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2. Improving the efficiency and effectiveness of an industrial SARS-CoV-2 diagnostic facility

Author

Julie A. Douthwaite, Christopher A. Brown, John R. Ferdinand, Rahul Sharma, Jane Elliott, Molly A. Taylor, Nancy T. Malintan, Hannah Duvoisin, Thomas Hill, Oona Delpuech, Alexandra L. Orton, Haidee Pitt, Fred Kuenzi, Simon Fish, David J. Nicholls, Anna Cuthbert, Ian Richards, Giles Ratcliffe, Abhishek Upadhyay, Abigail Marklew, Craig Hewitt, Douglas Ross-Thriepland, Christopher Brankin, Matthieu Chodorge, Gareth Browne, Palwinder K. Mander, Ruud M. DeWildt, Shane Weaver, Penny A. Smee, Joost van Kempen, Jon G. Bartlett, Paula M. Allen, Emma L. Koppe, Charlotte A. Ashby, Julian D. Phipps, Nalini Mehta, David J. Brierley, David G. Tew, Melanie V. Leveridge, Stuart M. Baddeley, Ian G. Goodfellow, Clive Green, Chris Abell, Andy Neely, Ian Waddell, Steve Rees, Patrick H. Maxwell, Menelas N. Pangalos, Rob Howes, and Roger Clark

Subjects
Medicine, Science
Abstract

Abstract On 11th March 2020, the UK government announced plans for the scaling of COVID-19 testing, and on 27th March 2020 it was announced that a new alliance of private sector and academic collaborative laboratories were being created to generate the testing capacity required. The Cambridge COVID-19 Testing Centre (CCTC) was established during April 2020 through collaboration between AstraZeneca, GlaxoSmithKline, and the University of Cambridge, with Charles River Laboratories joining the collaboration at the end of July 2020. The CCTC lab operation focussed on the optimised use of automation, introduction of novel technologies and process modelling to enable a testing capacity of 22,000 tests per day. Here we describe the optimisation of the laboratory process through the continued exploitation of internal performance metrics, while introducing new technologies including the Heat Inactivation of clinical samples upon receipt into the laboratory and a Direct to PCR protocol that removed the requirement for the RNA extraction step. We anticipate that these methods will have value in driving continued efficiency and effectiveness within all large scale viral diagnostic testing laboratories.

Published
2022
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3. Improving the efficiency and effectiveness of an industrial SARS-CoV-2 diagnostic facility

Author

Douthwaite, Julie A., Brown, Christopher A., Ferdinand, John R., Sharma, Rahul, Elliott, Jane, Taylor, Molly A., Malintan, Nancy T., Duvoisin, Hannah, Hill, Thomas, Delpuech, Oona, Orton, Alexandra L., Pitt, Haidee, Kuenzi, Fred, Fish, Simon, Nicholls, David J., Cuthbert, Anna, Richards, Ian, Ratcliffe, Giles, Upadhyay, Abhishek, Marklew, Abigail, Hewitt, Craig, Ross-Thriepland, Douglas, Brankin, Christopher, Chodorge, Matthieu, Browne, Gareth, Mander, Palwinder K., DeWildt, Ruud M., Weaver, Shane, Smee, Penny A., van Kempen, Joost, Bartlett, Jon G., Allen, Paula M., Koppe, Emma L., Ashby, Charlotte A., Phipps, Julian D., Mehta, Nalini, Brierley, David J., Tew, David G., Leveridge, Melanie V., Baddeley, Stuart M., Goodfellow, Ian G., Green, Clive, Abell, Chris, Neely, Andy, Waddell, Ian, Rees, Steve, Maxwell, Patrick H., Pangalos, Menelas N., Howes, Rob, and Clark, Roger

Published
2022
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4. Making sense of Community Treatment Orders : the service-user experience

Author

Marklew, Lee, Morrall, Peter, and Hugh-Jones, Siobhan

Subjects
610
Abstract

Since their introduction in 2008, Community Treatment Orders (CTOs) have become an increasingly common feature of mental health treatment. Although compulsory community treatment is used in many countries, there is a lack of consistent evidence of its clinical effectiveness and a dearth of methodically robust studies. The international use of CTOs remains contentious based on the ethics of coercion and infringement of autonomy. Detailed understanding and interpretation of the experiential impact on service-users is necessary to inform the ongoing use and development of CTOs. Although some of the extant literature acknowledges the effect of historical and contextual influences on the implementation of CTOs, these influences have not been comprehensively evaluated. Existing exploratory studies reveal wide-ranging, often conflicting responses from service-users, describing mainly ambivalent reactions to a CTO. This indicates a need for rich detailed data and analysis of the service-users’ experience of CTOs. This study aimed to investigate how service-users make sense of their CTO experience. Ten active CTO service-users were purposefully recruited from an Assertive Outreach Team caseload in the north of England. Each participant undertook one or two semi-structured interviews facilitated with photo-journals and diaries. A total of 18 interviews were completed and the data subject to Interpretative Phenomenological Analysis. Themes were generated and organised into three clusters: Pained and Powerless; Alignment and Reconnection; and Consolation and Compensation. Some participants felt powerless to challenge the ‘sentence’ imposed as therapeutic intent. Many participants described feeling disadvantaged, different and labelled, but were also committed to recovery and reintegration into the community. Some participants perceived that small interactions could combine to leave them feeling more secure, less anxious and, paradoxically, more in control. The study proposes a theoretical framework that may unlock the therapeutic potential of CTOs, improving lived experience without compromising their social significance or effectiveness.

Published
2017

5. Exploring the mechanisms behind cigarette smoke-induced internalization of CFTR

Author

Marklew, Abigail Jane

Subjects
616.2
Abstract

Chronic obstructive pulmonary disease (COPD) the third leading cause of death, with an estimated 65 million cases worldwide. Despite this, most research to date has focused on treating the symptoms of COPD rather than the underlying mechanisms. Recently, we have shown that exposure to cigarette smoke (CS), the leading cause of COPD, results in an increase in cytosolic calcium and the rapid internalization and insolublization of the cystic fibrosis transmembrane conductance regulator (CFTR). Normal ion transport is imperative for mucus hydration and clearance, and its dysfunction after CS exposure may be responsible for the mucus dehydration and accumulation seen in COPD patients. Thus, the primary aim of this thesis was to establish the mechanism(s) behind the CS-induced internalization of CFTR. Confocal imaging and Förster resonance energy transfer demonstrated that CFTR-CFTR interactions were reduced upon internalization of CFTR, and that CFTR was internalized with a T1/2 of 27.7 min. U0126, an inhibitor of MEK1 and MEK2, abolished the internalization of CFTR by CS. Furthermore, U0126 had no effect on CS-induced Ca2+ release. These data implicate the necessity of MAPK/ERK kinases in CS-induced internalization, and suggest that this kinase activity is downstream of Ca2+ release. Furthermore, CS caused dephosphorylation of plasma membrane CFTR, and CS-induced internalization of CFTR was prevented by forskolin, suggesting that dephosphorylation of CFTR by CS may lead to its internalization. CS-induced CFTR internalization was ablated by inhibitors of endocytosis, hypertonic sucrose and dynasore. Consistent with results demonstrating that CS-internalized colocalization CFTR with clathrin light chain, these data suggest that CS-induced internalization of CFTR is both clathrin- and dynamin-dependent. CS-internalized CFTR colocalized substantially with markers of the endoplasmic reticulum. Partial colocalization of CS-internalized CFTR with markers of the early endosomes, late endosomes, and the Golgi apparatus but not recycling endosomes, suggest that CFTR is trafficked in a retrograde pathway from the plasma membrane to the endoplasmic reticulum. This thesis provides new insights into the mechanism of CS-induced CFTR internalization, and may help in the development of new therapies for CFTR correction and airway surface liquid rehydration in patients with COPD.

Published
2016

7. In Vitro Membrane Remodeling by ESCRT is Regulated by Negative Feedback from Membrane Tension

Author

Andrew Booth, Christopher J. Marklew, Barbara Ciani, and Paul A. Beales

Subjects
Science
Abstract

Summary: Artificial cells can shed new light on the molecular basis for life and hold potential for new chemical technologies. Inspired by how nature dynamically regulates its membrane compartments, we aim to repurpose the endosomal sorting complex required for transport (ESCRT) to generate complex membrane architectures as suitable scaffolds for artificial cells. Purified ESCRT-III components perform topological transformations on giant unilamellar vesicles to create complex “vesicles-within-a-vesicle” architectures resembling the compartmentalization in eukaryotic cells. Thus far, the proposed mechanisms for this activity are based on how assembly and disassembly of ESCRT-III on the membrane drives deformation. Here we demonstrate the existence of a negative feedback mechanism from membrane mechanics that regulates ESCRT-III remodeling activity. Intraluminal vesicle (ILV) formation removes excess membrane area, increasing tension, which in turn suppresses downstream ILV formation. This mechanism for in vitro regulation of ESCRT-III activity may also have important implications for its in vivo functions. : Biochemistry; Bioengineering; Cell Biology; Biophysics Subject Areas: Biochemistry, Bioengineering, Cell Biology, Biophysics

Published
2019
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8. An exploration of the motherhood decision

Author

Marklew, Hannah and Wolverson, Emma

Subjects
616.89, Clinical psychology
Abstract

The portfolio thesis is separated into three parts: a meta-synthesis of qualitative research, an empirical study and appendices. Part one is a meta-synthesis reviewing the published qualitative literature regarding the decision to remain childfree in women. The aim of the synthesis was to provide healthcare professionals with an in depth insight into the influences and consequences of the decision in order to inform aspects of their practice when working with childfree women, alongside infertile women and those contemplating the motherhood decision. Five broad themes were discovered from six papers eliciting that the childfree decision is multifaceted and individual. The findings are discussed in relation to clinical implications and potential future research. Part two is an empirical study that explores the experience of the motherhood decision in women diagnosed with Multiple Sclerosis. Eleven women were interviewed, and data was analysed using Interpretative Phenomenological Analysis (IPA). Though the study involved both women who had children and women who did not have children following diagnosis, several themes occurred across interviews with participants. Key implications for the aid of the decision making process within health care services are discussed. Part three consists of appendices supporting both the meta-synthesis and the empirical study. It also includes a reflective statement detailing the process of the research from beginning to end.

Published
2014

9. Enantiopure bromonium ion-induced cation-π cyclisations

Author

Marklew, Jared Stephen and Braddock, David Christopher

Subjects
540
Abstract

There has been an astonishing variety of sesqui- and diterpene metabolites isolated—mainly from Laurencia species, or their predators—which possess the enantiopure α,α-dimethylcyclohexyl bromide moiety. The key step in their biogenesis is generally considered to be an enzyme-mediated formation of an asymmetric bromonium ion which initiates a cation-π cyclisation. This diverse array of terpene natural products is explored in the introduction to this thesis and their biogenesis via cation-π cyclisations analysed. Synthetic sources of electrophilic bromine such as NBS, TBCO and BDSB have been shown to initiate brominative polyene cyclisations with excellent control of relative stereochemistry albeit as necessarily racemic products. At the start of this work no asymmetric bromonium ion-induced polyene cyclisations had been demonstrated. Studies on a model system for the key in situ enantiopure bromonium ion generation and intramolecular trapping are described. Sharpless asymmetric dihydroxylation provides access to enantiopure diols of a trisubstituted alkene which can be manipulated to enantiopure bromohydrins. These are activated as 2,3,4,5-tetrafluorobenzoate esters which cyclise cleanly under the action of catalytic triflic acid to give enantiopure bromo-bicycles without racemisation from bromonium ion to alkene transfer. The mechanism of this reaction is investigated, it is practically demonstrated and shorter routes are explored. The synthesis of high purity linear terpene: homogeranyl 4-methoxybenzene is discussed, from which the synthesis of enantiopure bromo-tetrafluorobenzoate esters is carried out. The use of Lewis acid, in this case dimethylaluminium triflate, was found to successfully enact the cyclisation of these alkene containing substrates. Full conversion to cyclic products was achieved and the desired tricyclic product was isolated as a mixture of enantiopure diastereomers. Absolute and relative configuration of both diastereomers were determined by radical dehalogenation and comparison of the sign of the optical rotation of the product to literature values. Finally, the synthesis of homofarnesyl 4-methoxybenzene derived substrates is detailed. The cyclisation of which has the potential to generate tetracyclic compounds. This forms the basis of future work to be carried out.

Published
2014
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10. Structural and functional characterisation of magnesium protoporphyrin IX chelatase from Thermosynechococcus elongatus

Author

Marklew, Christopher James and Hunter, C.Neil

Subjects
540
Abstract

The production of chemical energy from light energy is arguably the most important reaction known. Nearly all life depends on energy derived from light and it is by this process that the atmosphere of our planet was oxygenated. Chlorophyll is the pigment that absorbs light and donates an electron initiating the process of photosynthesis. This highly complex molecule is the result of many chemical reactions collectively known as chlorophyll biosynthesis. Chlorophyll is a modified tetrapyrrole and shares a common synthetic pathway to vitamin B12, Siroheam and haem. Photosynthetic organisms need both chlorophyll and haem, and the branch point they share, committing to the production of either is thought to be highly regulated. The common precursor to both pigments is protoporphyrin IX and the fate of the macrocycle depends on which divalent metal ion is inserted into the tetrapyrrole. The insertion of Fe2+ by ferrochelatase commits to the production of haem whereas the insertion of Mg2+ by magnesium chelatase commits to the production of chlorophyll. The magnesium chelatase is comprised of three subunits that are all essential for activity and are known as ChlH (~150 kDa), ChlD (~75 kDa) and ChlI (~40 kDa). It is known that the H protein binds both the tetrapyrrole substrate and product of the reaction. The I and D subunits are thought to be the catalytic element of the enzyme and once a H•substrate complex is formed, this binds with an ID complex to initiate the reaction. This work will focus on the structural and functional characteristics of a thermophilic magnesium chelatase (from Thermosynechococcus elongatus) which have never been previously studied.

Published
2012

11. Northern Irish elegy

Author

Marklew, Naomi

Subjects
820.90091
Abstract

This thesis proposes that Northern Irish elegy is a distinctive genre of contemporary poetry, which has developed during the years of the Troubles, and has continued to be adapted and defined during the current peace process. It argues that the practice of writing elegy for the losses of the Troubles has established a poetic mode in which Northern Irish poets have continued to work through losses of a more universal kind. This thesis explores the contention that elegy has a clear social and political function, providing a way in which to explore some of the losses experienced by a community over the past half-century, and helping to suggest ideas of consolation. Part one focuses on three first generation Northern Irish elegists: Seamus Heaney, Michael Longley and Derek Mahon. Heaney is considered in a chapter which takes in a poetic career, through which might be traced the development of Northern Irish elegy. Following this are two highly focused studies of the elegies of Longley and Mahon. The place of artifice in elegy is considered in relation to Longley's Troubles elegies, while Mahon’s irony is discussed in relation to his elegiac need for community. Part two looks at a second generation, represented by Ciaran Carson and Paul Muldoon. Carson's elegies for Belfast are read in a discussion of the destruction and reconstruction that occurs during the process of remembering. This study explores the idea that elegies might also be written for places and temporal spaces. Carson's interest in poetic form is shown to be intricately related to his elegiac practice. The chapter on Muldoon surveys a career which has interrogated the connections between art and suffering. Muldoon raises questions of poetic responsibility, and also challenges poetry itself, on a formal and linguistic level. As his career develops, he includes not only the local threats of Troubles violence within his elegies, but also the global threats of disease, violence and terror. Part three starts with Medbh McGuckian, whose work is discussed in relation to the third generation poets Sinead Morrissey, Leontia Flynn and Colette Bryce. As McGuckian's poetry is perhaps the least immediately accessible of all the poetry covered here, the thesis considers ways in which her work might be read, before her poems are discussed as Northern Irish elegies. Following this are readings of poems from Morrissey, Flynn and Bryce, noting ways in which this generation works to develop the genre of elegy, working in the same broad themes that have been charted throughout this thesis.

Published
2011

14. Tracking autophagy during proliferation and differentiation of Trypanosoma brucei

Author

Laila Moustaq, Iwona I. Smaczynska-de Rooij, Sarah E. Palmer, Christopher J. Marklew, and Kathryn R. Ayscough

Subjects
Dynamin, Charcot-Marie-Tooth, Epilepsy, Disease mutation, Saccharomyces cerevisiae, Biology (General), QH301-705.5
Abstract

The dynamins represent a superfamily of proteins that have been shown to function in a wide range of membrane fusion and fission events. An increasing number of mutations in the human classical dynamins, Dyn-1 and Dyn-2 has been reported, with diseases caused by these changes ranging from Charcot-Marie-Tooth disorder to epileptic encephalopathies. The budding yeast, Saccharomyces cerevisiae expresses a single dynamin-related protein that functions in membrane trafficking, and is considered to play a similar role to Dyn-1 and Dyn-2 during scission of endocytic vesicles at the plasma membrane. Large parts of the dynamin protein are highly conserved across species and this has enabled us in this study to select a number of disease causing mutations and to generate equivalent mutations in Vps1. We have then studied these mutants using both cellular and biochemical assays to ascertain functions of the protein that have been affected by the changes. Specifically, we demonstrate that the Vps1-G397R mutation (Dyn-2 G358R) disrupts protein oligomerization, Vps1-A447T (Dyn-1 A408T) affects the scission stage of endocytosis, while Vps1-R298L (Dyn-1 R256L) affects lipid binding specificity and possibly an early stage in endocytosis. Overall, we consider that the yeast model will potentially provide an avenue for rapid analysis of new dynamin mutations in order to understand the underlying mechanisms that they disrupt.

Published
2016
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17. Mutation of key lysine residues in the Insert B region of the yeast dynamin Vps1 disrupts lipid binding and causes defects in endocytosis.

Author

Iwona I Smaczynska-de Rooij, Christopher J Marklew, Sarah E Palmer, Ellen G Allwood, and Kathryn R Ayscough

Subjects
Medicine, Science
Abstract

The yeast dynamin-like protein Vps1 has roles at multiple stages of membrane trafficking including Golgi to vacuole transport, endosomal recycling, endocytosis and in peroxisomal fission. While the majority of the Vps1 amino acid sequence shows a high level of identity with the classical mammalian dynamins, it does not contain a pleckstrin homology domain (PH domain). The Dyn1 PH domain has been shown to bind to lipids with a preference for PI(4,5)P2 and it is considered central to the function of Dyn1 in endocytosis. The lack of a PH domain in Vps1 has raised questions as to whether the protein can function directly in membrane fusion or fission events. Here we demonstrate that the region Insert B, located in a position equivalent to the dynamin PH domain, is able to bind directly to lipids and that mutation of three lysine residues reduces its capacity to interact with lipids, and in particular with PI(4,5)P2. The Vps1 KKK-AAA mutant shows more diffuse staining but does still show some localization to compartments adjacent to vacuoles and to endocytic sites suggesting that other factors are also involved in its recruitment. This mutant selectively blocks endocytosis, but is functional in other processes tested. While mutant Vps1 can localise to endocytic sites, the mutation results in a significant increase in the lifetime of the endocytic reporter Sla2 and a high proportion of defective scission events. Together our data indicate that the lipid binding capacity of the Insert B region of Vps1 contributes to the ability of the protein to associate with membranes and that its capacity to interact with PI(4,5)P2 is important in facilitating endocytic scission.

Published
2019
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18. PREPARING FOR THE UNEXPECTED SCENARIO PLANNING TO HELP TACKLE TAIL-RISK EVENTS

Author

Marklew, Victoria

Subjects
Monetary policy -- Forecasts and trends, Company business planning, Market trend/market analysis, Banking, finance and accounting industries, Business, European Union -- Planning
Abstract

This article is based on input, observations, and experiences shared by country risk, market risk, model risk, and stress-testing practitioners from the U.S., Australia, and Asia. IF THE YEAR 2016 [...]

Published
2018

19. ICONIC: an international task force supporting collaboration in nutrition and cancer globally

Author

Rachel E. Marklew, Alan A. Jackson, Martin J. Wiseman, and Stephen A. Wootton

Subjects
Food Science, Biotechnology
Abstract

Background: Cancer represents a major cause of mortality globally and by 2050 will be the major cause of ill health and death across the world, most particularly in low- and middle-income countries (LMIC). For forty years, there has been increasing recognition of the need to better understand how the modifiable factors related to diet, nutrition and physical activity can influence the risk of cancer, responses to treatment, and survival. Scope and approach: The International Collaboration on Nutrition in relation to Cancer (ICONIC) - a task force of the International Union of Nutritional Sciences (IUNS) - was established in 2018, as a development from the UK NIHR Cancer and Nutrition Collaboration and as a mechanism to bring together wider international expressions of interest in nutrition and cancer. Key findings: ICONIC has engaged in a range of activities, with a current focus of effort in three main areas: 1) building wider capability and stronger capacity for excellence in research and practice in Africa, with the longer-term ambition to develop a high quality, context-specific research programme in this region, 2) facilitating international collaboration and developing activities in the area of childhood cancers, and 3) developing an agenda for prehabilitation (personalised management of exercise, nutrition and psychological support before the start of definitive treatment) for cancer. Conclusions: ICONIC's ambition is to build an international nutrition and cancer community - spanning research, education and training, in clinical and public health practice – to create coherence and common language across the two communities, and promote improved care and outcomes for those affected by cancer.

Published
2022

23. In Vitro Membrane Remodeling by ESCRT is Regulated by Negative Feedback from Membrane Tension

Author

Christopher J. Marklew, Barbara Ciani, Paul A. Beales, and Andrew Booth

Subjects
0301 basic medicine, Multidisciplinary, Artificial cell, Chemistry, Endosome, Vesicle, Biophysics, Bioengineering, 02 engineering and technology, Cell Biology, macromolecular substances, Compartmentalization (psychology), 021001 nanoscience & nanotechnology, Biochemistry, ESCRT, In vitro, Article, 03 medical and health sciences, 030104 developmental biology, Membrane, Negative feedback, lcsh:Q, 0210 nano-technology, lcsh:Science
Abstract

Summary Artificial cells can shed new light on the molecular basis for life and hold potential for new chemical technologies. Inspired by how nature dynamically regulates its membrane compartments, we aim to repurpose the endosomal sorting complex required for transport (ESCRT) to generate complex membrane architectures as suitable scaffolds for artificial cells. Purified ESCRT-III components perform topological transformations on giant unilamellar vesicles to create complex “vesicles-within-a-vesicle” architectures resembling the compartmentalization in eukaryotic cells. Thus far, the proposed mechanisms for this activity are based on how assembly and disassembly of ESCRT-III on the membrane drives deformation. Here we demonstrate the existence of a negative feedback mechanism from membrane mechanics that regulates ESCRT-III remodeling activity. Intraluminal vesicle (ILV) formation removes excess membrane area, increasing tension, which in turn suppresses downstream ILV formation. This mechanism for in vitro regulation of ESCRT-III activity may also have important implications for its in vivo functions., Graphical Abstract, Highlights • ESCRT proteins are used to create compartmentalized artificial cell architectures • In vitro ESCRT activity is weakly dependent on the stoichiometry of Vps20 or Vps24 • ESCRT function is strongly regulated by membrane tension • Membrane tension provides a negative feedback mechanism to attenuate remodeling, Biochemistry; Bioengineering; Cell Biology; Biophysics

Published
2019

24. Navigating the ELT marathon.

Author

Marklew, Cameron

Subjects
ENGLISH as a foreign language, ENGLISH teachers, LESSON planning, JOB stress, MENTORING in education
Published
2024

25. Direct binding of ESCRT protein Chm7 to phosphatidic acid–rich membranes at nuclear envelope herniations

Author

Thaller, D.J., Tong, D., Marklew, C.J., Ader, N.R., Mannino, P.J., Borah, S., King, M.C., Ciani, B., and Lusk, C.P.

Abstract

Mechanisms that control nuclear membrane remodeling are essential to maintain the integrity of the nucleus but remain to be fully defined. Here, we identify a phosphatidic acid (PA)–binding capacity in the nuclear envelope (NE)–specific ESCRT, Chm7, in budding yeast. Chm7’s interaction with PA-rich membranes is mediated through a conserved hydrophobic stretch of amino acids, which confers recruitment to the NE in a manner that is independent of but required for Chm7’s interaction with the LAP2-emerin-MAN1 (LEM) domain protein Heh1 (LEM2). Consistent with the functional importance of PA binding, mutation of this region abrogates recruitment of Chm7 to membranes and abolishes Chm7 function in the context of NE herniations that form during defective nuclear pore complex (NPC) biogenesis. In fact, we show that a PA sensor specifically accumulates within these NE herniations. We suggest that local control of PA metabolism is important for ensuring productive NE remodeling and that its dysregulation may contribute to pathologies associated with defective NPC assembly.

Published
2021

26. Direct binding of ESCRT protein Chm7 to phosphatidic acid–rich membranes at nuclear envelope herniations

Author

Danqing Tong, David J Thaller, Nicholas R. Ader, Philip J. Mannino, Megan C. King, Sapan Borah, Barbara Ciani, C. Patrick Lusk, and Christopher J. Marklew

Subjects
Nuclear Envelope, Protein domain, Phosphatidic Acids, Context (language use), Biology, ESCRT, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Report, medicine, Nuclear pore, Nuclear membrane, 030304 developmental biology, Organelles, 0303 health sciences, Membranes, Membrane and Lipid Biology, Proteins, Cell Biology, Phosphatidic acid, Cell biology, Cell nucleus, medicine.anatomical_structure, chemistry, 030217 neurology & neurosurgery, Biogenesis
Abstract

Thaller et al. demonstrate that direct binding between phosphatidic acid (PA) and the ESCRT Chm7 is required for nuclear envelope surveillance; PA also accumulates at nuclear envelope herniations. Thus, tight control of PA metabolism is required for nuclear envelope homeostasis., Mechanisms that control nuclear membrane remodeling are essential to maintain the integrity of the nucleus but remain to be fully defined. Here, we identify a phosphatidic acid (PA)–binding capacity in the nuclear envelope (NE)–specific ESCRT, Chm7, in budding yeast. Chm7’s interaction with PA-rich membranes is mediated through a conserved hydrophobic stretch of amino acids, which confers recruitment to the NE in a manner that is independent of but required for Chm7’s interaction with the LAP2-emerin-MAN1 (LEM) domain protein Heh1 (LEM2). Consistent with the functional importance of PA binding, mutation of this region abrogates recruitment of Chm7 to membranes and abolishes Chm7 function in the context of NE herniations that form during defective nuclear pore complex (NPC) biogenesis. In fact, we show that a PA sensor specifically accumulates within these NE herniations. We suggest that local control of PA metabolism is important for ensuring productive NE remodeling and that its dysregulation may contribute to pathologies associated with defective NPC assembly.

Published
2021

27. Direct PA-binding by Chm7 is required for nuclear envelope surveillance at herniations

Author

Sapan Borah, Christopher J. Marklew, Danqing Tong, C. Patrick Lusk, Barbara Ciani, and David J Thaller

Subjects
Mutation, medicine.anatomical_structure, Chemistry, Protein domain, medicine, Inner membrane, Context (language use), Nuclear pore, Nuclear membrane, medicine.disease_cause, ESCRT, Biogenesis, Cell biology
Abstract

Mechanisms that control nuclear membrane remodeling are essential to maintain the integrity of the nucleus but remain to be fully defined. Here, we identify a phosphatidic acid (PA)-binding activity in the nuclear envelope-specific ESCRT, Chm7, in budding yeast. PA-binding is mediated through a conserved hydrophobic stretch of amino acids, which confers specific binding to the inner nuclear membrane (INM). This INM-binding is independent but nonetheless required for interaction with the LAP2-emerin-MAN1 (LEM) domain protein, Heh1 (LEM2). Consistent with the functional importance of PA-binding, mutation of this region inhibits recruitment of Chm7 to the INM and abolishes Chm7 function in the context of nuclear envelope herniations or “blebs” that form during defective nuclear pore complex (NPC) biogenesis. In fact, we show that PA accumulates at nuclear envelope herniations. We suggest that local control of PA metabolism is important for ensuring productive nuclear envelope remodeling and that its dysregulation may contribute to pathologies associated with defective NPC assembly.

Published
2020
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30. Cigarette Smoke Exposure Induces Retrograde Trafficking of CFTR to the Endoplasmic Reticulum

Author

M. Flori Sassano, Amanda J. Smith, Abigail J. Marklew, Chong D. Tan, Robert Tarran, Patrick J. Moore, Michael A. Gray, and Waseema Patel

Subjects
0301 basic medicine, Dynamins, congenital, hereditary, and neonatal diseases and abnormalities, Physiology, media_common.quotation_subject, lcsh:Medicine, Cystic Fibrosis Transmembrane Conductance Regulator, Down-Regulation, Membrane trafficking, Endoplasmic Reticulum, Clathrin, Models, Biological, Article, Cell Line, 03 medical and health sciences, Pulmonary Disease, Chronic Obstructive, Downregulation and upregulation, Smoke, Tobacco, Medicine, Humans, Secretion, Phosphorylation, Internalization, lcsh:Science, media_common, Multidisciplinary, 030102 biochemistry & molecular biology, biology, Protein transport, business.industry, Endoplasmic reticulum, Calcineurin, lcsh:R, Apical membrane, respiratory system, Mucus, Cystic fibrosis transmembrane conductance regulator, digestive system diseases, 3. Good health, Cell biology, respiratory tract diseases, 030104 developmental biology, HEK293 Cells, biology.protein, lcsh:Q, business
Abstract

Chronic obstructive pulmonary disease (COPD), which is most commonly caused by cigarette smoke (CS) exposure, is the third leading cause of death worldwide. The cystic fibrosis transmembrane conductance regulator (CFTR) is an apical membrane anion channel that is widely expressed in epithelia throughout the body. In the airways, CFTR plays an important role in fluid homeostasis and helps flush mucus and inhaled pathogens/toxicants out of the lung. Inhibition of CFTR leads to mucus stasis and severe airway disease. CS exposure also inhibits CFTR, leading to the decreased anion secretion/hydration seen in COPD patients. However, the underlying mechanism is poorly understood. Here, we report that CS causes CFTR to be internalized in a clathrin/dynamin-dependent fashion. This internalization is followed by retrograde trafficking of CFTR to the endoplasmic reticulum. Although this internalization pathway has been described for bacterial toxins and cargo machinery, it has never been reported for mammalian ion channels. Furthermore, the rapid internalization of CFTR is dependent on CFTR dephosphorylation by calcineurin, a protein phosphatase that is upregulated by CS. These results provide new insights into the mechanism of CFTR internalization, and may help in the development of new therapies for CFTR correction and lung rehydration in patients with debilitating airway diseases such as COPD.

Published
2019

33. The influence of phosphatidylserine localisation and lipid phase on membrane remodelling by the ESCRT-II/ESCRT-III complex.

Author

Booth, Andrew, Marklew, Christopher J., Ciani, Barbara, and Beales, Paul A.

Abstract

The endosomal sorting complex required for transport (ESCRT) organises in supramolecular structures on the surface of lipid bilayers to drive membrane invagination and scission of intraluminal vesicles (ILVs), a process also controlled by membrane mechanics. However, ESCRT association with the membrane is also mediated by electrostatic interactions with anionic phospholipids. Phospholipid distribution within natural biomembranes is inhomogeneous due to, for example, the formation of lipid rafts and curvature-driven lipid sorting. Here, we have used phase-separated giant unilamellar vesicles (GUVs) to investigate the link between phosphatidylserine (PS)-rich lipid domains and ESCRT activity. We employ GUVs composed of phase separating lipid mixtures, where unsaturated DOPS and saturated DPPS lipids are incorporated individually or simultaneously to enhance PS localisation in liquid disordered (Ld) and/or liquid ordered (Lo) domains, respectively. PS partitioning between the coexisting phases is confirmed by a fluorescent Annexin V probe. Ultimately, we find that ILV generation promoted by ESCRTs is significantly enhanced when PS lipids localise within Ld domains. However, the ILVs that form are rich in Lo lipids. We interpret this surprising observation as preferential recruitment of the Lo phase beneath the ESCRT complex due to its increased rigidity, where the Ld phase is favoured in the neck of the resultant buds to facilitate the high membrane curvature in these regions of the membrane during the ILV formation process. Ld domains offer lower resistance to membrane bending, demonstrating a mechanism by which the composition and mechanics of membranes can be coupled to regulate the location and efficiency of ESCRT activity. [ABSTRACT FROM AUTHOR]

Published
2021
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34. In vitro membrane remodelling by ESCRT-II/ESCRT-III is regulated by negative feedback from membrane tension

Author

Andrew Booth, Barbara Ciani, Paul A. Beales, and Christopher J. Marklew

Subjects
0303 health sciences, Artificial cell, Endosome, Chemistry, Vesicle, 030302 biochemistry & molecular biology, macromolecular substances, In vitro, Membrane tension, ESCRT, 03 medical and health sciences, Membrane, Negative feedback, Biophysics, 030304 developmental biology
Abstract

Artificial cells can shed new light on the molecular basis for life and hold potential for new chemical technologies. Inspired by how nature dynamically regulates its membrane compartments, we aim to repurpose the endosomal sorting complex required for transport (ESCRT) to generate complex membrane architectures as suitable scaffolds for artificial cells. Purified ESCRT-III components perform topological transformations on giant unilamellar vesicles (GUVs) to create complex “vesicles-within-a-vesicle” architectures resembling the compartmentalisation in eukaryotic cells. Thus far, the proposed mechanisms for this activity are based on how assembly and disassembly of ESCRT-III on the membrane drives deformation. Here we demonstrate the existence of a negative feedback mechanism from membrane mechanics that regulates ESCRT-III activity. ILV formation removes excess membrane area, increasing tension, which in turn suppresses downstream ILV formation. This mechanism for in vitro regulation of ESCRT-III activity may also have important implications for its in vivo functions.

Published
2018
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35. Membrane remodelling by a lipidated endosomal sorting complex required for transport-III chimera, in vitro

Author

Barbara Ciani, Andrew Booth, Paul A. Beales, and Christopher J. Marklew

Subjects
0301 basic medicine, Artificial cell, Endosome, Biomedical Engineering, Biophysics, Bioengineering, 02 engineering and technology, Articles, macromolecular substances, 021001 nanoscience & nanotechnology, Biochemistry, ESCRT, In vitro, Cell biology, Biomaterials, 03 medical and health sciences, Chimera (genetics), Synthetic biology, Cytosol, 030104 developmental biology, Membrane, 0210 nano-technology, Biotechnology
Abstract

The complexity of eukaryotic cells is underscored by the compartmentalization of chemical signals by phospholipid membranes. A grand challenge of synthetic biology is building life from the ‘bottom-up’, for the purpose of generating systems simple enough to precisely interrogate biological pathways or for adapting biology to perform entirely novel functions. Achieving compartmentalization of chemistries in an addressable manner is a task exquisitely refined by nature and embodied in a unique membrane remodelling machinery that pushes membranes away from the cytosol, the ESCRT-III (endosomal sorting complex required for transport-III) complex. Here, we show efforts to engineer a single ESCRT-III protein merging functional features from its different components. The activity of such a designed ESCRT-III is shown by its ability to drive the formation of compartments encapsulating fluorescent cargo. It appears that the modular nature of ESCRT-III allows its functional repurposing into a minimal machinery that performs sophisticated membrane remodelling, therefore enabling its use to create eukaryotic-like multi-compartment architectures.

Published
2018

36. Little Cigars are More Toxic than Cigarettes and Uniquely Change the Airway Gene and Protein Expression

Author

Hong Dang, Boris Reidel, Gary L. Glish, Sabri Abdelwahab, Abigail J. Marklew, Amy H. Herring, Steven L. Reeber, Robert Tarran, Mehmet Kesimer, Andrew J. Garrison, Arunava Ghosh, and Shernita Lee

Subjects
0301 basic medicine, Programmed cell death, Pathology, medicine.medical_specialty, Proteome, Cigar Smoking, Cystic Fibrosis Transmembrane Conductance Regulator, Inflammation, Bronchi, Pharmacology, Tobacco smoke, Article, Mass Spectrometry, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, Lactate dehydrogenase, Tobacco, Medicine, Humans, Secretion, Coal Tar, Regulation of gene expression, Multidisciplinary, biology, integumentary system, Cell Death, business.industry, Epithelial Cells, Tobacco Products, Cystic fibrosis transmembrane conductance regulator, 3. Good health, 030104 developmental biology, chemistry, Gene Expression Regulation, 13. Climate action, Toxicity, biology.protein, medicine.symptom, business
Abstract

Little cigars (LCs) are regulated differently than cigarettes, allowing them to be potentially targeted at youth/young adults. We exposed human bronchial epithelial cultures (HBECs) to air or whole tobacco smoke from cigarettes vs. LCs. Chronic smoke exposure increased the number of dead cells, lactate dehydrogenase release, and interleukin-8 (IL-8) secretion and decreased apical cilia, cystic fibrosis transmembrane conductance regulator (CFTR) protein levels, and transepithelial resistance. These adverse effects were significantly greater in LC-exposed HBECs than cigarette exposed cultures. LC-exposure also elicited unique gene expression changes and altered the proteomic profiles of airway apical secretions compared to cigarette-exposed HBECs. Gas chromatography-mass spectrometry (GC-MS) analysis indicated that LCs produced more chemicals than cigarettes, suggesting that the increased chemical load of LCs may be the cause of the greater toxicity. This is the first study of the biological effects of LCs on pulmonary epithelia and our observations strongly suggest that LCs pose a more severe danger to human health than cigarettes.

Published
2017

37. Structural and functional consequences of removing the N-terminal domain from the magnesium chelatase ChlH subunit of Thermosynechococcus elongatus

Author

Nathan B. P. Adams, Per A. Bullough, Amanda A. Brindley, Pu Qian, C. Neil Hunter, Christopher J. Marklew, and Paul A. Davison

Subjects
DIX, deuteroporphyrin, Models, Molecular, Enzyme complex, Globular protein, Protein subunit, Mutant, magnesium chelatase, Molecular Sequence Data, Molecular Conformation, Lyases, Plasma protein binding, Biology, MgProto, magnesium protoporphyrin, Biochemistry, Structure-Activity Relationship, MgDIX, magnesium deuteroporphyrin, ATP hydrolysis, chlorophyll, Amino Acid Sequence, Binding site, Synechocystis sp. PCC6803, Molecular Biology, chemistry.chemical_classification, Thermosynechococcus elongatus, Synechococcus, chlorophyll biosynthesis, electron microscopy, MRA, multi-reference alignment, Cell Biology, Recombinant Proteins, Chl, chlorophyll, Protein Structure, Tertiary, Magnesium chelatase, chemistry, Biophysics, β-DDM, n-dodecyl-β-D-maltopyranoside, Proto, protoporphyrin IX, MgCH, magnesium chelatase, Gene Deletion, Research Article, Protein Binding
Abstract

Magnesium chelatase (MgCH) initiates chlorophyll biosynthesis by catalysing the ATP-dependent insertion of Mg2+ into protoporphyrin. This large enzyme complex comprises ChlH, I and D subunits, with I and D involved in ATP hydrolysis, and H the protein that handles the substrate and product. The 148 kDa ChlH subunit has a globular N-terminal domain attached by a narrow linker to a hollow cage-like structure. Following deletion of this ~18 kDa domain from the Thermosynechoccus elongatus ChlH, we used single particle reconstruction to show that the apo- and porphyrin-bound forms of the mutant subunit consist of a hollow globular protein with three connected lobes; superposition of the mutant and native ChlH structures shows that, despite the clear absence of the N-terminal ‘head’ region, the rest of the protein appears to be correctly folded. Analyses of dissociation constants shows that the ΔN159ChlH mutant retains the ability to bind protoporphyrin and the Gun4 enhancer protein, although the addition of I and D subunits yields an extremely impaired active enzyme complex. Addition of the Gun4 enhancer protein, which stimulates MgCH activity significantly especially at low Mg2+ concentrations, partially reactivates the ΔN159ChlH–I–D mutant enzyme complex, suggesting that the binding site or sites for Gun4 on H do not wholly depend on the N-terminal domain., The N-terminal domain of the 148 kDa ChlH is essential for normal activity of the ChlH–I–D magnesium chelatase complex. Deleting this 18 kDa domain retains the hollow cage-like structure and porphyrin binding. Chelatase activity is partially restored by the Gun4 protein.

Published
2014

38. The use and interpretation of anthropometric measures in cancer epidemiology: A perspective from the world cancer research fund international continuous update project

Author

Bandera, Elisa V, Fay, Stephanie H, Giovannucci, Edward, Leitzmann, Michael F, Marklew, Rachel, McTiernan, Anne, Mullee, Amy, Romieu, Isabelle, Thune, Inger, Uauy, Ricardo, Wiseman, Martin J, and World Cancer Research Fund International Continuous Update Proje

Abstract

Anthropometric measures relating to body size, weight and composition are increasingly being associated with cancer risk and progression. Whilst practical in epidemiologic research, where population-level associations with disease are revealed, it is important to be aware that such measures are imperfect markers of the internal physiological processes that are the actual correlates of cancer development. Body mass index (BMI), the most commonly used marker for adiposity, may mask differences between lean and adipose tissue, or fat distribution, which varies across individuals, ethnicities, and stage in the lifespan. Other measures, such as weight gain in adulthood, waist circumference and waist-to-hip ratio, contribute information on adipose tissue distribution and insulin sensitivity. Single anthropometric measures do not capture maturational events, including the presence of critical windows of susceptibility (i.e., age of menarche and menopause), which presents a challenge in epidemiologic work. Integration of experimental research on underlying dynamic genetic, hormonal, and other non-nutritional mechanisms is necessary for a confident conclusion of the overall evidence in cancer development and progression. This article discusses the challenges confronted in evaluating and interpreting the current evidence linking anthropometric factors and cancer risk as a basis for issuing recommendations for cancer prevention.

Published
2016

39. Insights into dynamin-associated disorders through analysis of equivalent mutations in the yeast dynamin Vps1

Author

Moustaq, L., Smaczynska-de Rooij, I.I., Palmer, S.E., Marklew, C.J., and Ayscough, K.R.

Subjects
endocrine system
Abstract

The dynamins represent a superfamily of proteins that have been shown to function in a wide range of membrane fusion and fission events. An increasing number of mutations in the human classical dynamins, Dyn-1 and Dyn-2 has been reported, with diseases caused by these changes ranging from Charcot-Marie-Tooth disorder to epileptic encephalopathies. The budding yeast, Saccharomyces cerevisiae expresses a single dynamin-related protein that functions in membrane trafficking, and is considered to play a similar role to Dyn-1 and Dyn-2 during scission of endocytic vesicles at the plasma membrane. Large parts of the dynamin protein are highly conserved across species and this has enabled us in this study to select a number of disease causing mutations and to generate equivalent mutations in Vps1. We have then studied these mutants using both cellular and biochemical assays to ascertain functions of the protein that have been affected by the changes. Specifically, we demonstrate that the Vps1-G397R mutation (Dyn-2 G358R) disrupts protein oligomerization, Vps1-A447T (Dyn-1 A408T) affects the scission stage of endocytosis, while Vps1-R298L (Dyn-1 R256L) affects lipid binding specificity and possibly an early stage in endocytosis. Overall, we consider that the yeast model will potentially provide an avenue for rapid analysis of new dynamin mutations in order to understand the underlying mechanisms that they disrupt.

Published
2016

40. Phosphorylation Regulates the Endocytic Function of the Yeast Dynamin-Related Protein Vps1

Author

Smaczynska-de Rooij, I.I., Marklew, C.J., Allwood, E.G., Palmer, S.E., Booth, W.I., Mishra, R., Goldberg, M.W., and Ayscough, K.R.

Subjects
macromolecular substances
Abstract

The family of dynamin proteins is known to function in many eukaryotic membrane fusion and fission events. The yeast dynamin-related protein Vps1 functions at several stages of membrane trafficking, including Golgi apparatus to endosome and vacuole, peroxisomal fission, and endocytic scission. We have previously shown that in its endocytic role, Vps1 functions with the amphiphysin heterodimer Rvs161/Rvs167 to facilitate scission and release of vesicles. Phosphoproteome studies of Saccharomyces cerevisiae have identified a phosphorylation site in Vps1 at serine 599. In this study, we confirmed this phosphorylation event, and we reveal that, like Rvs167, Vps1 can be phosphorylated by the yeast cyclin-associated kinase Pho85 in vivo and in vitro. The importance of this posttranslational modification was revealed when mutagenesis of S599 to a phosphomimetic or nonphosphorylatable form caused defects in endocytosis but not in other functions associated with Vps1. Mutation to nonphosphorylatable valine inhibited the Rvs167 interaction, while both S599V and S599D caused defects in vesicle scission, as shown by both live-cell imaging and electron microscopy of endocytic invaginations. Our data support a model in which phosphorylation and dephosphorylation of Vps1 promote distinct interactions and highlight the importance of such regulatory events in facilitating sequential progression of the endocytic process.

Published
2015

41. Mutation of key lysine residues in the Insert B region of the yeast dynamin Vps1 disrupts lipid binding and causes defects in endocytosis.

Author

Smaczynska-de Rooij, Iwona I., Marklew, Christopher J., Palmer, Sarah E., Allwood, Ellen G., and Ayscough, Kathryn R.

Subjects
*ENDOCYTOSIS, *PHOSPHOINOSITIDES, *AMINO acid sequence, *LIPIDS, *MEMBRANE fusion, *YEAST
Abstract

The yeast dynamin-like protein Vps1 has roles at multiple stages of membrane trafficking including Golgi to vacuole transport, endosomal recycling, endocytosis and in peroxisomal fission. While the majority of the Vps1 amino acid sequence shows a high level of identity with the classical mammalian dynamins, it does not contain a pleckstrin homology domain (PH domain). The Dyn1 PH domain has been shown to bind to lipids with a preference for PI(4,5)P2 and it is considered central to the function of Dyn1 in endocytosis. The lack of a PH domain in Vps1 has raised questions as to whether the protein can function directly in membrane fusion or fission events. Here we demonstrate that the region Insert B, located in a position equivalent to the dynamin PH domain, is able to bind directly to lipids and that mutation of three lysine residues reduces its capacity to interact with lipids, and in particular with PI(4,5)P2. The Vps1 KKK-AAA mutant shows more diffuse staining but does still show some localization to compartments adjacent to vacuoles and to endocytic sites suggesting that other factors are also involved in its recruitment. This mutant selectively blocks endocytosis, but is functional in other processes tested. While mutant Vps1 can localise to endocytic sites, the mutation results in a significant increase in the lifetime of the endocytic reporter Sla2 and a high proportion of defective scission events. Together our data indicate that the lipid binding capacity of the Insert B region of Vps1 contributes to the ability of the protein to associate with membranes and that its capacity to interact with PI(4,5)P2 is important in facilitating endocytic scission. [ABSTRACT FROM AUTHOR]

Published
2019
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42. Structural and functional consequences of removing the N-terminal domain from the magnesium chelatase ChlH subunit of Thermosynechococcus elongatus

Author

Adams, N.B.P., Marklew, C.J., Qian, P., Brindley, A.A., Davison, P.A., Bullough, P.A., and Hunter, C.N.

Abstract

Magnesium chelatase (MgCH) initiates chlorophyll biosynthesis by catalysing the ATP-dependent insertion of Mg2+ into protoporphyrin. This large enzyme complex comprises ChlH, I and D subunits, with I and D involved in ATP hydrolysis, and H the protein that handles the substrate and product. The 148 kDa ChlH subunit has a globular N-terminal domain attached by a narrow linker to a hollow cage-like structure. Following deletion of this ~18 kDa domain from the Thermosynechoccus elongatus ChlH, we used single particle reconstruction to show that the apo- and porphyrin-bound forms of the mutant subunit consist of a hollow globular protein with three connected lobes; superposition of the mutant and native ChlH structures shows that, despite the clear absence of the N-terminal ‘head’ region, the rest of the protein appears to be correctly folded. Analyses of dissociation constants shows that the ΔN159ChlH mutant retains the ability to bind protoporphyrin and the Gun4 enhancer protein, although the addition of I and D subunits yields an extremely impaired active enzyme complex. Addition of the Gun4 enhancer protein, which stimulates MgCH activity significantly especially at low Mg2+ concentrations, partially reactivates the ΔN159ChlH–I–D mutant enzyme complex, suggesting that the binding site or sites for Gun4 on H do not wholly depend on the N-terminal domain.

Published
2014

43. Stripper

Author

Murray, Matthew, Marklew, Justine, and Port Magazine

Subjects
NX, N1
Abstract

Photography is about moments, and the Stripper project stems from a completely random moment. Standing in my friend’s flower shop on a normal looking high street, I looked out of the window and watched with curiosity as several bronzed men, wearing very little and with near perfect physiques, were perfecting suggestive dance routines in the adjacent back garden to the shop.It was surreal, surprising, weird and unusual – the only things I’d ever seen in the backyards before were several mechanics having a crafty cigarette or pie as they worked from their commercial garages.

Published
2014

44. Lend me your ears

Author

Marklew, Alex

Subjects
When They Go Low, We Go High: Speeches that Shape the World and Why We Need Them (Nonfiction work) -- Collins, Philip, Books -- Book reviews, General interest, News, opinion and commentary, Political science
Abstract

When They Go Low, We Go High: Speeches that Shape the World and Why We Need Them by Philip Collins 4th Estate, 16.99 [pounds sterling], pp. 432 Complaints about the [...]

Published
2017

47. Using Patient-Reported Outcome Measures (PROMs) to promote quality of care and safety in the management of patients with Advanced Chronic Kidney disease (PRO-trACK project): a mixed-methods project protocol.

Author

Aiyegbusi, Olalekan Lee, Kyte, Derek, Cockwell, Paul, Marshall, Tom, Dutton, Mary, Slade, Anita, Marklew, Neil, Price, Gary, Verdi, Rav, Waters, Judi, Sharpe, Keeley, and Calvert, Melanie

Abstract

Introduction Advanced chronic kidney disease (CKD) has a major effect on the quality of life and health status of patients and requires accurate and responsive management. The use of electronic patient-reported outcome measures (ePROMs) could assist patients with advanced pre-dialysis CKD, and the clinicians responsible for their care, by identifying important changes in symptom burden in real time. We report the protocol for ‘Using Patient-Reported Outcome measures (PROMs) to promote quality of care and safety in the management of patients with Advanced Chronic Kidney Disease’ (PRO-trACK) project, which will explore the feasibility and validity of an ePROM system for use in patients with advanced CKD. Methods and analysis The project will use a mixedmethods approach in three studies: (1) usability testing of the ePROM system involving up to 30 patients and focusing on acceptability and technical performance/ stability; (2) ascertaining the views of patient and clinician stakeholders on the optimal use and administration of the CKD ePROM system—this will involve qualitative faceto- face/telephone interviewing with up to 30 patients or until saturation is achieved, focus groups with up to 15 clinical staff, management and IT team members; (3) psychometric assessment of the system, within a cohort of at least 180 patients with advanced CKD, to establish the measurement properties of the ePROM. Ethics and dissemination This project was approved by the West Midlands Edgbaston Research Ethics Committee (Reference 17/WM/0010) and received Health Research Authority (HRA) approval on 24 February 2017. The findings from this project will be provided to clinicians at the Department of Renal Medicine, Queen Elizabeth Hospitals, Birmingham (QEHB), NHS England, presented at conferences and to the Kidney Patients’ Association, British Kidney Patient Association and the British Renal Society. Articles based on the findings will be written and submitted for publication in peer-reviewed journals. [ABSTRACT FROM AUTHOR]

Published
2017
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48. Phosphorylation Regulates the Endocytic Function of the Yeast Dynamin-Related Protein Vps1.

Author

Smaczynska-de Rooij, Iwona I., Marklew, Christopher J., Allwood, Ellen G., Palmer, Sarah E., Booth, Wesley I., Mishra, Ritu, Goldberg, Martin W., and Ayscough, Kathryn R.

Subjects
*PHOSPHORYLATION, *DYNAMIN (Genetics), *SACCHAROMYCES cerevisiae, *MEMBRANE fusion, *GOLGI apparatus, *ENDOSOMES, *MUTAGENESIS
Abstract

The family of dynamin proteins is known to function in many eukaryotic membrane fusion and fission events. The yeast dynamin-related protein Vps1 functions at several stages of membrane trafficking, including Golgi apparatus to endosome and vacuole, peroxisomal fission, and endocytic scission. We have previously shown that in its endocytic role, Vps1 functions with the amphiphysin heterodimer Rvs161/Rvs167 to facilitate scission and release of vesicles. Phosphoproteome studies of Saccharomyces cerevisiae have identified a phosphorylation site in Vps1 at serine 599. In this study, we confirmed this phosphorylation event, and we reveal that, like Rvs167, Vps1 can be phosphorylated by the yeast cyclin-associated kinase Pho85 in vivo and in vitro. The importance of this posttranslational modification was revealed when mutagenesis of S599 to a phosphomimetic or nonphosphorylatable form caused defects in endocytosis but not in other functions associated with Vps1. Mutation to nonphosphorylatable valine inhibited the Rvs167 interaction, while both S599V and S599D caused defects in vesicle scission, as shown by both live-cell imaging and electron microscopy of endocytic invaginations. Our data support a model in which phosphorylation and dephosphorylation of Vps1 promote distinct interactions and highlight the importance of such regulatory events in facilitating sequential progression of the endocytic process. [ABSTRACT FROM AUTHOR]

Published
2016
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49. Processes weighing in - the next developments

Author

Marklew, Chris and Hodges, Tony

Subjects
Weighing systems, Electronic -- Evaluation -- Product information, Instrument industry -- Product information
Abstract

Will the recent improvements in the field of industrial weighing and formal calibration contine? Advances in electronics and manufacturing technology, specially in recent years, have brought huge improvements in performance […]

Published
1996

50. The future of Northern Irish poetry: Fragility, contingency, value and beauty.

Author

Marklew, Naomi

Subjects
ELEGIAC poetry, POETRY (Literary form), PSYCHOLOGICAL vulnerability, CONTINGENCY (Philosophy)
Abstract

This article explores the work of three contemporary Northern Irish poets, Leontia Flynn, Sinéad Morrissey and Alan Gillis, asking how this work relates to fragility as experienced in Northern Ireland. Is there, within this poetry, a fostering of hope with respect to Northern Ireland's fragile future? Does a new generation of poets look for continuity with the past or does it strike out on a new path? The first part of the article provides a brief introduction to the ‘first-generation peace poets’, and also gives an overview of the ways in which Northern Irish poetry has been criticized in recent decades. It then suggests that this literature might be read through the lens of the elegiac tradition, as well as by exploring the ‘post-theory’ approach of new aestheticism. The second part comprises a series of close readings, with particular emphasis on poems about Belfast, and other poems that deal with themes of loss. [ABSTRACT FROM PUBLISHER]

Published
2014
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