Your search keyword '"Margaret C. Hardy"' showing total 8 results

1. Lessons from the reestablishment of Public Health Laboratory activities in Puerto Rico after Hurricane Maria

Author

Margaret C. Hardy, Rita C. Stinnett, Kristine J. Kines, Danisha M. Rivera-Nazario, David E. Lowe, Alexandra M. Mercante, Nathalie Gonzalez Jimenez, Rosa I. Cuevas Ruiz, Héctor I. Rivera Arbolay, Rafael L. Gonzalez Peña, Mayra Toro, Alma A. Trujillo, Claudia L. Pappas, Anna C. Llewellyn, Francisco Candal, María Burgos Garay, Gerardo A. Gomez, Jeniffer Concepcion Acevedo, Marisela Ansbro, Hercules Moura, Michael W. Shaw, Atis Muehlenbachs, Lovisa C. Romanoff, Brittany J. Sunshine, Dale A. Rose, Anita Patel, Craig N. Shapiro, S. Carolina Luna-Pinto, Satish K. Pillai, and Eduardo O’Neill

Subjects

Science

Abstract

Hurricane Maria hit Puerto Rico in 2017 and resulted in a complete loss of activity of the Public Health Laboratories. Here, the authors discuss the approach taken and tools developed to re-establish activity in these laboratories using a quality management system and the lessons learned in this process.

Published

2019

2. Resistance is not Futile: It Shapes Insecticide Discovery

Author

Margaret C. Hardy

Subjects

agriculture, arbovirus vectors, biosecurity, conservation, malaria, Science

Abstract

Conventional chemical control compounds used for the management of insect pests have been much maligned, but still serve a critical role in protecting people and agricultural products from insect pests, as well as conserving biodiversity by eradicating invasive species. Although biological control can be an effective option for area-wide management of established pests, chemical control methods are important for use in integrated pest management (IPM) programs, as well as in export treatments, eradicating recently arrived invasive species, and minimizing population explosions of vectors of human disease. Cogitated research and development programs have continued the innovation of insecticides, with a particular focus on combating insecticide resistance. Recent developments in the fields of human health, protecting the global food supply, and biosecurity will be highlighted.

Published

2014

3. Engaging rural Australian communities in National Science Week helps increase visibility for women researchers

Author

Margaret C. Hardy and Mathilde R. Desselle

Subjects

altmetrics, career advancement, career development, equity, research, social media, Science

Abstract

During a week-long celebration of science, run under the federally supported National Science Week umbrella, the Catch a Rising Star: women in Queensland research (CaRS) programme flew scientists who identify as women to nine regional and remote communities in the Australian State of Queensland. The aim of the project was twofold: first, to bring science to remote and regional communities in a large, economically diverse state; and second, to determine whether media and public engagement provides career advancement opportunities for women scientists. This paper focuses on the latter goal. The data show: (i) a substantial majority (greater than 80%) of researchers thought the training and experience provided by the programme would help develop her career as a research scientist in the future, (ii) the majority (65%) thought the programme would help relate her research to end users, industry partners or stakeholders in the future, and (iii) analytics can help create a compelling narrative around engagement metrics and help to quantify influence. During the week-long project, scientists reached 600 000 impressions on one social media platform (Twitter) using a program hashtag. The breadth and depth of the project outcomes indicate funding bodies and employers could use similar data as an informative source of metrics to support hiring and promotion decisions. Although this project focused on researchers who identify as women, the lessons learned are applicable to researchers representing a diverse range of backgrounds. Future surveys will help determine whether the CaRS programme provided long-term career advantages to participating scientists and communities.

Published

2017

4. Lessons from the reestablishment of Public Health Laboratory activities in Puerto Rico after Hurricane Maria

Author

Kristine J. Kines, Rosa Ivette Cuevas Ruiz, Margaret C. Hardy, Jeniffer Concepcion Acevedo, Marisela Ansbro, Eduardo O’Neill, Alexandra M. Mercante, Lovisa C. Romanoff, S. Carolina Luna-Pinto, Alma A. Trujillo, Dale A. Rose, Danisha M. Rivera-Nazario, David E. Lowe, Atis Muehlenbachs, Mayra Toro, Satish K. Pillai, Craig N. Shapiro, María Burgos Garay, Héctor I. Rivera Arbolay, Nathalie Gonzalez Jimenez, Rafael L. Gonzalez Peña, Rita Czakó Stinnett, Anita Patel, Claudia Pappas, Hercules Moura, Gerardo A. Gómez, Michael W. Shaw, Anna C. Llewellyn, Francisco J. Candal, and Brittany J. Sunshine

Subjects

0301 basic medicine, medicine.medical_specialty, Science, MEDLINE, General Physics and Astronomy, 02 engineering and technology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Natural hazard, Political science, medicine, Baseline (configuration management), lcsh:Science, Environmental planning, Public health, Multidisciplinary, Jurisdiction, Natural hazards, Storm, General Chemistry, 021001 nanoscience & nanotechnology, 030104 developmental biology, Quality management system, Preparedness, Perspective, lcsh:Q, 0210 nano-technology

Abstract

Public Health Laboratories (PHLs) in Puerto Rico did not escape the devastation caused by Hurricane Maria. We implemented a quality management system (QMS) approach to systematically reestablish laboratory testing, after evaluating structural and functional damage. PHLs were inoperable immediately after the storm. Our QMS-based approach began in October 2017, ended in May 2018, and resulted in the reestablishment of 92% of baseline laboratory testing capacity. Here, we share lessons learned from the historic recovery of the largest United States’ jurisdiction to lose its PHL capacity, and provide broadly applicable tools for other jurisdictions to enhance preparedness for public health emergencies., Hurricane Maria hit Puerto Rico in 2017 and resulted in a complete loss of activity of the Public Health Laboratories. Here, the authors discuss the approach taken and tools developed to re-establish activity in these laboratories using a quality management system and the lessons learned in this process.

Published

2019

5. Isolation of an orally active insecticidal toxin from the venom of an Australian tarantula

Author

Mehdi Mobli, Glenn F. King, Rodrigo A.V. Morales, Margaret C. Hardy, and Norelle L. Daly

Subjects

Models, Molecular, Insecticides, Insecta, Spider Venoms, Protein Conformation, Science, Molecular Sequence Data, Administration, Oral, Venom, Peptide, Helicoverpa armigera, medicine.disease_cause, Toxicology, Bacillus thuringiensis, medicine, Animals, Amino Acid Sequence, chemistry.chemical_classification, Multidisciplinary, biology, Base Sequence, Dose-Response Relationship, Drug, Toxin, Protein Stability, Neonicotinoid, Spiders, biology.organism_classification, Phenotype, Biochemistry, chemistry, Medicine, Inhibitor cystine knot, Peptides, Sequence Alignment, Research Article

Abstract

Many insect pests have developed resistance to existing chemical insecticides and consequently there is much interest in the development of new insecticidal compounds with novel modes of action. Although spiders have deployed insecticidal toxins in their venoms for over 250 million years, there is no evolutionary selection pressure on these toxins to possess oral activity since they are injected into prey and predators via a hypodermic needle-like fang. Thus, it has been assumed that spider-venom peptides are not orally active and are therefore unlikely to be useful insecticides. Contrary to this dogma, we show that it is possible to isolate spider-venom peptides with high levels of oral insecticidal activity by directly screening for per os toxicity. Using this approach, we isolated a 34-residue orally active insecticidal peptide (OAIP-1) from venom of the Australian tarantula Selenotypus plumipes. The oral LD50 for OAIP-1 in the agronomically important cotton bollworm Helicoverpa armigera was 104.2±0.6 pmol/g, which is the highest per os activity reported to date for an insecticidal venom peptide. OAIP-1 is equipotent with synthetic pyrethroids and it acts synergistically with neonicotinoid insecticides. The three-dimensional structure of OAIP-1 determined using NMR spectroscopy revealed that the three disulfide bonds form an inhibitor cystine knot motif; this structural motif provides the peptide with a high level of biological stability that probably contributes to its oral activity. OAIP-1 is likely to be synergized by the gut-lytic activity of the Bacillus thuringiensis Cry toxin (Bt) expressed in insect-resistant transgenic crops, and consequently it might be a good candidate for trait stacking with Bt.

Published

2013

6. Isolation of an orally active insecticidal toxin from the venom of an Australian tarantula.

Author

Margaret C Hardy, Norelle L Daly, Mehdi Mobli, Rodrigo A V Morales, and Glenn F King

Subjects

Medicine, Science

Abstract

Many insect pests have developed resistance to existing chemical insecticides and consequently there is much interest in the development of new insecticidal compounds with novel modes of action. Although spiders have deployed insecticidal toxins in their venoms for over 250 million years, there is no evolutionary selection pressure on these toxins to possess oral activity since they are injected into prey and predators via a hypodermic needle-like fang. Thus, it has been assumed that spider-venom peptides are not orally active and are therefore unlikely to be useful insecticides. Contrary to this dogma, we show that it is possible to isolate spider-venom peptides with high levels of oral insecticidal activity by directly screening for per os toxicity. Using this approach, we isolated a 34-residue orally active insecticidal peptide (OAIP-1) from venom of the Australian tarantula Selenotypus plumipes. The oral LD50 for OAIP-1 in the agronomically important cotton bollworm Helicoverpa armigera was 104.2±0.6 pmol/g, which is the highest per os activity reported to date for an insecticidal venom peptide. OAIP-1 is equipotent with synthetic pyrethroids and it acts synergistically with neonicotinoid insecticides. The three-dimensional structure of OAIP-1 determined using NMR spectroscopy revealed that the three disulfide bonds form an inhibitor cystine knot motif; this structural motif provides the peptide with a high level of biological stability that probably contributes to its oral activity. OAIP-1 is likely to be synergized by the gut-lytic activity of the Bacillus thuringiensis Cry toxin (Bt) expressed in insect-resistant transgenic crops, and consequently it might be a good candidate for trait stacking with Bt.

Published

2013

7. SVM-based prediction of propeptide cleavage sites in spider toxins identifies toxin innovation in an Australian tarantula.

Author

Emily S W Wong, Margaret C Hardy, David Wood, Timothy Bailey, and Glenn F King

Subjects

Medicine, Science

Abstract

Spider neurotoxins are commonly used as pharmacological tools and are a popular source of novel compounds with therapeutic and agrochemical potential. Since venom peptides are inherently toxic, the host spider must employ strategies to avoid adverse effects prior to venom use. It is partly for this reason that most spider toxins encode a protective proregion that upon enzymatic cleavage is excised from the mature peptide. In order to identify the mature toxin sequence directly from toxin transcripts, without resorting to protein sequencing, the propeptide cleavage site in the toxin precursor must be predicted bioinformatically. We evaluated different machine learning strategies (support vector machines, hidden Markov model and decision tree) and developed an algorithm (SpiderP) for prediction of propeptide cleavage sites in spider toxins. Our strategy uses a support vector machine (SVM) framework that combines both local and global sequence information. Our method is superior or comparable to current tools for prediction of propeptide sequences in spider toxins. Evaluation of the SVM method on an independent test set of known toxin sequences yielded 96% sensitivity and 100% specificity. Furthermore, we sequenced five novel peptides (not used to train the final predictor) from the venom of the Australian tarantula Selenotypus plumipes to test the accuracy of the predictor and found 80% sensitivity and 99.6% 8-mer specificity. Finally, we used the predictor together with homology information to predict and characterize seven groups of novel toxins from the deeply sequenced venom gland transcriptome of S. plumipes, which revealed structural complexity and innovations in the evolution of the toxins. The precursor prediction tool (SpiderP) is freely available on ArachnoServer (http://www.arachnoserver.org/spiderP.html), a web portal to a comprehensive relational database of spider toxins. All training data, test data, and scripts used are available from the SpiderP website.

Published

2013

8. Effects of vegetation, corridor width and regional land use on early successional birds on powerline corridors.

Author

Robert A Askins, Corrine M Folsom-O'Keefe, and Margaret C Hardy

Subjects

Medicine, Science

Abstract

Powerline rights-of-way (ROWs) often provide habitat for early successional bird species that have suffered long-term population declines in eastern North America. To determine how the abundance of shrubland birds varies with habitat within ROW corridors and with land use patterns surrounding corridors, we ran Poisson regression models on data from 93 plots on ROWs and compared regression coefficients. We also determined nest success rates on a 1-km stretch of ROW. Seven species of shrubland birds were common in powerline corridors. However, the nest success rates for prairie warbler (Dendroica discolor) and field sparrow (Spizella pusilla) were

Published

2012