BackgroundPest insects are increasingly resistant to phosphine gas, which is used globally to pro... more BackgroundPest insects are increasingly resistant to phosphine gas, which is used globally to protect grain reserves. The enzyme dihydrolipoamide dehydrogenase (DLD) is a phosphine resistance factor and participates in four key steps of core metabolism, making it a potential central metabolic regulator.ResultsHere we used microarray data and NMR-based metabolomics to characterize the phosphine response of wild-typeC. elegansand the phosphine-resistant straindld-1(wr4) which has a partial loss-of-function mutation in the gene for DLD. In addition, we have constructedCeCon, aC. elegansgenome-scale metabolic model to facilitate integration of gene expression and metabolomics data.ConclusionsThe resulting systems biology analysis is consistent with the hypothesis that adaptation to a hypometabolic state is the most prominent mechanism of phosphine resistance in this nematode strain. The involvement of DLD in regulating and creating hypometabolic adaptation has implications for other bio...
Despite the unparalleled diversity of venomous snakes in Australia, research has concentrated on ... more Despite the unparalleled diversity of venomous snakes in Australia, research has concentrated on a handful of medically significant species and even of these very few toxins have been fully sequenced. In this study, venom gland transcriptomes were sequenced from eleven species of small Australian elapid snakes, from eleven genera, spanning a broad phylogenetic range. The particularly large number of sequences obtained for three-finger toxin (3FTx) peptides allowed for robust reconstructions of their dynamic molecular evolutionary histories. We demonstrated that each species preferentially favoured different types of α-neurotoxic 3FTx, probably as a result of differing feeding ecologies. The three forms of α-neurotoxin [Type I (also known as (aka): short-chain), Type II (aka: long-chain) and Type III] not only adopted differential rates of evolution, but have also conserved a diversity of residues, presumably to potentiate prey-specific toxicity. Despite these differences, the differ...
C/D box small nucleolar RNAs (snoRNAs) comprise a class of small noncoding RNAs with important re... more C/D box small nucleolar RNAs (snoRNAs) comprise a class of small noncoding RNAs with important regulatory effects on cellular RNA function. Although it is well established that snoRNAs coordinate the post-transcriptional modification of pre-ribosomal and small nuclear RNAs by 2’-O-methylation, which leads to enhanced RNA stability, whether they are necessary for memory-related processes remains relatively unexplored. Using targeted sequencing, we have identified more than 150 C/D box snoRNAs in the prefrontal cortex of male C57BL/6J mice, 31 of which are differentially expressed in response to fear extinction learning. We have also discovered a subset of snoRNAs, including many orphans, that are enriched in the synaptic compartment, including the orphan snoRNA snord64. An extinction learning-induced increase in synapse-enriched snord64 led to increased 2’-O-methylation within the 3-UTR of the mRNA encoding the ubiquitin ligase RNF146. This effect was blocked by snord64 knockdown and...
Despite the unparalleled diversity of venomous snakes in Australia, research has concentrated on ... more Despite the unparalleled diversity of venomous snakes in Australia, research has concentrated on a handful of medically significant species and even of these very few toxins have been fully sequenced. In this study, venom gland transcriptomes were sequenced from eleven species of small Australian elapid snakes, from eleven genera, spanning a broad phylogenetic range. The particularly large number of sequences obtained for three-finger toxin (3FTx) peptides allowed for robust reconstructions of their dynamic molecular evolutionary histories. We demonstrated that each species preferentially favoured different types of α-neurotoxic 3FTx, probably as a result of differing feeding ecologies. The three forms of α-neurotoxin [Type I (also known as (aka): short-chain), Type II (aka: long-chain) and Type III] not only adopted differential rates of evolution, but have also conserved a diversity of residues, presumably to potentiate prey-specific toxicity. Despite these differences, the differ...
BackgroundPest insects are increasingly resistant to phosphine gas, which is used globally to pro... more BackgroundPest insects are increasingly resistant to phosphine gas, which is used globally to protect grain reserves. The enzyme dihydrolipoamide dehydrogenase (DLD) is a phosphine resistance factor and participates in four key steps of core metabolism, making it a potential central metabolic regulator.ResultsHere we used microarray data and NMR-based metabolomics to characterize the phosphine response of wild-typeC. elegansand the phosphine-resistant straindld-1(wr4) which has a partial loss-of-function mutation in the gene for DLD. In addition, we have constructedCeCon, aC. elegansgenome-scale metabolic model to facilitate integration of gene expression and metabolomics data.ConclusionsThe resulting systems biology analysis is consistent with the hypothesis that adaptation to a hypometabolic state is the most prominent mechanism of phosphine resistance in this nematode strain. The involvement of DLD in regulating and creating hypometabolic adaptation has implications for other bio...
Despite the unparalleled diversity of venomous snakes in Australia, research has concentrated on ... more Despite the unparalleled diversity of venomous snakes in Australia, research has concentrated on a handful of medically significant species and even of these very few toxins have been fully sequenced. In this study, venom gland transcriptomes were sequenced from eleven species of small Australian elapid snakes, from eleven genera, spanning a broad phylogenetic range. The particularly large number of sequences obtained for three-finger toxin (3FTx) peptides allowed for robust reconstructions of their dynamic molecular evolutionary histories. We demonstrated that each species preferentially favoured different types of α-neurotoxic 3FTx, probably as a result of differing feeding ecologies. The three forms of α-neurotoxin [Type I (also known as (aka): short-chain), Type II (aka: long-chain) and Type III] not only adopted differential rates of evolution, but have also conserved a diversity of residues, presumably to potentiate prey-specific toxicity. Despite these differences, the differ...
C/D box small nucleolar RNAs (snoRNAs) comprise a class of small noncoding RNAs with important re... more C/D box small nucleolar RNAs (snoRNAs) comprise a class of small noncoding RNAs with important regulatory effects on cellular RNA function. Although it is well established that snoRNAs coordinate the post-transcriptional modification of pre-ribosomal and small nuclear RNAs by 2’-O-methylation, which leads to enhanced RNA stability, whether they are necessary for memory-related processes remains relatively unexplored. Using targeted sequencing, we have identified more than 150 C/D box snoRNAs in the prefrontal cortex of male C57BL/6J mice, 31 of which are differentially expressed in response to fear extinction learning. We have also discovered a subset of snoRNAs, including many orphans, that are enriched in the synaptic compartment, including the orphan snoRNA snord64. An extinction learning-induced increase in synapse-enriched snord64 led to increased 2’-O-methylation within the 3-UTR of the mRNA encoding the ubiquitin ligase RNF146. This effect was blocked by snord64 knockdown and...
Despite the unparalleled diversity of venomous snakes in Australia, research has concentrated on ... more Despite the unparalleled diversity of venomous snakes in Australia, research has concentrated on a handful of medically significant species and even of these very few toxins have been fully sequenced. In this study, venom gland transcriptomes were sequenced from eleven species of small Australian elapid snakes, from eleven genera, spanning a broad phylogenetic range. The particularly large number of sequences obtained for three-finger toxin (3FTx) peptides allowed for robust reconstructions of their dynamic molecular evolutionary histories. We demonstrated that each species preferentially favoured different types of α-neurotoxic 3FTx, probably as a result of differing feeding ecologies. The three forms of α-neurotoxin [Type I (also known as (aka): short-chain), Type II (aka: long-chain) and Type III] not only adopted differential rates of evolution, but have also conserved a diversity of residues, presumably to potentiate prey-specific toxicity. Despite these differences, the differ...
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