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1. Discovering the mechanism of enhanced metabolism in flufenacet resistant grass weeds

Author

Dücker, Rebecca, Lorentz, Lothar, Hull, Richard, Anderson, Monte, Moss, Stephen, and Beffa, Roland

Subjects
enhanced metabolism, flufenacet, grass weeds, pre-emergence herbicides, resistance mechanisms, Agriculture, Botany, QK1-989
Abstract

Inhibitors of very long chain fatty acid synthesis (VLCFAs, HRAC group K3) including flufenacet-based products are key herbicides in weed management strategies in particular of Western European cereal growing areas. They offer an alternative mode of action to those of frequently applied post-emergence active ingredients e.g. ACCase and ALS chemistries. In comparison, herbicide resistance to VLCFAs inhibitors develops considerably slower. Yet, resistance to the ‘low-risk’ herbicide flufenacet was documented in multi-resistant ryegrass (Lolium spp.) in the northwestern United States. A 46-fold resistance shift in a population from Washington State was observed in a dose-response bioassay. The resistance levels described in black-grass (Alopecurus myosuroides Huds.) field populations are lower and generally within the range of environmentally caused inconsistency in efficacy. An artificial selection of two UK multi-resistant black-grass populations with flufenacet applied annually for eight successive years resulted in resistant progeny surviving the field rate. Besides characterizing the degree of resistance in black-grass and ryegrass populations, we demonstrated that flufenacet resistance in these populations was caused by enhanced metabolism. No cross-resistance between flufenacet and pyroxasulfone, the newest VLCFAs-inhibiting herbicide, occurred in the ryegrass population. A good understanding of the resistance mechanism and early diagnostics can help preserve the efficacy of flufenacet.

Published
2016
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3. Framework for an expert evaluation for the evolution of weed resistance

Author

Vencill, William, Nichols, Robert, Webster, Theodore, and Moss, Stephen

Subjects
herbicide resistance, resistance management, resistance index, integrated weed management, Agriculture, Botany, QK1-989
Abstract

The apparent rate of evolution of resistance of weeds to herbicides has increased substantially over the past decade. Data suggests phenotypic expression is affected by the mechanism of action of the herbicide, the taxonomy of the weed, the extent and frequency of selection and the agronomic context of herbicide use that contribute to the development of herbicide resistance. The opportunities for herbicide resistance are maximized in weeds that produce prolific seed, have relatively short half-life in the seedbank, and are obligate outcrossers; for herbicides that have a single target site that is not conserved or have multiple non-target resistance mechanisms; and in management, those management systems that do not use a diverse set of weed management tools and rely only on herbicides for weed control. The ability to identify weed and herbicide combinations that are most likely to develop herbicide resistance can aid in education and management systems to delay herbicide resistance.

Published
2014
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9. Structure-function studies of key amyloid-degrading enzymes

Author

Moss, Stephen, Subramanian, Vasanta, and Acharya, K-Ravi

Abstract

The accumulation of the small peptide amyloid-β has been proposed as a major trigger for the development of Alzheimer’s disease. Within the brain, the concentration of amyloid-β is tightly controlled through production and clearance mechanisms. Studies have revealed that reduced levels of amyloid-β clearance are present in individuals living with Alzheimer’s disease which results in the observed accumulation of the peptide. This accumulation of amyloid-β can lead to the formation of large aggregated amyloid plaques - one of two detectable hallmarks of the disease. Amyloid degrading enzymes (ADEs) are a group of proteins with the ability to degrade amyloid-β and are major players in the clearance of amyloid-β. Stimulating ADE activity or expression, in order to compensate for the decreased clearance in the Alzheimer’s disease phenotype, provides a promising therapeutic target. It has been reported in mice that upregulation of ADEs can reduce the levels of amyloid-β peptide and amyloid plaques – in some cases this led to improved cognitive function. Among several known ADEs, neprilysin (NEP) and endothelin-converting enzyme I (ECE-1) have been identified to be two of the most potent. Both proteins have the capacity to digest soluble amyloid-β which, in turn, can form the toxic oligomeric species found within the brains of individuals living with Alzheimer’s disease. Whilst NEP and ECE-1 are known for their amyloid-degradation, they exhibit complexity through the additional substrates that they can degrade. Two such groups of substrates are the endothelins and natriuretic peptides. Both peptide groups are vasoactive and illustrate the strong link between NEP, ECE-1 and blood pressure regulation. The promiscuous nature of NEP and ECE-1 raises questions surrounding their specificity and how such a broad range of substrates can be degraded. This research builds upon current structural and functional understanding of both NEP and ECE-1, giving a detailed insight into the molecular interactions that leads to the hydrolysis of peptide substrates. This research has used a cross-disciplinary approach of X-ray structure determination, mutagenesis and kinetic analysis in order to elucidate the crucial tasks performed by key ADEs.

Published
2020

10. Direct activation of KCC2 arrests benzodiazepine refractory status epilepticus and limits the subsequent neuronal injury in mice

Author

Jarvis, Rebecca, Josephine Ng, Shu Fun, Nathanson, Anna J., Cardarelli, Ross A., Abiraman, Krithika, Wade, Fergus, Evans-Strong, Aidan, Fernandez-Campa, Marina P., Deeb, Tarek Z., Smalley, Joshua L., Jamier, Tanguy, Gurrell, Ian K., McWilliams, Lisa, Kawatkar, Aarti, Conway, Leslie C., Wang, Qi, Burli, Roland W., Brandon, Nicholas J., Chessell, Iain P., Goldman, Aaron J., Maguire, Jamie L., and Moss, Stephen J.

Published
2023
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18. Exploring the Challenges of System Leadership in the Voluntary and Community Sector

Author

Moss, Stephen

Abstract

LankellyChase Foundation works to bring about change that will transform the quality of life of people who face severe and multiple disadvantage. It set up the 'Promoting Change Network' (PCN) to foster learning, and to support 40 or so organisations which receive funding from the Foundation. This was in recognition of the challenges they face in their work to alleviate severe and multiple disadvantages--combinations of problems around homelessness, substance abuse, mental health, domestic violence and abuse, and chronic poverty. Action learning was a supportive intervention commissioned by LankellyChase for PCN grantees, covering London and the North of England/Glasgow. Two Action Learning Sets met five and six times respectively between November 2014 and July 2015. The Sets demonstrated the importance and value of standing back and questioning your approach--when you are part of the (complex) health and care system you are aiming to change.

Published
2020
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20. LRG1 destabilizes tumor vessels and restricts immunotherapeutic potency

Author

O’Connor, Marie N., Kallenberg, David M., Camilli, Carlotta, Pilotti, Camilla, Dritsoula, Athina, Jackstadt, Rene, Bowers, Chantelle E., Watson, H. Angharad, Alatsatianos, Markella, Ohme, Julia, Dowsett, Laura, George, Jestin, Blackburn, Jack W.D., Wang, Xiaomeng, Singhal, Mahak, Augustin, Hellmut G., Ager, Ann, Sansom, Owen J., Moss, Stephen E., and Greenwood, John

Published
2021
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22. NMR chemical shift assignments of RNA oligonucleotides to expand the RNA chemical shift database

Author

Liu, Yaping, Kotar, Anita, Hodges, Tracy L., Abdallah, Kyrillos, Taleb, Mallak H., Bitterman, Brayden A., Jaime, Sara, Schaubroeck, Kyle J., Mathew, Ethan, Morgenstern, Nicholas W., Lohmeier, Anthony, Page, Jordan L., Ratanapanichkich, Matt, Arhin, Grace, Johnson, Breanna L., Cherepanov, Stanislav, Moss, Stephen C., Zuniga, Gisselle, Tilson, Nicholas J., Yeoh, Zoe C., Johnson, Bruce A., and Keane, Sarah C.

Published
2021
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23. Melting of hybrid organic–inorganic perovskites

Author

Shaw, Bikash Kumar, Hughes, Ashlea R., Ducamp, Maxime, Moss, Stephen, Debnath, Anup, Sapnik, Adam F., Thorne, Michael F., McHugh, Lauren N., Pugliese, Andrea, Keeble, Dean S., Chater, Philip, Bermudez-Garcia, Juan M., Moya, Xavier, Saha, Shyamal K., Keen, David A., Coudert, François-Xavier, Blanc, Frédéric, and Bennett, Thomas D.

Published
2021
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24. Molecular basis of selective amyloid‐β degrading enzymes in Alzheimer's disease.

Author

Żukowska, Joanna, Moss, Stephen J., Subramanian, Vasanta, and Acharya, K. Ravi

Subjects
*ALZHEIMER'S disease, *NEPRILYSIN, *ENDOTHELIN receptors, *ANGIOTENSIN I, *ENZYMES, *PEPTIDES, *AMYLOID plaque, *MOLECULAR structure
Abstract

The accumulation of the small 42‐residue long peptide amyloid‐β (Aβ) has been proposed as a major trigger for the development of Alzheimer's disease (AD). Within the brain, the concentration of Aβ peptide is tightly controlled through production and clearance mechanisms. Substantial experimental evidence now shows that reduced levels of Aβ clearance are present in individuals living with AD. This accumulation of Aβ can lead to the formation of large aggregated amyloid plaques—one of two detectable hallmarks of the disease. Aβ‐degrading enzymes (ADEs) are major players in the clearance of Aβ. Stimulating ADE activity or expression, in order to compensate for the decreased clearance in the AD phenotype, provides a promising therapeutic target. It has been reported in mice that upregulation of ADEs can reduce the levels of Aβ peptide and amyloid plaques—in some cases, this led to improved cognitive function. Among several known ADEs, neprilysin (NEP), endothelin‐converting enzyme‐1 (ECE‐1), insulin degrading enzyme (IDE) and angiotensin‐1 converting enzyme (ACE) from the zinc metalloprotease family have been identified as important. These ADEs have the capacity to digest soluble Aβ which, in turn, cannot form the toxic oligomeric species. While they are known for their amyloid degradation, they exhibit complexity through promiscuous nature and a broad range of substrates that they can degrade. This review highlights current structural and functional understanding of these key ADEs, giving some insight into the molecular interactions that leads to the hydrolysis of peptide substrates, the crucial tasks performed by them and the potential for therapeutic use in the future. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Estradiol regulates local synthesis of synaptic proteome via sex-specific mechanisms

Author

Raval, Pooja, primary, Rae, Hannah, additional, Duarte, Rodrigo R. R., additional, Watson, Iain A., additional, Sellers, Katherine J., additional, Pachon, Kathryn M. C., additional, Sichlinger, Laura, additional, Powell, Timothy R., additional, Yasvoina, Marina V., additional, Mukherjee, Jayanta, additional, Moss, Stephen J., additional, Brandon, Nicholas J., additional, and Srivastava, Deepak P., additional

Published
2023
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28. LRG1 is a novel HER3 ligand and promotes growth in colorectal cancer

Author

Wang, Rui, primary, Rathore, Moeez, additional, Wright, Michel’le, additional, Huang, Wei, additional, Martin, Daniel, additional, Taylor, Derek, additional, Miyagi, Masaru, additional, Tang, Wen, additional, Feng, Hao, additional, Li, Yamu, additional, Wang, Zhenghe, additional, Ellis, Lee, additional, Winter, Jordan, additional, Moss, Stephen, additional, and Greenwood, John, additional

Published
2023
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30. The development of computational methods for large-scale comparisons and analyses of genome evolution

Author

Moss, Stephen Paul, Lunt, David H., and Joyce, Domino A.

Subjects
572.8, Biological sciences
Abstract

The last four decades have seen the development of a number of experimental methods for the deduction of the whole genome sequences of an ever-increasing number of organisms. These sequences have in the first instance, allowed their investigators the opportunity to examine the molecular primary structure of areas of scientific interest, but with the increased sampling of organisms across the phylogenetic tree and the improved quality and coverage of genome sequences and their associated annotations, the opportunity to undertake detailed comparisons both within and between taxonomic groups has presented itself. The work described in this thesis details the application of comparative bioinformatics analyses on inter- and intra-genomic datasets, to elucidate those genomic changes, which may underlie organismal adaptations and contribute to changes in the complexity of genome content and structure over time. The results contained herein demonstrate the power and flexibility of the comparative approach, utilising whole genome data, to elucidate the answers to some of the most pressing questions in the biological sciences today. As the volume of genomic data increases, both as a result of increased sampling of the tree of life and due to an increase in the quality and throughput of the sequencing methods, it has become clear that there is a necessity for computational analyses of these data. Manual analysis of this volume of data, which can extend beyond petabytes of storage space, is now impossible. Automated computational pipelines are therefore required to retrieve, categorise and analyse these data. Chapter two discusses the development of a computational pipeline named the Genome Comparison and Analysis Toolkit (GCAT). The pipeline was developed using the Perl programming language and is tightly integrated with the Ensembl Perl API allowing for the retrieval and analyses of their rich genomic resources. In the first instance the pipeline was tested for its robustness by retrieving and describing various components of genomic architecture across a number of taxonomic groups. Additionally, the need for programmatically independent means of accessing data and in particular the need for Semantic Web based protocols and tools for the sharing of genomics resources is highlighted. This is not just for the requirements of researchers, but for improved communication and sharing between computational infrastructure. A prototype Ensembl REST web service was developed in collaboration with the European Bioinformatics Institute (EBI) to provide a means of accessing Ensembl’s genomic data without having to rely on their Perl API. A comparison of the runtime and memory usage of the Ensembl Perl API and prototype REST API were made relative to baseline raw SQL queries, which highlights the overheads inherent in building wrappers around the SQL queries. Differences in the efficiency of the approaches were highlighted, and the importance of investing in the development of Semantic Web technologies as a tool to improve access to data for the wider scientific community are discussed. Data highlighted in chapter two led to the identification of relative differences in the intron structure of a number of organisms including teleost fish. Chapter three encompasses a published, peer-reviewed study. Inter-genomic comparisons were undertaken utilising the 5 available teleost genome sequences in order to examine and describe their intron content. The number and sizes of introns were compared across these fish and a frequency distribution of intron size was produced that identified a novel expansion in the Zebrafish lineage of introns in the size range of approximately 500-2,000 bp. Further hypothesis driven analyses of the introns across the whole distribution of intron sizes identified that the majority, but not all of the introns were largely comprised of repetitive elements. It was concluded that the introns in the Zebrafish peak were likely the result of an ancient expansion of repetitive elements that had since degraded beyond the ability of computational algorithms to identify them. Additional sampling throughout the teleost fish lineage will allow for more focused phylogenetically driven analyses to be undertaken in the future. In chapter four phylogenetic comparative analyses of gene duplications were undertaken across primate and rodent taxonomic groups with the intention of identifying significantly expanded or contracted gene families. Changes in the size of gene families may indicate adaptive evolution. A larger number of expansions, relative to time since common ancestor, were identified in the branch leading to modern humans than in any other primate species. Due to the unique nature of the human data in terms of quantity and quality of annotation, additional analyses were undertaken to determine whether the expansions were methodological artefacts or real biological changes. Novel approaches were developed to test the validity of the data including comparisons to other highly annotated genomes. No similar expansion was seen in mouse when comparing with rodent data, though, as assemblies and annotations were updated, there were differences in the number of significant changes, which brings into question the reliability of the underlying assembly and annotation data. This emphasises the importance of an understanding that computational predictions, in the absence of supporting evidence, may be unlikely to represent the actual genomic structure, and instead be more an artefact of the software parameter space. In particular, significant shortcomings are highlighted due to the assumptions and parameters of the models used by the CAFE gene family analysis software. We must bear in mind that genome assemblies and annotations are hypotheses that themselves need to be questioned and subjected to robust controls to increase the confidence in any conclusions that can be drawn from them. In addition functional genomics analyses were undertaken to identify the role of significantly changed genes and gene families in primates, testing against a hypothesis that would see the majority of changes involving immune, sensory or reproductive genes. Gene Ontology (GO) annotations were retrieved for these data, which enabled highlighting the broad GO groupings and more specific functional classifications of these data. The results showed that the majority of gene expansions were in families that may have arisen due to adaptation, or were maintained due to their necessary involvement in developmental and metabolic processes. Comparisons were made to previously published studies to determine whether the Ensembl functional annotations were supported by the de-novo analyses undertaken in those studies. The majority were not, with only a small number of previously identified functional annotations being present in the most recent Ensembl releases. The impact of gene family evolution on intron evolution was explored in chapter five, by analysing gene family data and intron characteristics across the genomes of 61 vertebrate species. General descriptive statistics and visualisations were produced, along with tests for correlation between change in gene family size and the number, size and density of their associated introns. There was shown to be very little impact of change in gene family size on the underlying intron evolution. Other, non-family effects were therefore considered. These analyses showed that introns were restricted to euchromatic regions, with heterochromatic regions such as the centromeres and telomeres being largely devoid of any such features. A greater involvement of spatial mechanisms such as recombination, GC-bias across GC-rich isochores and biased gene conversion was thus proposed to play more of a role, though depending largely on population genetic and life history traits of the organisms involved. Additional population level sequencing and comparative analyses across a divergent group of species with available recombination maps and life history data would be a useful future direction in understanding the processes involved.

Published
2015

32. List of contributors

Author

Ahmad, Taseer, primary, Ahmed, Sharif, additional, Batish, Daizy Rani, additional, Beckie, Hugh J., additional, Borger, Catherine P.D., additional, Brusa, Anthony, additional, Chaudhary, Ankur, additional, Chauhan, Bhagirath Singh, additional, Chuah, Tse-Seng, additional, Contreras, Diego J., additional, Dahiya, Sahil, additional, Davies, Laura, additional, Desai, Het Samir, additional, Dilipkumar, Masilamany, additional, Elmore, Matthew T., additional, Eslami, Seyed Vahid, additional, Everman, Wesley J., additional, Florentine, Singarayer, additional, Gannon, Travis W., additional, Geddes, Charles M., additional, Govindasamy, Prabhu, additional, Henry, Gerald M., additional, Humphries, Talia, additional, Jabran, Khawar, additional, Jasieniuk, Marie, additional, Jhala, Amit J., additional, Jones, Eric A.L., additional, Kaur, Amarpreet, additional, Kaur, Shalinder, additional, Kaur, Simerjeet, additional, Khalsa, Gurpreet Singh, additional, Kohli, Ravinder Kumar, additional, Kumar, Virender, additional, Moss, Stephen Richard, additional, Narayana Rao, Adusumilli, additional, Newcombe, George, additional, Olsen, Kenneth M., additional, Qiang, Sheng, additional, Royo-Esnal, Aritz, additional, Sarangi, Debalin, additional, Singh, Harminder Pal, additional, Song, Beng-Kah, additional, Squires, Caleb C., additional, Taab, Alireza, additional, Tidemann, Breanne D., additional, Torra, Joel, additional, Walsh, Michael J., additional, and Ward, Sarah, additional

Published
2021
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35. Immunogenicity of Co-Administered Omicron BA.4/BA.5 Bivalent COVID-19 and Quadrivalent Seasonal Influenza Vaccines in Israel during the 2022–2023 Winter Season

Author

Moss, Stephen, primary, Jurkowicz, Menucha, additional, Nemet, Ital, additional, Atari, Nofar, additional, Kliker, Limor, additional, Abd-Elkader, Bayan, additional, Gonen, Tal, additional, Martin, Emily Toth, additional, Lustig, Yaniv, additional, Regev-Yochay, Gili, additional, and Mandelboim, Michal, additional

Published
2023
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41. Inelastic Collision Rates of Trapped Metastable Hydrogen

Author

Landhuis, David, Matos, Lia, Moss, Stephen C., Steinberger, Julia K., Vant, Kendra, Willmann, Lorenz, Greytak, Thomas J., and Kleppner, Daniel

Subjects
Physics - Atomic Physics
Abstract

We report the first detailed decay studies of trapped metastable (2S) hydrogen. By two-photon excitation of ultracold H samples, we have produced clouds of at least 5x10^7 magnetically trapped 2S atoms at densities greater than 4x10^10 cm^-3 and temperatures below 100 \muK. We derive experimental values for the total 2S-2S two-body loss rate constant in this temperature regime. Our results are in the range of recent theoretical calculations. We also find experimental upper limits on the rate constant for loss due to inelastic 1S-2S collisions., Comment: Submitted to Phys. Rev. A. Pre-print format: 21 pages, 8 figures

Published
2002
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48. Bose-Einstein Condensation of Atomic Hydrogen

Author

Kleppner, Daniel, Greytak, Thomas J., Killian, Thomas C., Fried, Dale G., Willmann, Lorenz, Landhuis, David, and Moss, Stephen C.

Subjects
Physics - Atomic Physics
Abstract

We have observed Bose-Einstein condensation (BEC) of trapped atomic hydrogen, and studied it by two-photon spectroscopy of the 1S-2S transition. In these lecture notes we briefly review the history of spin-polarized atomic hydrogen and describe the final steps to BEC. Laser spectroscopy, which probes the difference in mean field energy of the 1S and 2S states, is used to study the condensate, which has a peak density of 4.8e15 cm^-3 and population of 10^9., Comment: 24 pages, 11 figures, contribution to School of Physics "Enrico Fermi", session 140, 1998

Published
1998

50. The Novel DNA Binding Mechanism of Ridinilazole, a Precision Clostridiodes difficile Antibiotic

Author

Mason, Clive S., primary, Avis, Tim, additional, Hu, Chenlin, additional, Nagalingam, Nabeetha, additional, Mudaliar, Manikhandan, additional, Coward, Chris, additional, Begum, Khurshida, additional, Gajewski, Kathleen, additional, Alam, M. Jahangir, additional, Bassères, Eugenie, additional, Moss, Stephen, additional, Reich, Stefanie, additional, Duperchy, Esther, additional, Fox, Keith R., additional, Garey, Kevin W., additional, and Powell, David J., additional

Published
2023
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