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2. Differential pheromone profile as a contributor to premating isolation between two sympatric sibling fruit fly species.

Author

Castro-Vargas, Cynthia, Oakeshott, John Graham, Yeap, Heng Lin, Lacey, Michael J, Lee, Siu Fai, Park, Soo Jean, Taylor, Phillip Warren, and Pandey, Gunjan

Subjects
*FRUIT flies, *ALIPHATIC alcohols, *FATTY acid esters, *GAS chromatography/Mass spectrometry (GC-MS), *SPECIES, REPRODUCTIVE isolation
Abstract

Bactrocera tryoni (Froggatt) and Bactrocera neohumeralis (Hardy) are sibling fruit fly species that are sympatric over much of their ranges. Premating isolation of these close relatives is thought to be maintained in part by allochrony—mating activity in B. tryoni peaks at dusk, whereas in B. neohumeralis , it peaks earlier in the day. To ascertain whether differences in pheromone composition may also contribute to premating isolation between them, this study used solid-phase microextraction and gas chromatography-mass spectrometry to characterize the rectal gland volatiles of a recently collected and a more domesticated strain of each species. These glands are typical production sites and reservoirs of pheromones in bactrocerans. A total of 120 peaks were detected and 50 were identified. Differences were found in the composition of the rectal gland emissions between the sexes, species, and recently collected versus domesticated strains of each species. The compositional variation included several presence/absence and many quantitative differences. Species and strain differences in males included several relatively small alcohols, esters, and aliphatic amides. Species and strain differences in females also included some of the amides but additionally involved many fatty acid esters and 3 spiroacetals. While the strain differences indicate there is also heritable variation in rectal gland emissions within each species, the species differences imply that compositional differences in pheromones emitted from rectal glands could contribute to the premating isolation between B. tryoni and B. neohumeralis. The changes during domestication could also have significant implications for the efficacy of Sterile Insect Technique control programs. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Physiology, Biochemistry, and Applications of F420- and Fo-Dependent Redox Reactions

Author

Greening, Chris, Ahmed, F Hafna, Mohamed, A Elaaf, Lee, Brendon M, Pandey, Gunjan, Warden, Andrew C, Scott, Colin, Oakeshott, John Graham, Taylor, Matthew C, Jackson, Colin J, Greening, Chris, Ahmed, F Hafna, Mohamed, A Elaaf, Lee, Brendon M, Pandey, Gunjan, Warden, Andrew C, Scott, Colin, Oakeshott, John Graham, Taylor, Matthew C, and Jackson, Colin J

Abstract

5-Deazaflavin cofactors enhance the metabolic flexibility of microorganisms by catalyzing a wide range of challenging enzymatic redox reactions. While structurally similar to riboflavin, 5-deazaflavins have distinctive and biologically useful electrochemical and photochemical properties as a result of the substitution of N-5 of the isoalloxazine ring for a carbon. 8-Hydroxy-5-deazaflavin (Fo) appears to be used for a single function: as a light-harvesting chromophore for DNA photolyases across the three domains of life. In contrast, its oligoglutamyl derivative F420 is a taxonomically restricted but functionally versatile cofactor that facilitates many low-potential two-electron redox reactions. It serves as an essential catabolic cofactor in methanogenic, sulfate-reducing, and likely methanotrophic archaea. It also transforms a wide range of exogenous substrates and endogenous metabolites in aerobic actinobacteria, for example mycobacteria and streptomycetes. In this review, we discuss the physiological roles of F420 in microorganisms and the biochemistry of the various oxidoreductases that mediate these roles. Particular focus is placed on the central roles of F420 in methanogenic archaea in processes such as substrate oxidation, C1 pathways, respiration, and oxygen detoxification. We also describe how two F420-dependent oxidoreductase superfamilies mediate many environmentally and medically important reactions in bacteria, including biosynthesis of tetracycline and pyrrolobenzodiazepine antibiotics by streptomycetes, activation of the prodrugs pretomanid and delamanid by Mycobacterium tuberculosis, and degradation of environmental contaminants such as picrate, aflatoxin, and malachite green. The biosynthesis pathways of Fo and F420 are also detailed. We conclude by considering opportunities to exploit deazaflavin-dependent processes in tuberculosis treatment, methane mitigation, bioremediation, and industrial biocatalysis.

Published
2016

4. A framework for incorporating evolutionary genomics into biodiversity conservation and management

Author

Hoffmann, Ary, Griffin, Philippa, Dillon, Shannon, Catullo, Renee, Rane, Rahul, Byrne, Margaret, Jordan, Rebecca, Oakeshott, John Graham, Weeks, Andrew, Joseph, Leo, Lockhart, Peter, Borevitz, Justin, Sgrò, Carla, Hoffmann, Ary, Griffin, Philippa, Dillon, Shannon, Catullo, Renee, Rane, Rahul, Byrne, Margaret, Jordan, Rebecca, Oakeshott, John Graham, Weeks, Andrew, Joseph, Leo, Lockhart, Peter, Borevitz, Justin, and Sgrò, Carla

Abstract

Evolutionary adaptation drives biodiversity. So far, however, evolutionary thinking has had limited impact on plans to counter the effects of climate change on biodiversity and associated ecosystem services. This is despite habitat fragmentation diminishing the ability of populations to mount evolutionary responses, via reductions in population size, reductions in gene flow and reductions in the heterogeneity of environments that populations occupy. Research on evolutionary adaptation to other challenges has benefitted enormously in recent years from genomic tools, but these have so far only been applied to the climate change issue in a piecemeal manner. Here, we explore how new genomic knowledge might be combined with evolutionary thinking in a decision framework aimed at reducing the long-term impacts of climate change on biodiversity and ecosystem services. This framework highlights the need to rethink local conservation and management efforts in biodiversity conservation. We take a dynamic view of biodiversity based on the recognition of continuously evolving lineages, and we highlight when and where new genomic approaches are justified. In general, and despite challenges in developing genomic tools for non-model organisms, genomics can help management decide when resources should be redirected to increasing gene flow and hybridisation across climate zones and facilitating in situ evolutionary change in large heterogeneous areas. It can also help inform when conservation priorities need to shift from maintaining genetically distinct populations and species to supporting processes of evolutionary change. We illustrate our argument with particular reference to Australia’s biodiversity.

Published
2015

5. Evolutionary expansion of the amidohydrolase superfamily in bacteria in response to the synthetic compounds molinate and diuron

Author

Sugrue, Elena, Fraser, Nicholas J., Hopkins, Davis H., Carr, Paul D., Khurana, Jeevan L., Oakeshott, John Graham, Scott, Colin, Jackson, Colin J., Sugrue, Elena, Fraser, Nicholas J., Hopkins, Davis H., Carr, Paul D., Khurana, Jeevan L., Oakeshott, John Graham, Scott, Colin, and Jackson, Colin J.

Abstract

The amidohydrolase superfamily has remarkable functional diversity, with considerable structural and functional annotation of known sequences. In microbes, the recent evolution of several members of this family to catalyze the breakdown of environmental xenobiotics is not well understood. An evolutionary transition from binuclear to mononuclear metal ion coordination at the active sites of these enzymes could produce large functional changes such as those observed in nature, but there are few clear examples available to support this hypothesis. To investigate the role of binuclear-mononuclear active-site transitions in the evolution of new function in this superfamily, we have characterized two recently evolved enzymes that catalyze the hydrolysis of the synthetic herbicides molinate (MolA) and phenylurea (PuhB). In this work, the crystal structures, mutagenesis, metal ion analysis, and enzyme kinetics of both MolA and PuhB establish that these enzymes utilize a mononuclear active site. However, bioinformatics and structural comparisons reveal that the closest putative ancestor of these enzymes had a binuclear active site, indicating that a binuclear-mononuclear transition has occurred. These proteins may represent examples of evolution modifying the characteristics of existing catalysts to satisfy new requirements, specifically, metal ion rearrangement leading to large leaps in activity that would not otherwise be possible.

Published
2015

6. Isomer-specific comparisons of the hydrolysis of synthetic pyrethroids and their fluorogenic analogues by esterases from the cotton bollworm Helicoverpa armigera

Author

Yuan, G, Li, Y, Farnsworth, Claire, Coppin, C. W, Devonshire, A. L, Scott, C, Russell, R. J, Wu, Y, Oakeshott, John Graham, Yuan, G, Li, Y, Farnsworth, Claire, Coppin, C. W, Devonshire, A. L, Scott, C, Russell, R. J, Wu, Y, and Oakeshott, John Graham

Abstract

The low aqueous solubility and chiral complexity of synthetic pyrethroids, together with large differences between isomers in their insecticidal potency, have hindered the development of meaningful assays of their metabolism and metabolic resistance to them. To overcome these problems, Shan and Hammock (2001) [7] therefore developed fluorogenic and more water-soluble analogues of all the individual isomers of the commonly used Type 2 pyrethroids, cypermethrin and fenvalerate. The analogues have now been used in several studies of esterase-based metabolism and metabolic resistance. Here we test the validity of these analogues by quantitatively comparing their hydrolysis by a battery of 22 heterologously expressed insect esterases with the hydrolysis of the corresponding pyrethroid isomers by these esterases in an HPLC assay recently developed by Teese etal. (2013) [14]. We find a strong, albeit not complete, correlation (r = 0.7) between rates for the two sets of substrates. The three most potent isomers tested were all relatively slowly degraded in both sets of data but three esterases previously associated with pyrethroid resistance in Helicoverpa armigera did not show higher activities for these isomers than did allelic enzymes derived from susceptible H.armigera. Given their amenability to continuous assays at low substrate concentrations in microplate format, and ready detection of product, we endorse the ongoing utility of the analogues in many metabolic studies of pyrethroids.

Published
2015

7. Intramolecular epistasis and the evolution of a new enzymatic function

Author

Noor, Sajid, Taylor, Matthew C, Russell, Robyn J, Jermiin, Lars S, Jackson, Colin J, Oakeshott, John Graham, Scott, Colin, Noor, Sajid, Taylor, Matthew C, Russell, Robyn J, Jermiin, Lars S, Jackson, Colin J, Oakeshott, John Graham, and Scott, Colin

Abstract

Atrazine chlorohydrolase (AtzA) and its close relative melamine deaminase (TriA) differ by just nine amino acid substitutions but have distinct catalytic activities. Together, they offer an informative model system to study the molecular processes that underpin the emergence of new enzymatic function. Here we have constructed the potential evolutionary trajectories between AtzA and TriA, and characterized the catalytic activities and biophysical properties of the intermediates along those trajectories. The order in which the nine amino acid substitutions that separate the enzymes could be introduced to either enzyme, while maintaining significant catalytic activity, was dictated by epistatic interactions, principally between three amino acids within the active site: namely, S331C, N328D and F84L. The mechanistic basis for the epistatic relationships is consistent with a model for the catalytic mechanisms in which protonation is required for hydrolysis of melamine, but not atrazine.

Published
2012

8. Competing S N 2 and E2 reaction pathways for hexachlorocyclohexane degradation in the gas phase, solution and enzymes

Author

Brittain, David, Pandey, Rinku, Kumari, Kirti, Sharma, Pooja, Pandey, Gunjan, Lal, Rup, Coote, Michelle, Oakeshott, John Graham, Jackson, Colin, Brittain, David, Pandey, Rinku, Kumari, Kirti, Sharma, Pooja, Pandey, Gunjan, Lal, Rup, Coote, Michelle, Oakeshott, John Graham, and Jackson, Colin

Abstract

Quantum chemistry calculations have been used alongside experimental kinetic analysis to investigate the competition between SN2 and E2 mechanisms for the dechlorination of hexachlorocyclohexane isomers, revealing that enzyme specificity reflects the intrinsic reactivity of the various isomers.

Published
2011

9. Enzyme synthesis and activity assay in microfluidic droplets on a chip

Author

Wu, Nan, Courtois, Fabienne, Surjadi, Regina, Oakeshott, John Graham, Peat, Thomas S, Easton, Christopher, Abell, Christopher, Zhu, Yonggang, Wu, Nan, Courtois, Fabienne, Surjadi, Regina, Oakeshott, John Graham, Peat, Thomas S, Easton, Christopher, Abell, Christopher, and Zhu, Yonggang

Abstract

There is growing demand for high-throughput measurement of biochemical reactions in drug discovery and directed evolution programs. To meet this need, a powerful platform based on droplet-based bioreactors manipulated by microfluidic systems is being developed, which can overcome the limitations of scale and power encountered in conventional screening methods. This paper reports our progress in the synthesis of enzymes and assay of their activity within a microfluidic droplet system. The model system we use involves the organophosphorus hydrolase enzyme OpdA from Agrobacterium radiobacter and a robust microchip made from polymethyl methacrylate (PMMA). Synthesis of OpdA from cognate DNA within water-in-oil droplets was tested using both in-house and commercial in vitro transcription and translation (IVTT) kits. OpdA activity was measured using coumaphos as substrate and by monitoring the fluorescence released by its product, chlorferone. OpdA was demonstrated to be synthesized and assayed within the droplets using the commercial in vitro transcription and translation kit, although the activity measured within the droplets diminished over time, apparently due to leakage of chlorferone out of the droplets.

Published
2011

10. A double-emulsion microfluidic platform for in vitro green fluorescent protein expression

Author

Wu, Nan, Oakeshott, John Graham, Easton, Christopher, Peat, Thomas S, Surjadi, Regina, Zhu, Yonggang, Wu, Nan, Oakeshott, John Graham, Easton, Christopher, Peat, Thomas S, Surjadi, Regina, and Zhu, Yonggang

Abstract

Microfluidic droplet technology has gained popularity due to the advantages over conventional emulsion techniques and capabilities for a wide range of applications. In this paper, the development of a simple microfluidic-based double-emulsion system is reported. Such a system could be potentially used for in vitro protein synthesis. The system involves a two-step process to make water-in-oil-in-water (W/O/W) emulsions. A PMMA microchip is used for the formation of water-in-oil (W/O) single-emulsion droplets. Then, the single-emulsion droplets are transported to a PDMS/glass microchip to make the W/O/W double-emulsion droplets. The system was first characterized by detecting fluorescein sodium salt as a model dye in the internal aqueous droplets using laser-induced fluorescence. The effect of the flow rates of the internal aqueous phase and outer continuous aqueous phase on the formation of the double-emulsion droplets is investigated to provide information for system optimization. On-chip storage of double-emulsion droplets is also investigated to allow for protein synthesis from a PCR-generated DNA template using either commercial in vitro transcription and translation kits or crude Escherichia coli S30 extracts. In vitro expression of the green fluorescent protein is successfully demonstrated in this system.

Published
2011

11. Using a genetically encoded fluorescent amino acid as a site-specific probe to detect binding of low-molecular-weight compounds

Author

Ugwumba, Isaac N, Ozawa, Kiyoshi, de la Cruz, Laura, Xu, Zhi-Qiang, Herlt, Anthony, Hadler, Kieran S, Coppin, Christopher Wayne, Brown, S, Schenk, Gerhard, Oakeshott, John Graham, Otting, Gottfried, Ugwumba, Isaac N, Ozawa, Kiyoshi, de la Cruz, Laura, Xu, Zhi-Qiang, Herlt, Anthony, Hadler, Kieran S, Coppin, Christopher Wayne, Brown, S, Schenk, Gerhard, Oakeshott, John Graham, and Otting, Gottfried

Abstract

Development of enzyme inhibitors requires an activity assay for the identification of hits and lead compounds. To determine dissociation constants in a straightforward manner, we explored the use of a genetically encoded fluorescent amino acid for site-specific tagging of the target protein. The unnatural amino acid 7-(hydroxy-coumarin-4-yl) ethylglycine (Hco) was site-specifically incorporated in the target protein by cell-free protein synthesis using an orthogonal amber suppressor tRNA/aminoacyl-tRNA synthetase pair. Using the West Nile virus nonstructural protein 2B-nonstructural protein 3 protease as the target protein, the fluorescence of Hco-tagged samples proved to be exquisitely sensitive to the presence of inhibitors and small ligand molecules if they bind in the vicinity of the Hco residue. No significant change in fluorescence was observed when the ligand-binding site was far from the Hco residue. Hco-tagged proteins thus combine outstanding sensitivity with accurate information on the site of binding, making Hco labeling an attractive tool in drug discovery.

Published
2011

12. Overexpressed esterases in a fenvalerate resistant strain of the cotton bollworm, Helicoverpa armigera

Author

Wu, Shuwen, Yang, Yihua, Yuan, Guorui, Campbell, Peter M, Teese, Mark, Russell, Robyn, Oakeshott, John Graham, Wu, Yidong, Wu, Shuwen, Yang, Yihua, Yuan, Guorui, Campbell, Peter M, Teese, Mark, Russell, Robyn, Oakeshott, John Graham, and Wu, Yidong

Abstract

Enhanced detoxification is the major mechanism responsible for pyrethroid resistance in Chinese populations of Helicoverpa armigera. Previous work has shown that enhanced oxidation contributes to resistance in the fenvalerate-selected Chinese strain, YGF. The current study provides evidence that enhanced hydrolysis by esterase isozymes also contributes to the resistance in this strain. The average esterase activity of third instar YGF larvae was 1.9-fold compared with that of a susceptible SCD strain. Much of this difference was attributed to isozymes at two zones which hydrolysed the model carboxylester substrate 1-naphthyl acetate and also a 1-naphthyl analogue of fenvalerate. A preparation enriched for enzymes migrating to one of these zones from YGF was shown to hydrolyse fenvalerate with a specific activity of about 2.9. nmol/min/mg. This material was also matched by mass spectrometry with four putative carboxylesterase genes, all of which clustered within a phylogenetic clade of secreted midgut esterases. Quantitative PCR on these four genes showed several-fold greater expression in tissues of YGF compared to SCD but no differences was found in the number of copies of the genes between the strains.

Published
2011

13. Improving a natural enzyme activity through incorporation of unnatural amino acids

Author

Ugwumba, Isaac N, Ozawa, Kiyoshi, Xu, Zhi-Qiang, Ely, Fernanda, Foo, Jee, Herlt, Anthony, Coppin, Christopher Wayne, Brown, Sue, Taylor, Matthew C, Ollis, David, Mander, Lewis, Schenk, Gerhard, Dixon, Nicholas Edward, Oakeshott, John Graham, Jackson, Colin, Otting, Gottfried, Ugwumba, Isaac N, Ozawa, Kiyoshi, Xu, Zhi-Qiang, Ely, Fernanda, Foo, Jee, Herlt, Anthony, Coppin, Christopher Wayne, Brown, Sue, Taylor, Matthew C, Ollis, David, Mander, Lewis, Schenk, Gerhard, Dixon, Nicholas Edward, Oakeshott, John Graham, Jackson, Colin, and Otting, Gottfried

Abstract

The bacterial phosphotriesterases catalyze hydrolysis of the pesticide paraoxon with very fast turnover rates and are thought to be near to their evolutionary limit for this activity. To test whether the naturally evolved turnover rate could be improved through the incorporation of unnatural amino acids and to probe the role of peripheral active site residues in nonchemical steps of the catalytic cycle (substrate binding and product release), we replaced the naturally occurring tyrosine amino acid at position 309 with unnatural L-(7-hydroxycoumarin-4-yl)ethylglycine (Hco) and L-(7-methylcoumarin- 4-yl)ethylglycine amino acids, as well as leucine, phenylalanine, and tryptophan. Kinetic analysis suggests that the 7-hydroxyl group of Hco, particularly in its deprotonated state, contributes to an increase in the rate-limiting product release step of substrate turnover as a result of its electrostatic repulsion of the negatively charged 4-nitrophenolate product of paraoxon hydrolysis. The 8-11-fold improvement of this already highly efficient catalyst through a single rationally designed mutation using an unnatural amino acid stands in contrast to the difficulty in improving this native activity through screening hundreds of thousands of mutants with natural amino acids. These results demonstrate that designer amino acids provide easy access to new and valuable sequence and functional space for the engineering and evolution of existing enzyme functions.

Published
2011

14. Management of the diffusion of 4-methylumbelliferone across phases in microdroplet-based systems for in vitro protein evolution

Author

Wu, Nan, Courtois, Fabienne, Zhu, Yonggang, Oakeshott, John Graham, Easton, Christopher, Abell, Christopher, Wu, Nan, Courtois, Fabienne, Zhu, Yonggang, Oakeshott, John Graham, Easton, Christopher, and Abell, Christopher

Abstract

Fluorongenic reagents based on 4-methylumbelliferone (4-MU) have been widely used for the detection of phosphatase, sulfatase, esterase, lipase and glycosidase activities in conventionally formatted enzyme assay systems. However, the sensitivity of assays based on these substrates is also potentially very useful in the microdroplet formats now being developed for high throughput in vitro evolution experiments. In this article, we report the investigation of diffusion of 4-MU as a model dye from water-in-oil droplets and the internal aqueous phase of water-in-oil-in-water droplets in microfluidics. The effect of BSA in the aqueous phase on the diffusion of 4-MU is also discussed. Based on these results, we provided here proof-of-concept of the reaction of the enzyme OpdA with the substrate coumaphos in water-in-oil-in-water droplets. In this double-emulsion system, the reaction of OpdA and coumaphos was achieved by allowing coumaphos to diffuse from the continuous aqueous phase across the oil phase into the internal aqueous droplets.

Published
2010

15. Microfluidic droplet technique for in vitro directed evolution

Author

Wu, Nan, Oakeshott, John Graham, Brown, Sue, Easton, Christopher, Zhu, Yonggang, Wu, Nan, Oakeshott, John Graham, Brown, Sue, Easton, Christopher, and Zhu, Yonggang

Abstract

Increasingly over the past two decades, biotechnologists have been exploiting various molecular technologies for high-throughput screening of genes and their protein products to isolate novel functionalities with a wide range of industrial applications. One particular technology now widely used for these purposes involves directed evolution, an artificial form of evolution in which genes and proteins are evolved towards new or improved functions by imposing intense selection pressures on libraries of mutant genes generated by molecular biology techniques and expressed in heterologous systems such as Escherichia coli. Most recently, the rapid development of droplet-based microfluidics has created the potential to dramatically increase the power of directed evolution by increasing the size of the libraries and the throughput of the screening by several orders of magnitude. Here, we review the methods for generating and controlling droplets in microfluidic systems, and their applications in directed evolution. We focus on the methodologies for cell-based assays, in vitro protein expression and DNA amplification, and the prospects for using such platforms for directed evolution in next-generation biotechnologies.

Published
2010

16. Gene identification and proteomic analysis of the esterases of the cotton bollworm, Helicoverpa armigera

Author

Teese, Mark, Campbell, Peter M, Scott, Colin, Gordon, Karl H J, Southon, Adam, Hovan, Daniel, Robin, Charles, Russell, Robyn, Oakeshott, John Graham, Teese, Mark, Campbell, Peter M, Scott, Colin, Gordon, Karl H J, Southon, Adam, Hovan, Daniel, Robin, Charles, Russell, Robyn, and Oakeshott, John Graham

Abstract

Some of the resistance of Helicoverpa armigera to conventional insecticides such as organophosphates and synthetic pyrethroids appears to be due to metabolic detoxification by carboxylesterases. To investigate the H. armigera carboxyl/cholinesterases, we

Published
2010

17. Sensory Regulation of Neuroligins and Neurexin I in the Honeybee Brain

Author

Biswas, Sunita, Reinhard, Judith, Oakeshott, John Graham, Russell, Robyn, Srinivasan, Mandyam V, Claudianos, Charles, Biswas, Sunita, Reinhard, Judith, Oakeshott, John Graham, Russell, Robyn, Srinivasan, Mandyam V, and Claudianos, Charles

Abstract

BACKGROUND Neurexins and neuroligins, which have recently been associated with neurological disorders such as autism in humans, are highly conserved adhesive proteins found on synaptic membranes of neurons. These binding partners produce a trans-synaptic bridge that facilitates maturation and specification of synapses. It is believed that there exists an optimal spatio-temporal code of neurexin and neuroligin interactions that guide synapse formation in the postnatal developing brain. Therefore, we investigated whether neuroligins and neurexin are differentially regulated by sensory input using a behavioural model system with an advanced capacity for sensory processing, learning and memory, the honeybee. METHODOLOGY/PRINCIPAL FINDINGS Whole brain expression levels of neuroligin 1-5 (NLG1-5) and neurexin I (NrxI) were estimated by qRT-PCR analysis in three different behavioural paradigms: sensory deprivation, associative scent learning, and lateralised sensory input. Sensory deprived bees had a lower level of NLG1 expression, but a generally increased level of NLG2-5 and NrxI expression compared to hive bees. Bees that had undergone associative scent training had significantly increased levels of NrxI, NLG1 and NLG3 expression compared to untrained control bees. Bees that had lateralised sensory input after antennal amputation showed a specific increase in NLG1 expression compared to control bees, which only happened over time. CONCLUSIONS/SIGNIFICANCE Our results suggest that (1) there is a lack of synaptic pruning during sensory deprivation; (2) NLG1 expression increases with sensory stimulation; (3) concomitant changes in gene expression suggests NrxI interacts with all neuroligins; (4) there is evidence for synaptic compensation after lateralised injury.

Published
2010

18. Esterase-based metabolic resistance to insecticides in heliothine and spodopteran pests

Author

Farnsworth, Claire, Teese, Mark, Yuan, Guorui, Li, Yongqiang, Scott, Colin, Zhang, Xing, Wu, Yidong, Russell, Robyn, Oakeshott, John Graham, Farnsworth, Claire, Teese, Mark, Yuan, Guorui, Li, Yongqiang, Scott, Colin, Zhang, Xing, Wu, Yidong, Russell, Robyn, and Oakeshott, John Graham

Abstract

Elevated esterase activities and increased band intensities of multiple esterase isozymes after electrophoresis are commonly associated with resistance to organophosphate, pyrethroid and carbamate insecticides in various heliothine and spodopteran pests.

Published
2010

20. Structure-based rational design of a phosphotriesterase

Author

Jackson, Colin J, Weir, Khali, Herlt, Anthony, Khurana, Jeevan, Sutherland, Tara D, Horne, Irene, Easton, Christopher, Russell, Robyn, Scott, Colin, Oakeshott, John Graham, Jackson, Colin J, Weir, Khali, Herlt, Anthony, Khurana, Jeevan, Sutherland, Tara D, Horne, Irene, Easton, Christopher, Russell, Robyn, Scott, Colin, and Oakeshott, John Graham

Abstract

In silico substrate docking of both stereoisomers of the pesticide chlorfenvinphos (CVP) in the phosphotriesterase from Agrobacterium radiobacter identified two residues (F131 and W132) that prevent productive substrate binding and cause stereospecificity. A variant (W131H/F132A) was designed that exhibited ca. 480-fold and 8-fold increases in the rate of Z-CVP and E-CVP hydrolysis, respectively, eliminating stereospecificity.

Published
2009

21. Characterization of the phenylurea hydrolases A and B: founding members of a novel amidohydrolase subgroup

Author

Khurana, Jeevan, Jackson, Colin J, Scott, Colin, Pandey, Gunjan, Horne, Irene, Russell, Robyn, Herlt, Anthony, Easton, Christopher, Oakeshott, John Graham, Khurana, Jeevan, Jackson, Colin J, Scott, Colin, Pandey, Gunjan, Horne, Irene, Russell, Robyn, Herlt, Anthony, Easton, Christopher, and Oakeshott, John Graham

Abstract

Mycobacterium brisbanense strain JK1, a bacterium capable of degrading the herbicide diuron, was isolated from herbicide-exposed soil. A gene/ enzyme system with diuron hydrolase activity was isolated from this strain and named PUH (phenylurea hydrolase)

Published
2009

22. A PMMA microfluidic droplet platform for in vitro protein expression using crude E. coli S30 extract

Author

Wu, Nan, Zhu, Yonghau, Brown, S, Oakeshott, John Graham, Peat, T.S., Surjadi, R, Easton, Christopher, Leech, P W, Sexton, B A, Wu, Nan, Zhu, Yonghau, Brown, S, Oakeshott, John Graham, Peat, T.S., Surjadi, R, Easton, Christopher, Leech, P W, and Sexton, B A

Abstract

Droplet based microfluidics are promising new tools for biological and chemical assays. In this paper, a high throughput and high sensitivity microfluidic droplet platform is described for in vitro protein expression using crude Escherichia coli S30 extract. A flow-focusing polymethylmethacrylate (PMMA) microchip was designed and integrated with different functions involving droplet generation, storage, separation and detection. The material used for the chip is superior to the previously tested polydimethylsiloxane (PDMS) due to its mechanical and chemical properties. Droplet formation characteristics such as size and generation rate are investigated systematically. The effect of surfactants Abil EM90 and Span80 in the oil phase on droplet formation and optical detection is also studied. The performance of the system is demonstrated by the high throughput and stable droplet generation and ultralow detection limit. The robustness of the system is also demonstrated by the successful synthesis of a green fluorescent protein (GFP) using E. coli S30 extract as a source of RNA translation reagents.

Published
2009

23. Catalytic improvement and evolution of atrazine chlorohydrolase

Author

Scott, Colin, Jackson, Colin, Coppin, Christopher Wayne, Mourant, Roslyn G, Hilton, Margaret E, Sutherland, Tara D, Russell, Robyn, Oakeshott, John Graham, Scott, Colin, Jackson, Colin, Coppin, Christopher Wayne, Mourant, Roslyn G, Hilton, Margaret E, Sutherland, Tara D, Russell, Robyn, and Oakeshott, John Graham

Abstract

The atrazine chlorohydrolase AtzA has evolved within the past 50 years to catalyze the hydrolytic dechlorination of the herbicide atrazine. It is of wide research interest for two reasons: first, catalytic improvement of the enzyme would facilitate its application in bioremediation, and second, because of its recent evolution, it presents a rare opportunity to examine the early stages in the acquisition of new catalytic activities. Using a structural model of the AtzA-atrazine complex, a region of the substrate-binding pocket was targeted for combinatorial randomization. Identification of improved variants through this process informed the construction of a variant AtzA enzyme with 20-fold improvement in its kcat/Km value compared with that of the wild-type enzyme. The reduction in Km observed in the AtzA variants has allowed the full kinetic profile for the AtzA-catalyzed dechlorination of atrazine to be determined for the first time, revealing the hitherto-unreported substrate cooperativity in AtzA. Since substrate cooperativity is common among deaminases, which are the closest structural homologs of AtzA, it is possible that this phenomenon is a remnant of the catalytic activity of the evolutionary progenitor of AtzA. A catalytic mechanism that suggests a plausible mechanistic route for the evolution of dechlorinase activity in AtzA from an ancestral deaminase is proposed.

Published
2009

24. Cloning, expression, purification, crystallization and preliminary X-ray studies of a pyridoxine 5'-phosphate oxidase from Mycobacterium smegmatis

Author

Jackson, Colin J, Taylor, Matthew C, Tattersall, David B, French, Nigel G, Carr, Paul D, Ollis, David, Russell, Robyn, Oakeshott, John Graham, Jackson, Colin J, Taylor, Matthew C, Tattersall, David B, French, Nigel G, Carr, Paul D, Ollis, David, Russell, Robyn, and Oakeshott, John Graham

Abstract

Pyridoxine 5′-phosphate oxidases (PNPOxs) are known to catalyse the terminal step in pyridoxal 5′-phosphate biosynthesis in a flavin mononucleotide-dependent manner in humans and Escherichia coli. Recent reports of a putative PNPOx from Mycobacterium

Published
2008

25. The enzymatic basis for pesticide bioremediation

Author

Scott, Colin, Pandey, Gunjan, Hartley, Carol J, Jackson, Colin, Cheesman, Matthew J, Taylor, Matthew C, Pandey, Rinku, Khurana, Jeevan, Teese, Mark, Coppin, Christopher Wayne, Weir, Khali, Jain, Rakesh K, Lal, Rup, Russell, Robyn, Oakeshott, John Graham, Scott, Colin, Pandey, Gunjan, Hartley, Carol J, Jackson, Colin, Cheesman, Matthew J, Taylor, Matthew C, Pandey, Rinku, Khurana, Jeevan, Teese, Mark, Coppin, Christopher Wayne, Weir, Khali, Jain, Rakesh K, Lal, Rup, Russell, Robyn, and Oakeshott, John Graham

Abstract

Enzymes are central to the biology of many pesticides, influencing their modes of action, environmental fates and mechanisms of target species resistance. Since the introduction of synthetic xenobiotic pesticides, enzymes responsible for pesticide turnover have evolved rapidly, in both the target organisms and incidentally exposed biota. Such enzymes are a source of significant biotechnological potential and form the basis of several bioremediation strategies intended to reduce the environmental impacts of pesticide residues. This review describes examples of enzymes possessing the major activities employed in the bioremediation of pesticide residues, and some of the strategies by which they are employed. In addition, several examples of specific achievements in enzyme engineering are considered, highlighting the growing trend in tailoring enzymatic activity to a specific biotechnologically relevant function.

Published
2008

26. Latitudinal clines for nucleotide polymorphisms in the Esterase 6 gene of Drosophila melanogaster

Author

Coppin, Christopher, Odgers, Wendy A, Oakeshott, John Graham, Coppin, Christopher, Odgers, Wendy A, and Oakeshott, John Graham

Abstract

Previous studies have found non-neutral patterns of nucleotide polymorphism in the promoter and coding regions of Est6 in D. melanogaster. Coding region polymorphism peaks around two closely linked replacement differences associated with the EST6-F/EST6-S allozyme polymorphism. The promoter contains two common, highly diverged haplotype groups, P1 and P7, that differentially affect Est6 expression. Allozyme studies have also revealed latitudinal clines in EST6-F and EST6-S frequencies that recur across continents. Here we analyse nucleotide polymorphisms across the promoter and the region of peak coding sequence polymorphism in 10 Australian populations along a 25° latitudinal gradient in order to examine the basis for the allozyme clines. As with the earlier studies, we find an excess of intermediate to high frequency variants in both the P1/P7 region and around the two EST6-F/EST6-S replacements in some populations. The two EST6-F/EST6-S replacement polymorphisms show latitudinal clines whereas the P1 and P7 groups of promoter haplotypes do not. However the strongest clines are for three co-segregating silent site polymorphisms in a 4 bp stretch at the 3′ end of the sequenced region. Monte Carlo simulations show that the clines for those three sites can explain all others in the data but none of the others can explain those three. Thus the allozyme clines may not reflect selection on either the P1/P7 polymorphism or the two replacements previously associated with the EST6-F/EST-S difference.

Published
2007

27. A deficit of detoxification enzymes: pesticide sensivitity and environmental response in the honeybee

Author

Claudianos, Charles, Ranson, Hilary, Johnson, R M, Biswas, Sunita, Schuler, M A, Berenbaum, M R, Feyereisen, R, Oakeshott, John Graham, Claudianos, Charles, Ranson, Hilary, Johnson, R M, Biswas, Sunita, Schuler, M A, Berenbaum, M R, Feyereisen, R, and Oakeshott, John Graham

Abstract

The honeybee genome has substantially fewer protein coding genes (≈ 11 000 genes) than Drosophila melanogaster (≈ 13 500) and Anopheles gambiae (≈ 14 000). Some of the most marked differences occur in three superfamilies encoding xenobiotic detoxify

Published
2006

28. Functional effects of amino acid substitutions within the large binding pocket of the phosphotriesterase OpdA from Agrobacterium sp. P230

Author

Horne, Irene, Qiu, Xinghui, Ollis, David, Russell, Robyn, Oakeshott, John Graham, Horne, Irene, Qiu, Xinghui, Ollis, David, Russell, Robyn, and Oakeshott, John Graham

Abstract

The phosphotriesterase OpdA from Agrobacterium sp. P230 has about 10-fold higher activity for dimethyl organophosphate (OP) insecticides, than its homologue from Flavobacterium sp. ATCC27551, organophosphate hydrolase (OPH). OpdA shows about 10% amino acid sequence divergence from OPH and also has a 20 residue C-terminal extension. Here we show that the difference in kinetics is largely explained by just two amino acid differences between the two proteins. A truncated form of OpdA demonstrated that the C-terminal extension has no effect on its preference for dimethyl organophosphate substrates. Chimeric proteins of OPH and OpdA were then analysed to show that replacement of a central region of OpdA sequence, which encodes the residues in the large subsite of the active site, with the homologous region in OPH decreased the activity of OpdA towards dimethyl OPs, to values close to those for OPH. Site-directed mutagenesis in this region identified two differences between the proteins, Y257H and F272L (with the OpdA residues first) as being responsible for this reduction. These two differences were also responsible for the increased activity of OpdA towards the diisopropyl organophosphate, diisopropyl fluorophosphate, relative to OPH. Molecular modelling of triethyl phosphate in the active site of OpdA confirmed a reduction in the size of the large subsite relative to OPH.

Published
2006

29. Biochemical Genetics and Genomics of Insect Esterases

Author

Oakeshott, John Graham, Claudianos, Charles, Campbell, Peter M, Newcomb, Richard, Russell, Robyn, Oakeshott, John Graham, Claudianos, Charles, Campbell, Peter M, Newcomb, Richard, and Russell, Robyn

Published
2005

30. Comparing the organophosphorus and carbamate insecticide resistance mutations in cholin- and carboxyl-esterases

Author

Oakeshott, John Graham, Devonshire, Alan, Claudianos, Charles, Sutherland, Tara D, Horne, Irene, Campbell, Peter M, Ollis, David, Russell, Robyn, Oakeshott, John Graham, Devonshire, Alan, Claudianos, Charles, Sutherland, Tara D, Horne, Irene, Campbell, Peter M, Ollis, David, and Russell, Robyn

Abstract

Mutant insect carboxyl/cholinesterases underlie over 60 cases of resistance to organophosphorus and/or carbamate insecticides. Biochemical and molecular data on about 20 of these show recurrent use of a very small number of mutational options to generate

Published
2005

31. Two major classes of target site insensitivity mutations confer resistance to organophosphate and carbamate insecticides

Author

Russell, Robyn, Claudianos, Charles, Campbell, Peter M, Horne, Irene, Sutherland, Tara D, Oakeshott, John Graham, Russell, Robyn, Claudianos, Charles, Campbell, Peter M, Horne, Irene, Sutherland, Tara D, and Oakeshott, John Graham

Abstract

Interspecific comparisons of bioassay and biochemical data suggest two major patterns of target site resistance to carbamates and organophosphates. Pattern I resistance, which is generally more effective for carbamates, has been shown in two sub-species of mosquitoes to be due to a particular Gly-Ser mutation in the oxyanion hole within the active site of one of their two acetylcholinesterase enzymes. Intriguingly, different substitutions at the equivalent site confer organophosphate hydrolytic ability on other esterases responsible for metabolic resistance in some other species. In the case of the aphid, Myzus persicae, Pattern I resistance is due to a Ser-Phe mutation in the vicinity of the acyl pocket of acetylcholinesterase. Pattern II resistance is at least as effective for organophosphates as it is for carbamates and may even be specific to organophosphates in some cases. Molecular studies on this pattern of resistance in three higher Diptera show that it is due to changes that constrict the acetylcholinesterase active site gorge and limit binding of the insecticide to the catalytic residues at the base of the gorge. One case of Pattern II resistance in the mosquito, Culex tritaeniorhynchus, involves the same site near the acyl pocket of acetylcholinesterase, albeit a different substitution, as that involved in Pattern I resistance in M. persicae.

Published
2004

32. Evolution of an organophosphate-degrading enzyme: a comparison of natural and directed evolution

Author

Yang, Hong, Carr, Paul D, Yu McLoughlin, Sean, Liu, Jian-Wei, Horne, Irene, Qiu, Xinghui, Jeffries, Cy, Russell, Robyn, Oakeshott, John Graham, Ollis, David, Yang, Hong, Carr, Paul D, Yu McLoughlin, Sean, Liu, Jian-Wei, Horne, Irene, Qiu, Xinghui, Jeffries, Cy, Russell, Robyn, Oakeshott, John Graham, and Ollis, David

Abstract

Organophosphate-degrading enzyme from Agrobacterium radiobacter P230 (OPDA) is a recently discovered enzyme that degrades a broad range of organophosphates. It is very similar to OPH first isolated from Pseudomonas diminuta MG. Despite a high level of sequence identity, OPH and OPDA exhibit different substrate specificities. We report here the structure of OPDA and identify regions of the protein that are likely to give it a preference for substrates that have shorter alkyl substituents. Directed evolution was used to evolve a series of OPH mutants that had activities similar to those of OPDA. Mutants were selected for on the basis of their ability to degrade a number of substrates. The mutations tended to cluster in particular regions of the protein and in most cases, these regions were where OPH and OPDA had significant differences in their sequences.

Published
2003

33. Degradation of hydrophobic ester pesticides and toxins

Author

Russell, Robyn, Heidari, Rama, Devonshire, Alan, Dorrian, Susan Jane, Oakeshott, John Graham, Russell, Robyn, Heidari, Rama, Devonshire, Alan, Dorrian, Susan Jane, and Oakeshott, John Graham

Published
2003

34. Esterases with lipase activity

Author

Oakeshott, John Graham, Devonshire, Alan, Coppin, Christopher Wayne, Heidari, Rama, Dorrian, Susan Jane, Russell, Robyn, Oakeshott, John Graham, Devonshire, Alan, Coppin, Christopher Wayne, Heidari, Rama, Dorrian, Susan Jane, and Russell, Robyn

Published
2003

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