Publications
2007
Winter F., Edaye S., Huttenhofer A., Brunel C.
Anopheles gambiae miRNAs as actors of defence reaction against Plasmodium invasion Journal Article
In: Nucleic Acids Res, vol. 35, no. 20, pp. 6953-62, 2007, (1362-4962 (Electronic) 0305-1048 (Linking) Journal Article Research Support, Non-U.S. Gov't).
Abstract | BibTeX | Tags: *Gene, Animals, Anopheles, BRUNEL, Digestive, Expression, Female, gambiae/*genetics/*immunology/parasitology, Gene, III/genetics, Library, Male, MicroRNAs/*immunology, Plasmodium/*immunology, Profiling, Ribonuclease, silencing, System/immunology/metabolism/parasitology
@article{,
title = {Anopheles gambiae miRNAs as actors of defence reaction against Plasmodium invasion},
author = { F. Winter and S. Edaye and A. Huttenhofer and C. Brunel},
year = {2007},
date = {2007-01-01},
journal = {Nucleic Acids Res},
volume = {35},
number = {20},
pages = {6953-62},
abstract = {The path Plasmodium takes across the Anopheles midgut constitutes the major bottleneck during the malaria transmission cycle. In the present study, using a combination of shot-gun cloning and bioinformatic analysis, we have identified 18 miRNAs from Anopheles gambiae including three miRNAs unique to mosquito. Twelve of them are expressed ubiquitously across the body, independently of gender, while the other six exhibited an expression pattern restricted to the digestive system. Strikingly, the expression patterns of four miRNAs, including the three unique to mosquito, are affected by the presence of Plasmodium. We also show that knocking down Dicer1 and Ago1 mRNAs led to an increased sensitivity to Plasmodium infection. Altogether, these data support an involvement of miRNAs as new layers in the regulation of Anopheles defence reaction.},
note = {1362-4962 (Electronic)
0305-1048 (Linking)
Journal Article
Research Support, Non-U.S. Gov't},
keywords = {*Gene, Animals, Anopheles, BRUNEL, Digestive, Expression, Female, gambiae/*genetics/*immunology/parasitology, Gene, III/genetics, Library, Male, MicroRNAs/*immunology, Plasmodium/*immunology, Profiling, Ribonuclease, silencing, System/immunology/metabolism/parasitology},
pubstate = {published},
tppubtype = {article}
}
2003
Wilhelm F. X., Wilhelm M., Gabriel A.
Extension and cleavage of the polypurine tract plus-strand primer by Ty1 reverse transcriptase Journal Article
In: J Biol Chem, vol. 278, no. 48, pp. 47678-84, 2003, (0021-9258 Journal Article).
Abstract | BibTeX | Tags: Base, Calf, Data, DNA, DNA/chemistry, Genetic, Gov't, H, Messenger/metabolism, Models, Molecular, Non-U.S., P.H.S., Polymerase/*chemistry, Primers, Proteins/chemistry, Purines/*chemistry, Recombinant, Replication, Retroelements/*genetics, Ribonuclease, RNA, RNA-Directed, RNA/chemistry, Sequence, Support, Templates, Thymus/chemistry, U.S., Viral
@article{,
title = {Extension and cleavage of the polypurine tract plus-strand primer by Ty1 reverse transcriptase},
author = { F. X. Wilhelm and M. Wilhelm and A. Gabriel},
year = {2003},
date = {2003-01-01},
journal = {J Biol Chem},
volume = {278},
number = {48},
pages = {47678-84},
abstract = {Using hybrid RNA/DNA substrates containing the polypurine tract (PPT) plus-strand primer, we have examined the interaction between the Ty1 reverse transcriptase (RT) and the plus-strand initiation complex. We show here that, although the PPT sequence is relatively resistant to RNase H cleavage, it can be cleaved internally by the polymerase-independent RNase H activity of Ty1 RT. Alternatively, this PPT can be used to initiate plus-strand DNA synthesis. We demonstrate that cleavage at the PPT/DNA junction occurs only after at least 9 nucleotides are extended. Cleavage leaves a nick between the RNA primer and the nascent plus-strand DNA. We show that Ty1 RT has a strand displacement activity beyond a gap but that the PPT is not efficiently re-utilized in vitro for another round of DNA synthesis after a first plus-strand DNA has been synthesized and cleaved at the PPT/U3 junction.},
note = {0021-9258
Journal Article},
keywords = {Base, Calf, Data, DNA, DNA/chemistry, Genetic, Gov't, H, Messenger/metabolism, Models, Molecular, Non-U.S., P.H.S., Polymerase/*chemistry, Primers, Proteins/chemistry, Purines/*chemistry, Recombinant, Replication, Retroelements/*genetics, Ribonuclease, RNA, RNA-Directed, RNA/chemistry, Sequence, Support, Templates, Thymus/chemistry, U.S., Viral},
pubstate = {published},
tppubtype = {article}
}
2002
Wilhelm M., Fishman J. A., Pontikis R., Aubertin A. M., Wilhelm F. X.
Susceptibility of recombinant porcine endogenous retrovirus reverse transcriptase to nucleoside and non-nucleoside inhibitors Journal Article
In: Cell Mol Life Sci, vol. 59, no. 12, pp. 2184-90, 2002, (1420-682x Journal Article).
Abstract | BibTeX | Tags: Acid, Amino, Animals, Calf, Chloride/metabolism, Chlorides/metabolism, Cloning, Compounds/metabolism, Data, DNA, DNA-Directed, endogenous, Gov't, H, Human, Inhibitors/*pharmacology, Magnesium, Manganese, Molecular, Non-U.S., Nucleosides/chemistry/*metabolism, P.H.S., Polymerase/chemistry/genetics/*metabolism, Polymerase/metabolism, Proteins/metabolism, Recombinant, Retroviruses/*enzymology, Reverse, Ribonuclease, RNA-Directed, Sequence, Sodium, structure, Support, Swine, Thymus/metabolism, Transcriptase, U.S.
@article{,
title = {Susceptibility of recombinant porcine endogenous retrovirus reverse transcriptase to nucleoside and non-nucleoside inhibitors},
author = { M. Wilhelm and J. A. Fishman and R. Pontikis and A. M. Aubertin and F. X. Wilhelm},
year = {2002},
date = {2002-01-01},
journal = {Cell Mol Life Sci},
volume = {59},
number = {12},
pages = {2184-90},
abstract = {Transplantation of organs, tissues or cells from pigs to humans could be a potential solution to the shortage of human organs for transplantation. Porcine endogenous retroviruses (PERVs) remain a major safety concern for porcine xenotransplantation. Thus, finding drugs that could be used as virological prophylaxis (or therapy) against PERV replication would be desirable. One of the most effective ways to block retroviral multiplication is to inhibit the enzyme reverse transcriptase (RT) which catalyzes the reverse transcription of viral RNA to proviral double-stranded DNA. We report here the cloning and expression of PERV RT and its susceptibility to several inhibitors. Our data demonstrate PERV susceptibility in vitro to the triphosphorylated nucleoside analog of zidovudine (AZT) and to ddGTP and to a lesser extent to ddTTP but almost no susceptibility to the non-nucleoside RT inhibitors tested.},
note = {1420-682x
Journal Article},
keywords = {Acid, Amino, Animals, Calf, Chloride/metabolism, Chlorides/metabolism, Cloning, Compounds/metabolism, Data, DNA, DNA-Directed, endogenous, Gov't, H, Human, Inhibitors/*pharmacology, Magnesium, Manganese, Molecular, Non-U.S., Nucleosides/chemistry/*metabolism, P.H.S., Polymerase/chemistry/genetics/*metabolism, Polymerase/metabolism, Proteins/metabolism, Recombinant, Retroviruses/*enzymology, Reverse, Ribonuclease, RNA-Directed, Sequence, Sodium, structure, Support, Swine, Thymus/metabolism, Transcriptase, U.S.},
pubstate = {published},
tppubtype = {article}
}
2001
Wilhelm M., Uzun O., Mules E. H., Gabriel A., Wilhelm F. X.
Polypurine tract formation by Ty1 RNase H Journal Article
In: J Biol Chem, vol. 276, no. 50, pp. 47695-701, 2001, (0021-9258 Journal Article).
Abstract | BibTeX | Tags: *Purines, *Retroelements, Base, Binding, Calf, Data, DNA, DNA/metabolism, Factors, Gov't, H, Hydrolysis, Molecular, Mutation, Non-U.S., P.H.S., Polymerase/*chemistry/*metabolism, Primers/pharmacology, Protein, Proteins/metabolism, Recombinant, Ribonuclease, RNA-Directed, RNA/metabolism, Sequence, Sites, Support, Thymus/*chemistry/*genetics/metabolism, time, U.S.
@article{,
title = {Polypurine tract formation by Ty1 RNase H},
author = { M. Wilhelm and O. Uzun and E. H. Mules and A. Gabriel and F. X. Wilhelm},
year = {2001},
date = {2001-01-01},
journal = {J Biol Chem},
volume = {276},
number = {50},
pages = {47695-701},
abstract = {To better understand the mechanism by which Ty1 RNase H creates the polypurine tract (PPT) primer, we have demonstrated the polymerase-dependent hydrolytic activity of Ty1 reverse transcriptase (RT) during minus-strand synthesis. Using RNase H and polymerase mutants of the recombinant Ty1 RT protein, we show that the two domains of Ty1 RT can act independently of one another. Our results indicate that RNA/DNA substrates containing a short RNA PPT, which serve as primers for plus-strand DNA synthesis, are relatively resistant to RNase H cleavage. RNA substrates with a correct 5' end but with 3' end extending beyond the plus-strand initiation site were cleaved specifically to generate the correct 3' end of the PPT. Using long RNA/DNA duplexes containing the PPT, we show that Ty1 RT is able to make specific internal cleavages that could generate the plus-strand primer with correct 5' and 3' ends. Long RNA/DNA duplexes with mutations in the PPT or in a U-rich region upstream of the PPT, which abolish plus-strand initiation in vivo, were not cleaved specifically at the 5' end of the PPT. Our work demonstrates that the in vitro enzyme can recapitulate key processes that control proper replication in vivo.},
note = {0021-9258
Journal Article},
keywords = {*Purines, *Retroelements, Base, Binding, Calf, Data, DNA, DNA/metabolism, Factors, Gov't, H, Hydrolysis, Molecular, Mutation, Non-U.S., P.H.S., Polymerase/*chemistry/*metabolism, Primers/pharmacology, Protein, Proteins/metabolism, Recombinant, Ribonuclease, RNA-Directed, RNA/metabolism, Sequence, Sites, Support, Thymus/*chemistry/*genetics/metabolism, time, U.S.},
pubstate = {published},
tppubtype = {article}
}
2000
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 Journal Article
In: Biochem J, vol. 348, no. Pt 2, pp. 337-42, 2000, (0264-6021 Journal Article).
Abstract | BibTeX | Tags: &, 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}
}
1999
Auxilien S., Keith G., Grice S. F. Le, Darlix J. L.
Role of post-transcriptional modifications of primer tRNALys,3 in the fidelity and efficacy of plus strand DNA transfer during HIV-1 reverse transcription Journal Article
In: J Biol Chem, vol. 274, no. 7, pp. 4412-20, 1999, (0021-9258 Journal Article).
Abstract | BibTeX | Tags: *RNA, *Transcription, Acid, Base, Calf, Conformation, Data, DNA, Genetic, Gov't, H, HIV-1, HIV-1/*physiology, Lys/*metabolism, Molecular, Non-U.S., Nucleic, post-transcriptional, Processing, Reverse, Ribonuclease, RNA, Sequence, Support, Templates, Thymus/metabolism, Transcriptase/metabolism, Transfer, Viral/*metabolism, Viral/metabolism
@article{,
title = {Role of post-transcriptional modifications of primer tRNALys,3 in the fidelity and efficacy of plus strand DNA transfer during HIV-1 reverse transcription},
author = { S. Auxilien and G. Keith and S. F. Le Grice and J. L. Darlix},
year = {1999},
date = {1999-01-01},
journal = {J Biol Chem},
volume = {274},
number = {7},
pages = {4412-20},
abstract = {During HIV reverse transcription, (+) strand DNA synthesis is primed by an RNase H-resistant sequence, the polypurine tract, and continues as far as a 18-nt double-stranded RNA region corresponding to the 3' end of tRNALys,3 hybridized to the viral primer binding site (PBS). Before (+) strand DNA transfer, reverse transcriptase (RT) needs to unwind the double-stranded tRNA-PBS RNA in order to reverse-transcribe the 3' end of primer tRNALys,3. Since the detailed mechanism of (+) strand DNA transfer remains incompletely understood, we developed an in vitro system to closely examine this mechanism, composed of HIV 5' RNA, natural modified tRNALys,3, synthetic unmodified tRNALys,3 or oligonucleotides (RNA or DNA) complementary to the PBS, as well as the viral proteins RT and nucleocapsid protein (NCp7). Prior to (+) strand DNA transfer, RT stalls at the double-stranded tRNA-PBS RNA complex and is able to reverse-transcribe modified nucleosides of natural tRNALys,3. Modified nucleoside m1A-58 of natural tRNALys,3 is only partially effective as a stop signal, as RT can transcribe as far as the hyper-modified adenosine (ms2t6A-37) in the anticodon loop. m1A-58 is almost always transcribed into A, whereas other modified nucleosides are transcribed correctly, except for m7G-46, which is sometimes transcribed into T. In contrast, synthetic tRNALys,3, an RNA PBS primer, and a DNA PBS primer are completely reverse-transcribed. In the presence of an acceptor template, (+) strand DNA transfer is efficient only with templates containing natural tRNALys,3 or the RNA PBS primer. Sequence analysis of transfer products revealed frequent errors at the transfer site with synthetic tRNALys,3, not observed with natural tRNALys,3. Thus, modified nucleoside m1A-58, present in all retroviral tRNA primers, appears to be important for both efficacy and fidelity of (+) strand DNA transfer. We show that other factors such as the nature of the (-) PBS of the acceptor template and the RNase H activity of RT also influence the efficacy of (+) strand DNA transfer.},
note = {0021-9258
Journal Article},
keywords = {*RNA, *Transcription, Acid, Base, Calf, Conformation, Data, DNA, Genetic, Gov't, H, HIV-1, HIV-1/*physiology, Lys/*metabolism, Molecular, Non-U.S., Nucleic, post-transcriptional, Processing, Reverse, Ribonuclease, RNA, Sequence, Support, Templates, Thymus/metabolism, Transcriptase/metabolism, Transfer, Viral/*metabolism, Viral/metabolism},
pubstate = {published},
tppubtype = {article}
}
1997
Bergdoll M., Remy M. H., Cagnon C., Masson J. M., Dumas P.
Proline-dependent oligomerization with arm exchange Journal Article
In: Structure, vol. 5, no. 3, pp. 391-401, 1997, (0969-2126 Journal Article).
Abstract | BibTeX | Tags: *Acetyltransferases, *Dimerization, *Protein, Acid, Alignment, Amino, Aminotransferases/chemistry, Animals, Aspartate, ATPase/chemistry, Bacterial, Binding, Cattle, Chickens, Comparative, Conformation, Data, Folding, Heart/enzymology, Human, mitochondria, Models, Molecular, Mutagenesis, Na(+)-K(+)-Exchanging, Pancreatic/chemistry, Plant, Proline/*physiology, Protein, Proteins/chemistry, Pyrophosphatases/chemistry, Ribonuclease, Sequence, Site-Directed, Structural, Study, Viral, Viruses/chemistry
@article{,
title = {Proline-dependent oligomerization with arm exchange},
author = { M. Bergdoll and M. H. Remy and C. Cagnon and J. M. Masson and P. Dumas},
year = {1997},
date = {1997-01-01},
journal = {Structure},
volume = {5},
number = {3},
pages = {391-401},
abstract = {BACKGROUND: Oligomerization is often necessary for protein activity or regulation and its efficiency is fundamental for the cell. The quaternary structure of a large number of oligomers consists of protomers tightly anchored to each other by exchanged arms or swapped domains. However, nothing is known about how the arms can be kept in a favourable conformation before such an oligomerization. RESULTS: Upon examination of such quaternary structures, we observe an extremely frequent occurrence of proline residues at the point where the arm leaves the protomer. Sequence alignment and site-directed mutagenesis confirm the importance of these prolines. The conservation of these residues at the hinge regions can be explained by the constraints that they impose on polypeptide conformation and dynamics: by rigidifying the mainchain, prolines favour extended conformations of arms thus favouring oligomerization, and may prevent interaction of the arms with the core of the protomer. CONCLUSIONS: Hinge prolines can be considered as 'quaternary structure helpers'. The presence of a proline should be considered when searching for a determinant of oligomerization with arm exchange and could be used to engineer synthetic oligomers or to displace a monomers to oligomers equilibrium by mutation of this proline residue.},
note = {0969-2126
Journal Article},
keywords = {*Acetyltransferases, *Dimerization, *Protein, Acid, Alignment, Amino, Aminotransferases/chemistry, Animals, Aspartate, ATPase/chemistry, Bacterial, Binding, Cattle, Chickens, Comparative, Conformation, Data, Folding, Heart/enzymology, Human, mitochondria, Models, Molecular, Mutagenesis, Na(+)-K(+)-Exchanging, Pancreatic/chemistry, Plant, Proline/*physiology, Protein, Proteins/chemistry, Pyrophosphatases/chemistry, Ribonuclease, Sequence, Site-Directed, Structural, Study, Viral, Viruses/chemistry},
pubstate = {published},
tppubtype = {article}
}
Wilhelm M., Heyman T., Friant S., Wilhelm F. X.
Heterogeneous terminal structure of Ty1 and Ty3 reverse transcripts Journal Article
In: Nucleic Acids Res, vol. 25, no. 11, pp. 2161-6, 1997, (0305-1048 Journal Article).
Abstract | BibTeX | Tags: *Nucleic, *Transcription, Acid, Calf, Chain, Conformation, DNA, Fungal/*chemistry/metabolism, Genetic, Gov't, H, Hybridization, Non-U.S., Nucleic, Plasmids/chemistry/genetics/metabolism, Polymerase, Reaction, Replication, Retroelements/*genetics, Ribonuclease, RNA, Support, Thymus/metabolism, Transfer/chemistry
@article{,
title = {Heterogeneous terminal structure of Ty1 and Ty3 reverse transcripts},
author = { M. Wilhelm and T. Heyman and S. Friant and F. X. Wilhelm},
year = {1997},
date = {1997-01-01},
journal = {Nucleic Acids Res},
volume = {25},
number = {11},
pages = {2161-6},
abstract = {A specific terminal structure of preintegrative DNA is required for transposition of retroviruses and LTR-retrotransposons. We have used an anchored PCR technique to map the 3'ends of DNA intermediates synthesized inside yeast Ty1 and Ty3 retrotransposon virus-like particles. We find that, unlike retroviruses, Ty1 replicated DNA does not have two extra base pairs at its 3'ends. In contrast some Ty3 preintegrative DNA molecules have two extra nucleotides at the 3'end of upstream and downstream long terminal repeats. Moreover we find that some molecules of replicated Ty3 DNA have more than two extra nucleotides at the 3'end of the upstream LTR. This observation could be accounted for by imprecise RNAse H cutting of the PPT sequence. The site of Ty1 and Ty3 plus-strand strong-stop DNA termination was also examined. Our results confirm that the prominent Ty1 and Ty3 plus-strand strong-stop molecules harbor 12 tRNA templated bases but also show that some Ty1 and Ty3 plus-strand strong-stop DNA molecules harbor less tRNA templated bases. We propose that these less than full length plus-strand molecules could be active intermediates in Ty retrotransposon replication.},
note = {0305-1048
Journal Article},
keywords = {*Nucleic, *Transcription, Acid, Calf, Chain, Conformation, DNA, Fungal/*chemistry/metabolism, Genetic, Gov't, H, Hybridization, Non-U.S., Nucleic, Plasmids/chemistry/genetics/metabolism, Polymerase, Reaction, Replication, Retroelements/*genetics, Ribonuclease, RNA, Support, Thymus/metabolism, Transfer/chemistry},
pubstate = {published},
tppubtype = {article}
}
1992
Przykorska A., el Adlouni C., Keith G., Szarkowski J. W., Dirheimer G.
Structural specificity of Rn nuclease I as probed on yeast tRNA(Phe) and tRNA(Asp) Journal Article
In: Nucleic Acids Res, vol. 20, no. 4, pp. 659-63, 1992, (0305-1048 Journal Article).
Abstract | BibTeX | Tags: Acid, Asp/chemistry/genetics/*metabolism, Base, cereale, Composition, Conformation, Data, Gov't, Molecular, Non-U.S., Nucleic, Pancreatic/*metabolism, Phe/chemistry/genetics/*metabolism, Ribonuclease, RNA, Secale, Sequence, Specificity, Substrate, Support, Transfer, Yeasts/genetics
@article{,
title = {Structural specificity of Rn nuclease I as probed on yeast tRNA(Phe) and tRNA(Asp)},
author = { A. Przykorska and C. el Adlouni and G. Keith and J. W. Szarkowski and G. Dirheimer},
year = {1992},
date = {1992-01-01},
journal = {Nucleic Acids Res},
volume = {20},
number = {4},
pages = {659-63},
abstract = {A single-strand-specific nuclease from rye germ (Rn nuclease I) was characterized as a tool for secondary and tertiary structure investigation of RNAs. To test the procedure, yeast tRNA(Phe) and tRNA(Asp) for which the tertiary structures are known, as well as the 3'-half of tRNA(Asp) were used as substrates. In tRNA(Phe) the nuclease introduced main primary cuts at positions U33 and A35 of the anticodon loop and G18 and G19 of the D loop. No primary cuts were observed within the double stranded stems. In tRNA(Asp) the main cuts occurred at positions U33, G34, U35, C36 of the anticodon loop and G18 and C20:1 positions in the D loop. No cuts were observed in the T loop in intact tRNA(Asp) but strong primary cleavages occurred at positions psi 55, C56, A57 within that loop in the absence of the tertiary interactions between T and D loops (use of 3'-half tRNA(Asp)). These results show that Rn nuclease I is specific for exposed single-stranded regions.},
note = {0305-1048
Journal Article},
keywords = {Acid, Asp/chemistry/genetics/*metabolism, Base, cereale, Composition, Conformation, Data, Gov't, Molecular, Non-U.S., Nucleic, Pancreatic/*metabolism, Phe/chemistry/genetics/*metabolism, Ribonuclease, RNA, Secale, Sequence, Specificity, Substrate, Support, Transfer, Yeasts/genetics},
pubstate = {published},
tppubtype = {article}
}