Antje Nickel scite author profile

Antje Nickel

4Publications

102Citation Statements Received

64Citation Statements Given

How they've been cited

125

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Affiliations

Federal Office for Food and Agriculture, Institut für biologische Forschung, Institut für Bodenkultur und Pflanzenbau

Publications

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Horizontal Escape of the Novel Tc1-Like Lepidopteran Transposon TCp3.2 into Cydia pomonella Granulovirus

Jehle

Nickel

Vlak³

et al. 1998

J Mol Evol

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We characterized an insertion mutant of the baculovirus Cydia pomonella granulovirus (CpGV), which contained a transposable element of 3.2 kb. This transposon, termed TCp3.2, has unusually long inverted terminal repeats (ITRs) of 756 bp and encodes a defective gene for a putative transposase. Amino acid sequence comparison of the defective transposase gene revealed a distant relationship to a putative transposon in Caenorhabditis elegans which also shares some similarity of the ITRs. Maximum parsimony analysis of the predicted amino acid sequences of Tc1- and mariner-like transposases available from the GenBank data base grouped TCp3.2 within the superfamily of Tc1-like transposons. DNA hybridization indicated that TCp3.2 originated from the genome of Cydia pomonella, which is the natural host of CpGV, and is present in less than 10 copies in the C. pomonella genome. The transposon TCp3.2 most likely was inserted into the viral genome during infection of host larvae. TCp3.2 and the recently characterized Tc1-like transposon TC14.7 (Jehle et al. 1995), which was also found in a CpGV mutant, represent a new family of transposons found in baculovirus genomes. The occasional horizontal escape of different types of host transposons into baculovirus genomes evokes the question about the possible role of baculoviruses as an interspecies vector in the horizontal transmission of insect transposons.

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TCl4.7: A Novel Lepidopteran Transposon Found in Cydia pomonella Granulosis Virus

et al. 1995

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After the co-infection of larvae of the lepidopteran Cryptophlebia leucotreta with the two baculoviruses C. leucotreta granulosis virus and Cydia pomonella granulosis virus (CIGV and CpGV, respectively), three CpGV mutants and one CIGV mutant carrying insertions of 0.9 to 4.7 kb have been isolated. By cloning, sequencing, and hybridization analysis, one of these insertions was identified as a transposon-like element derived from the C. leucotreta genome. This element, called TCl4.7, was found in the genome of CpGV which naturally replicates in C. pomonella. Sequence analysis suggested that TCl4.7 is 4726 bp in size, flanked by imperfect inverted terminal repeats of 29 bp, and integrated into the target dinucleotide TA. TCl4.7 encompasses an open reading frame sharing homologies to transposase genes of the Tc1-related transposable elements found in Caenorhabditis and in Drosophila species. The open reading frame might represent a pseudogene since it is missing an ATG start codon. The integration site of TCl4.7 is located in a non-protein-coding region of the CpGV genome at m.u. 9.5. In bioassays the TCl4.7-carrying virus and all the other mutants except for one showed LC50 values similar to those of CpGV and CIGV. This is the first report of the horizontal escape of a transposable element during the in vivo infection of lepidopteran larvae by granulosis viruses.

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From Gene Transfer to Risk Assessment: Experiences with Genetic Variability in Baculoviruses and New Approaches to Analyse the Reaction of Microbial Communities to Stress Factors

Backhaus¹,

Nickel²,

Fritsch

et al. 1996

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Partial Characterization of a Gene for a 31 kD Protein of Pseudomonas syringae pv. syringae Apparently Involved in Pathogenicity

Niepold

Nickel

Landsmann

1994

Journal of Phytopathology

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P. syringae pv. syringae strain R32 causes the bacterial brown spot disease on bush beans. A 31 kD protein was detected which is involved in the pathogenic response. Monospecific antibodies directed against this 31 kD-protein were used to screen a protein expression gene bank made from the wild type strain R32. A 0.8 kb DNA insert of a clone which gave a positive reaction with the monospecific antibodies was used in hybridizations to clone a larger chromosomal fragment. A km-cassette (kmresistance) was integrated into this chromosomal DNA-fragment preventing the expression of the 31 kD-protein. This construct was integrated into the chromosome of the wild type strain R32 via homologous recombination resulting in the 31 kD-protein deficient mutant LMI. Biotests with the host plant (bean) and with tobacco leaves showed no symptoms or hypersensitive reaction (HR) when the mutant LMI was inoculated. However, atypical chlorotic and necrotic lesions compared to the wild type strain R32 were found on tobacco leaves when the mutant LMI was incubated for more than 2 weeks. Complementation of the LMI mutant with a plasmid harbouring the corresponding wild type R32 DNA fragment resulted in an isolate (LMIC) which showed a partial restoration of the HR on tobacco but no brown spot disease symptoms on bush beans. The 31 kD-protein could be detected serologically in LMIC. Zusammenfassung Teilcharakterisierung eines an der pathogenese beteiligten 31 kD Protein-Gens vonPseudomonas syringae pv. syringae Bei P. syringae pv. syringae Isolat R32, dem Erreger der bakteriellen Braunfleckenkrankheit an Buschbohnen, wurde serologisch ein 31 kD-Protein nachgewiesen, das bei der Pathogenese involviert ist. Eine Protein-Expressions-Klonbank vom Wildtyp Isolat R32 wurde mit monospezifischen Antikorpern getestet, die mit dem 31 kD-Protein reagierten. Es wurde ein positiv reagierender Klon gefunden. Dessen 0,8 kb-Insert wurde zur Hybridisierung mit einer chromosomalen DNA-Klonbank vom Wildtyp Isolat R32 verwendet, um einen grofieren Genbereich zu klonieren. In den fur das 31 kD-Protein codierenden Bereich wurde eine Kanamycin-Kassette (Km-Resistenz) integriert. Durch homologe Rekombination dieses Konstrukts in das Chromosom des Wildtyps Isolat R32 wurde die Expression des 31 kD-Proteins verhindert. Bei dieser Mutante (LMI) war es serologisch nicht mehr U. S.

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Antje Nickel

Horizontal Escape of the Novel Tc1-Like Lepidopteran Transposon TCp3.2 into Cydia pomonella Granulovirus

TCl4.7: A Novel Lepidopteran Transposon Found in Cydia pomonella Granulosis Virus

From Gene Transfer to Risk Assessment: Experiences with Genetic Variability in Baculoviruses and New Approaches to Analyse the Reaction of Microbial Communities to Stress Factors

Partial Characterization of a Gene for a 31 kD Protein of Pseudomonas syringae pv. syringae Apparently Involved in Pathogenicity

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