Peter R. Holden scite author profile

A 1194 bp open reading frame that codes for a 398 amino acid peptide was cloned from a lambda gt11 library of Drosophila melanogaster genomic DNA. The predicted peptide sequence is very similar to three previously characterized protein sequences that are encoded by the ftsZ genes in Escherichia coli, Bacillus subtilis and Rhizobium meliloti. The FtsZ protein has a major role in the initiation of cell division in prokaryotic cells. Using a tetracycline treatment that eradicates bacterial parasites from insects, the ftsZ homologue has been found to be derived from a bacterium that lives within the D. melanogaster strain. However, polymerase chain reaction (PCR) amplification of the gene from treated embryos suggests that it is not derived from a gut bacterium. Nevertheless, by amplifying and characterizing part of the 16S rRNA from this bacterium we have been able to demonstrate that it is a member of the genus Wolbachia, a parasitic organism that infects, and disturbs the sexual cycle of various strains of Drosophila simulans. We suggest that this ftsZ homologue is implicated in the cell division of Wolbachia, an organism that fails to grow outside the host organism. Sequence and alignment analysis of this ftsZ homologue show the presence of a potential GTP-binding motif indicating that it may function as a GTPase. The consequences of this function particularly with respect to its role in cell division are discussed.

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Evidence for aWolbachiasymbiont inDrosophila melanogaster

Holden¹,

Jones

Brookfield

1993

Genet. Res.

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The bacterial cell division gene, ftsZ, was used as a specific probe to show the presence of a symbiotic bacterium in two wild type strains of Drosophila melanogaster. Under stringent hybridization conditions we have shown that the bacterium is transferred to the progeny of these strains from infected mothers and can be eradicated by treatment with the antibiotic tetracycline. We have characterized this bacterium, by amplifying and sequencing its 16S rRNA gene, as being a member of the genus Wolbachia, an organism that is known to parasitize a range of insects including Drosophila simulans. In a series of reciprocal crosses no evidence was found that the symbiont causes cytoplasmic incompatibility (CI) which is known to occur in infected strains of D. simulans. The implications of these findings are discussed.

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A peroxisome proliferator-activated receptor-alpha (PPARα) cDNA cloned from guinea-pig liver encodes a protein with similar properties to the mouse PPARα: implications for species differences in responses to peroxisome proliferators

Tugwood

Holden

James

et al. 1998

Archives of Toxicology

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The peroxisome proliferator class of non-genotoxic rodent hepatocarcinogens cause hepatocyte DNA synthesis, peroxisome proliferation and liver tumours when administered to rats and mice, but fail to induce S-phase or peroxisome proliferation in hepatocytes from other species including guinea-pigs, dogs, and primates including humans. There are compelling data that implicate a nuclear receptor, the peroxisome proliferator-activated receptor-alpha (PPARalpha) as an important mediator of the toxic and carcinogenic effects of peroxisome proliferators (PPs). We were interested to consider the guinea-pig as a possible model for human responses to these compounds. This manuscript describes the isolation of a full-length cDNA encoding PPARalpha from guinea-pig liver that is closely related to receptors identified previously in mouse, rat and human. RNA hybridisation experiments suggested that the livers of the PP-responsive rat and mouse contained relatively high levels of PPARalpha transcripts, whereas in human and guinea-pig liver PPARalpha mRNA was much less abundant. Functional analyses suggested that the guinea-pig PPARalpha was able to be activated by PPs. DNA binding studies using in vitro translated proteins showed that the guinea-pig receptor was able to bind specifically to DNA in the presence of the retinoid X receptor (RXR), and transient transfection assays showed that the guinea-pig PPARalpha was capable of being transcriptionally activated in a concentration-dependent fashion by the PPs Wy-14,643 and nafenopin. Also, in guinea-pig primary hepatocyte cultures, a dominant negative repressor of PPARalpha ablated the suppression of spontaneous apoptosis by PPs. Taken together, these data show that the 'non-responsive' guinea-pig expresses active PPARalpha in the liver at reduced levels, and may be a useful model for exploring the mechanisms underlying the human response to PPs.

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Peter R. Holden

Peroxisome proliferator-activated receptor alpha: role in rodent liver cancer and species differences

Cloning and characterization of an ftsZ homologue from a bacterial symbiont of Drosophila melanogaster

Evidence for aWolbachiasymbiont inDrosophila melanogaster

A peroxisome proliferator-activated receptor-alpha (PPARα) cDNA cloned from guinea-pig liver encodes a protein with similar properties to the mouse PPARα: implications for species differences in responses to peroxisome proliferators

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