1 RNA are both important for packaging of primer tRNA inside virus-like particles Journal Article
In: Nucleic Acids Res, vol. 22, no. 22, pp. 4560-5, 1994, (0305-1048 Journal Article).
Abstract | BibTeX | Tags: Acid, Amino, Base, Binding, cerevisiae/*genetics, Cloning, Data, Fungal/*genetics, Genetic, Gov't, Met/*genetics, Molecular, Mutation/physiology, Non-U.S., Retroelements/*genetics/physiology, Retroviridae/genetics, RNA, RNA/*genetics, Saccharomyces, Sequence, Sites, Support, Transcription, Transfer
@article{,
title = {Yeast Ty1 retrotransposon: the minus-strand primer binding site and a cis-acting domain of the Ty1 RNA are both important for packaging of primer tRNA inside virus-like particles},
author = { M. Wilhelm and F. X. Wilhelm and G. Keith and B. Agoutin and T. Heyman},
year = {1994},
date = {1994-01-01},
journal = {Nucleic Acids Res},
volume = {22},
number = {22},
pages = {4560-5},
abstract = {Reverse transcription of the yeast retrotransposon Ty1 is primed by the cytoplasmic initiator methionine tRNA (tRNA(iMet)). The primer tRNA(iMet) is packaged inside virus-like particles (VLPs) and binds to a 10 nucleotides minus-strand primer binding site, the (-)PBS, complementary to its 3' acceptor stem. We have found that three short sequences of the Ty1 RNA (box 1, box 2.1 and box 2.2) located 3' to the (-)PBS are complementary to other regions of the primer tRNA(iMet) (T psi C and DHU stems and loops). Reconstitution of reverse transcription in vitro with T7 transcribed Ty1 RNA species and tRNA(iMet) purified from yeast cells shows that the boxes do not affect the efficiency of reverse transcription. Thus the role of the boxes on packaging of the primer tRNA(iMet) into the VLPs was investigated by analysing the level of tRNA(iMet) packaged into mutant VLPs. Specific nucleotide changes in the (-)PBS or in the boxes that do not change the protein coding sequence but disrupt the complementarity with the primer tRNA(iMet) within the VLPs. We propose that base pairing between the primer tRNA(iMet) and the Ty1 RNA is of major importance for tRNA(iMet) packaging into the VLPs. Moreover the intactness of the boxes is essential for retrotransposition as shown by the transposition defect of a Ty1 element harboring an intact (-)PBS and mutated boxes.},
note = {0305-1048
Journal Article},
keywords = {Acid, Amino, Base, Binding, cerevisiae/*genetics, Cloning, Data, Fungal/*genetics, Genetic, Gov't, Met/*genetics, Molecular, Mutation/physiology, Non-U.S., Retroelements/*genetics/physiology, Retroviridae/genetics, RNA, RNA/*genetics, Saccharomyces, Sequence, Sites, Support, Transcription, Transfer},
pubstate = {published},
tppubtype = {article}
}
1992
Glasser A. L., el Adlouni C., Keith G., Sochacka E., Malkiewicz A., Santos M., Tuite M. F., Desgres J.
Presence and coding properties of 2'-O-methyl-5-carbamoylmethyluridine (ncm5Um) in the wobble position of the anticodon of tRNA(Leu) (U*AA) from brewer's yeast Journal Article
In: FEBS Lett, vol. 314, no. 3, pp. 381-5, 1992, (0014-5793 Journal Article).
Abstract | BibTeX | Tags: *Anticodon, &, Analysis, cerevisiae/*genetics, Chromatography, derivatives/analysis/chemistry/genetics, Fungal, Fungal/genetics, Gov't, high, Leu/*genetics, liquid, Mass, Molecular, Non-U.S., Pressure, Proteins/biosynthesis, RNA, Saccharomyces, Spectrophotometry, Spectrum, structure, Support, Transfer, Ultraviolet, Uridine/*analogs
@article{,
title = {Presence and coding properties of 2'-O-methyl-5-carbamoylmethyluridine (ncm5Um) in the wobble position of the anticodon of tRNA(Leu) (U*AA) from brewer's yeast},
author = { A. L. Glasser and C. el Adlouni and G. Keith and E. Sochacka and A. Malkiewicz and M. Santos and M. F. Tuite and J. Desgres},
year = {1992},
date = {1992-01-01},
journal = {FEBS Lett},
volume = {314},
number = {3},
pages = {381-5},
abstract = {The unknown modified nucleoside U* has been isolated by enzymatic and HPLC protocols from tRNA(Leu) (U*AA) recently discovered in brewer's yeast. The pure U* nucleoside has been characterized by electron impact mass spectroscopy, and comparison of its chromatographic and UV-absorption properties with those of appropriate synthetic compounds. The structure of U* was established as 2'-O-methyl-5-carbamoylmethyluridine (ncm5Um). The yeast tRNA(Leu) (U*AA) is the only tRNA so far sequenced which has been shown to contain ncm5Um. The location of such a modified uridine at the first position of the anticodon restricts the decoding property to A of the leucine UUA codon.},
note = {0014-5793
Journal Article},
keywords = {*Anticodon, &, Analysis, cerevisiae/*genetics, Chromatography, derivatives/analysis/chemistry/genetics, Fungal, Fungal/genetics, Gov't, high, Leu/*genetics, liquid, Mass, Molecular, Non-U.S., Pressure, Proteins/biosynthesis, RNA, Saccharomyces, Spectrophotometry, Spectrum, structure, Support, Transfer, Ultraviolet, Uridine/*analogs},
pubstate = {published},
tppubtype = {article}
}