Papers by Michael Collett
GENETIC DISSECTION OF THE PAXILLINE AND LOLITREM INDOLE DITERPENOID BIOSYNTHETIC PATHWAY IN ACREMONIUM ENDOPHYTES AND PENICILLIUM SPP
Genetics, 2002
Visible light is thought to reset the Neurospora circadian clock by acting through heterodimers o... more Visible light is thought to reset the Neurospora circadian clock by acting through heterodimers of the WHITE COLLAR-1 and WHITE COLLAR-2 proteins to induce transcription of the frequency gene. To characterize this photic entrainment we examined frq expression in constant light, under which condition the mRNA and protein of this clock gene were strongly induced. In continuous illumination FRQ accumulated in a highly phosphorylated state similar to that seen at subjective dusk, the time at which a step from constant light to darkness sets the clock. Examination of frq expression in several wc-2 mutant alleles surprisingly revealed differential regulation when frq expression was compared between constant light, following a light pulse, and darkness (clock-driven expression). Construction of a wc-2 null strain then demonstrated that WC-2 is absolutely required for both light and clock-driven frq expression, in contrast to previous expectations based on presumptive nulls containing alter...
Molecular and cellular biology, 2001
To understand the role of white collar-2 in the Neurospora circadian clock, we examined alleles o... more To understand the role of white collar-2 in the Neurospora circadian clock, we examined alleles of wc-2 thought to encode partially functional proteins. We found that wc-2 allele ER24 contained a conservative mutation in the zinc finger. This mutation results in reduced levels of circadian rhythm-critical clock gene products, frq mRNA and FRQ protein, and in a lengthened period of the circadian clock. In addition, this mutation altered a second canonical property of the clock, temperature compensation: as temperature increased, period length decreased substantially. This temperature compensation defect correlated with a temperature-dependent increase in overall FRQ protein levels, with the relative increase being greater in wc-2 (ER24) than in wild type, while overall frq mRNA levels were largely unaltered by temperature. We suggest that this temperature-dependent increase in FRQ levels partially rescues the lowered levels of FRQ resulting from the wc-2 (ER24) defect, yielding a sho...
Genetics, 1994
Seed-borne fungal symbionts (endophytes) provide many cool-season grass species with biological p... more Seed-borne fungal symbionts (endophytes) provide many cool-season grass species with biological protection from biotic and abiotic stresses. The endophytes are asexual, whereas closely related sexual species of genus Epichloë (Clavicipitales) cause grass choke disease. Perennial ryegrass (Lolium perenne) is a host of two endophyte taxa, LpTG-1 (L. perenne endophyte taxonomic grouping one = Acremonium lolii) and LpTG-2, as well as the choke pathogen, Epichloë typhina (represented by isolate E8). Relationships among these fungi and other Epichloë species were investigated by analysis of gene sequences, DNA polymorphisms and allozymes. The results indicate that LpTG-2 is a heteroploid derived from an interspecific hybrid. The LpTG-2 isolates had two copies each of nine out of ten genes analyzed (the exception being the rRNA gene locus), and the profiles for seven of these were composites of those from E. typhina E8 and A. lolii isolate Lp5. Molecular phylogenetic analysis grouped the t...
Genome Biology, 2007
Surface, secreted and transmembrane protein-encoding open reading frames, collectively the secret... more Surface, secreted and transmembrane protein-encoding open reading frames, collectively the secretome, can be identified in bacterial genome sequences using bioinformatics. However, functional analysis of translated secretomes is possible only if many secretome proteins are expressed and purified individually. We have now developed and applied a phage display system for direct selection, identification, expression and purification of bacterial secretome proteins.
Genetics, 2010
The Neurospora circadian oscillator comprises FREQUENCY (FRQ) and its transcription activator, th... more The Neurospora circadian oscillator comprises FREQUENCY (FRQ) and its transcription activator, the White Collar Complex (WCC). Repression of WCC's transcriptional activity by FRQ via negative feedback is indispensable for clock function. An unbiased genetic screen that targeted mutants with defects in negative feedback regulation yielded a fully viable arrhythmic strain bearing a novel allele of FRQ-interacting RNA helicase (frh), an essential gene that encodes a putative exosome component protein. In the allele, frh(R806H), clock function is completely disturbed, while roles of FRQ-interacting RNA helicase (FRH) essential for viability are left intact. FRH(R806H) still interacts with FRQ, but interaction between the FRQ-FRH(R806H) complex (FFC) and WCC is severely affected. Phosphorylation of WC-1 is reduced in the mutant leading to constantly elevated WCC activity, which breaks the negative feedback loop. WCC levels are considerably reduced in the mutant, especially those of WC-1, consistent both with loss of positive feedback (FRQ-dependent WC-1 stabilization) and with a reduced level of the FRQ-mediated WCC phosphorylation that leads to high WCC activity accompanied by rapid transcription-associated turnover. FRH overexpression promotes WC-1 accumulation, confirming that FRH together with FRQ plays a role in WC-1 stabilization. Identification of a viable allele of frh, displaying virtually complete loss of both negative and positive circadian feedback, positions FRH as a core component of the central oscillator that is permissive for rhythmicity but appears not to modulate periodicity. Moreover, the results suggest that there are clock-specific roles for FRH that are distinct from the predicted essential exosome-associated functions for the protein.
A mutualistic fungal symbiont of perennial ryegrass contains two different pyr4 genes, both expressing orotidine-5′-monophosphate decarboxylase
Gene, 1995
A fragment of the Claviceps purpurea pyr4 gene, encoding orotidine-5'-monophosphate decar... more A fragment of the Claviceps purpurea pyr4 gene, encoding orotidine-5'-monophosphate decarboxylase (OMP decarboxylase), was used to screen a genomic library from an isolate of a fungus, Acremonium sp. (designated Lp1), which grows as an endophyte in perennial ryegrass (Lolium perenne). Three positive clones, lambda MC11, lambda MC12 and lambda MC14, were isolated. Two of these clones, lambda MC12 and lambda MC14, were overlapping clones from the same locus, while lambda MC11 was from a different locus. Fragments of these clones which hybridised with C. purpurea pyr4 were sequenced and found to have similarity with pyr4 from other Pyrenomycete fungi. The pyr4 gene from lambda MC12 and lambda MC14 was designated pyr4-1 and that from lambda MC11 was designated pyr4-2. The predicted ORFs of the two genes were highly conserved, with 97.5% identity at the nucleotide level, the 5' non-coding sequences were the least conserved with 88.5% identity and the 3' non-coding sequences had 93.0% identity. RT-PCR analysis of total RNA from Lp1 demonstrated that transcripts from the two genes were present at similar levels, and hybridisation of pyr4-1 to Northern blots of total RNA from Lp1 showed that full-length transcripts were being produced. Genomic fragments containing pyr4 were transformed into a strain of Aspergillus nidulans which has a mutation in pyrG (encoding OMP decarboxylase). Both pyr4-1 and pyr4-2 complemented the pyrG mutation in A. nidulans, indicating that both encode functional OMP decarboxylases. It has been proposed [Schardl et al., Genetics 136 (1994) 1307-1317] that the two pyr4 in Lp1 arose by interspecific hybridisation, most likely between the ryegrass choke pathogen, Epichloë typhina, and another endophyte from perennial ryegrass, Acremonium lolii. Analysis by PCR amplification and direct sequencing of the variable 5' non-coding regions of pyr4, from possible ancestors to Lp1 supports this hypothesis. Comparisons of these sequences to the 5' non-coding sequences from pyr4-1 and pyr4-2 demonstrated that E. typhina and A. lolii were the most likely ancestors of the two pyr4 found in Lp1.
Unique secreted-surface protein complex of Lactobacillus rhamnosus , identified by phage display
MicrobiologyOpen, 2012
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Papers by Michael Collett