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Undercurrents: Episode 46 - Understanding Decolonization, and China’s Response to Coronavirus
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Undercurrents: Episode 50 - The Coronavirus Communications Crisis, and Justice in Myanmar
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Undercurrents: Episode 52 - Defining Pandemics, and Mikheil Saakashvili's Ukrainian Comeback
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Quantitative Profiling of the Human Substantia Nigra Proteome from Laser-capture Microdissected FFPE Tissue [Research]
Laser-capture microdissection (LCM) allows the visualization and isolation of morphologically distinct subpopulations of cells from heterogeneous tissue specimens. In combination with formalin-fixed and paraffin-embedded (FFPE) tissue it provides a powerful tool for retrospective and clinically relevant studies of tissue proteins in a healthy and diseased context. We first optimized the protocol for efficient LCM analysis of FFPE tissue specimens. The use of SDS containing extraction buffer in combination with the single-pot solid-phase-enhanced sample preparation (SP3) digest method gave the best results regarding protein yield and protein/peptide identifications. Microdissected FFPE human substantia nigra tissue samples (~3,000 cells) were then analyzed, using tandem mass tag (TMT) labeling and LC-MS/MS, resulting in the quantification of >5,600 protein groups. Nigral proteins were classified and analyzed by abundance, showing an enrichment of extracellular exosome and neuron-specific gene ontology (GO) terms among the higher abundance proteins. Comparison of microdissected samples with intact tissue sections, using a label-free shotgun approach, revealed an enrichment of neuronal cell type markers, such as tyrosine hydroxylase and alpha-synuclein, as well as proteins annotated with neuron-specific GO terms. Overall, this study provides a detailed protocol for laser-capture proteomics using FFPE tissue and demonstrates the efficiency of LCM analysis of distinct cell subpopulations for proteomic analysis using low sample amounts.
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X-ray structures of catalytic intermediates of cytochrome c oxidase provide insights into its O2 activation and unidirectional proton-pump mechanisms [Molecular Biophysics]
Cytochrome c oxidase (CcO) reduces O2 to water, coupled with a proton-pumping process. The structure of the O2-reduction site of CcO contains two reducing equivalents, Fea32+ and CuB1+, and suggests that a peroxide-bound state (Fea33+–O−–O−–CuB2+) rather than an O2-bound state (Fea32+–O2) is the initial catalytic intermediate. Unexpectedly, however, resonance Raman spectroscopy results have shown that the initial intermediate is Fea32+–O2, whereas Fea33+–O−–O−–CuB2+ is undetectable. Based on X-ray structures of static noncatalytic CcO forms and mutation analyses for bovine CcO, a proton-pumping mechanism has been proposed. It involves a proton-conducting pathway (the H-pathway) comprising a tandem hydrogen-bond network and a water channel located between the N- and P-side surfaces. However, a system for unidirectional proton-transport has not been experimentally identified. Here, an essentially identical X-ray structure for the two catalytic intermediates (P and F) of bovine CcO was determined at 1.8 Å resolution. A 1.70 Å Fe–O distance of the ferryl center could best be described as Fea34+ = O2−, not as Fea34+–OH−. The distance suggests an ∼800-cm−1 Raman stretching band. We found an interstitial water molecule that could trigger a rapid proton-coupled electron transfer from tyrosine-OH to the slowly forming Fea33+–O−–O−–CuB2+ state, preventing its detection, consistent with the unexpected Raman results. The H-pathway structures of both intermediates indicated that during proton-pumping from the hydrogen-bond network to the P-side, a transmembrane helix closes the water channel connecting the N-side with the hydrogen-bond network, facilitating unidirectional proton-pumping during the P-to-F transition.
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Quantification of the affinities of CRISPR-Cas9 nucleases for cognate protospacer adȷacent motif (PAM) sequences [Molecular Biophysics]
The CRISPR/Cas9 nucleases have been widely applied for genome editing in various organisms. Cas9 nucleases complexed with a guide RNA (Cas9–gRNA) find their targets by scanning and interrogating the genomic DNA for sequences complementary to the gRNA. Recognition of the DNA target sequence requires a short protospacer adjacent motif (PAM) located outside this sequence. Given that the efficiency of target location may depend on the strength of interactions that promote target recognition, here we sought to compare affinities of different Cas9 nucleases for their cognate PAM sequences. To this end, we measured affinities of Cas9 nucleases from Streptococcus pyogenes, Staphylococcus aureus, and Francisella novicida complexed with guide RNAs (gRNAs) (SpCas9–gRNA, SaCas9–gRNA, and FnCas9–gRNA, respectively) and of three engineered SpCas9–gRNA variants with altered PAM specificities for short, PAM-containing DNA probes. We used a “beacon” assay that measures the relative affinities of DNA probes by determining their ability to competitively affect the rate of Cas9–gRNA binding to fluorescently labeled target DNA derivatives called “Cas9 beacons.” We observed significant differences in the affinities for cognate PAM sequences among the studied Cas9 enzymes. The relative affinities of SpCas9–gRNA and its engineered variants for canonical and suboptimal PAMs correlated with previous findings on the efficiency of these PAM sequences in genome editing. These findings suggest that high affinity of a Cas9 nuclease for its cognate PAM promotes higher genome-editing efficiency.
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A neuroglobin-based high-affinity ligand trap reverses carbon monoxide-induced mitochondrial poisoning [Molecular Biophysics]
Carbon monoxide (CO) remains the most common cause of human poisoning. The consequences of CO poisoning include cardiac dysfunction, brain injury, and death. CO causes toxicity by binding to hemoglobin and by inhibiting mitochondrial cytochrome c oxidase (CcO), thereby decreasing oxygen delivery and inhibiting oxidative phosphorylation. We have recently developed a CO antidote based on human neuroglobin (Ngb-H64Q-CCC). This molecule enhances clearance of CO from red blood cells in vitro and in vivo. Herein, we tested whether Ngb-H64Q-CCC can also scavenge CO from CcO and attenuate CO-induced inhibition of mitochondrial respiration. Heart tissue from mice exposed to 3% CO exhibited a 42 ± 19% reduction in tissue respiration rate and a 33 ± 38% reduction in CcO activity compared with unexposed mice. Intravenous infusion of Ngb-H64Q-CCC restored respiration rates to that of control mice correlating with higher electron transport chain CcO activity in Ngb-H64Q-CCC–treated compared with PBS-treated, CO-poisoned mice. Further, using a Clark-type oxygen electrode, we measured isolated rat liver mitochondrial respiration in the presence and absence of saturating solutions of CO (160 μm) and nitric oxide (100 μm). Both CO and NO inhibited respiration, and treatment with Ngb-H64Q-CCC (100 and 50 μm, respectively) significantly reversed this inhibition. These results suggest that Ngb-H64Q-CCC mitigates CO toxicity by scavenging CO from carboxyhemoglobin, improving systemic oxygen delivery and reversing the inhibitory effects of CO on mitochondria. We conclude that Ngb-H64Q-CCC or other CO scavengers demonstrate potential as antidotes that reverse the clinical and molecular effects of CO poisoning.
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Breaking the Habit: Why Major Oil Companies Are Not ‘Paris-Aligned’
Invitation Only Research Event
23 October 2019 - 8:30am to 10:00am
Chatham House | 10 St James's Square | London | SW1Y 4LE
Event participants
Andrew Grant, Carbon Tracker Initiative
Chair: Siân Bradley, Research Fellow, Energy, Environment and Resources, Chatham House
The investment community is increasingly seeking to assess the alignment of their portfolios with the Paris Agreement. In a recent update to their Two Degrees of Separation report, Carbon Tracker assessed the capital expenditure of listed oil and gas producers against ‘well below’ 2C targets, and for the first time, against short-term actions at the project level.
The speaker will present the key findings of the report and will argue that every oil major is betting heavily against a low-carbon world by investing in projects that are contrary to the Paris goals.
This roundtable discussion will further explore the report findings and consider what investors, regulators and oil and gas companies can do to encourage alignment with the Paris Agreement ahead of 2020.
Attendance at this event is by invitation only.
Event attributes
Chatham House RuleDepartment/project
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Climate Change, Energy Transition, and the Extractive Industries Transparency Initiative (EITI)
Invitation Only Research Event
17 January 2020 - 9:30am to 5:00pm
Chatham House | 10 St James's Square | London | SW1Y 4LE
Climate change and energy transition are re-shaping the extractive sectors, and the opportunities and risks they present for governments, companies and civil society. As the central governance standard in the extractives sector, the EITI has a critical role in supporting transparency in producer countries.
This workshop will bring together experts from the energy and extractives sectors, governance and transparency, and climate risk and financial disclosure initiatives to discuss the role of governance and transparency through the transition. It will consider the appropriate role for the EITI and potential entry points for policy and practice, and the potential for coordination with related transparency and disclosure initiatives.
Please note attendance is by invitation only.
Department/project
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Maintaining Connections: How Might the UK Remain Engaged in the EU's Climate and Energy Strategies?
Invitation Only Research Event
3 March 2020 - 10:30am to 12:00pm
Chatham House | 10 St James's Square | London | SW1Y 4LE
As the UK leaves the EU and the formal negotiations on the future relationship begins, this workshop will discuss any immediate changes and review the short and medium term impacts of Brexit on the energy sector.
The workshop will look to cover:
- The implications for UK business and system operations of the UK leaving the Internal Energy Market.
- Current and future investment trends in the UK energy system.
- The trade of electricity and gas over inter-connectors.
- The need for the development of a new EU-UK operational framework mechanism.
- The UK's EU withdrawal agreement and the operation of the Single Electricity Market (SEM) across Ireland.
- Options for the UK outside of the EU Emissions Trading System (ETS) and the impact on carbon prices.
This workshop is part of a programme funded by the UK Energy Research Centre on Brexit and the UK’s Net Zero Energy Policy being run by the University of Warwick and Chatham House.
Attendance at this event is by invitation only.
Event attributes
Chatham House RuleDepartment/project
Chloé Prendleloup
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The prospects of carbon dioxide removal in climate policymaking within the United States
Research Event
19 November 2019 - 9:00am to 5:00pm
School of Law, University of California, Davis
This meeting formed part of a programme of work which investigates the role of negative emissions technologies (NETs) in achieving the Paris Agreement climate targets. Previous meetings held in London and Brussels have looked at integrating negative emissions into EU policy-making, the implications and degree to which NETs, and in particular bioenergy with carbon capture storage (BECCS), can be an effective climate mitigation tool. This meeting focused on the possible deployment pathways of NETs and alternatives to BECCS for the US in particular, in the context of geographical constraints and socioenvironmental implications, the role of the private sector, and appropriate governance and finance mechanisms.
Department/project
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Webinar: The Opportunity of Crisis? Transitioning to a Sustainable Global Economy
Corporate Members Event Webinar
22 April 2020 - 1:00pm to 1:45pm
Event participants
Professor Tim Benton, Research Director, Emerging Risks and Director, Energy, Environment and Resources Programme, Chatham House
Creon Butler, Research Director, Trade, Investment & New Governance Models; Director, Global Economy and Finance Programme, Chatham House
Elsa Palanza, Managing Director, Global Head of Sustainability and ESG, Barclays
Chair: Laura Wellesley, Research Fellow, Energy, Environment and Resources Programme, Chatham House
With the Asian Development Bank estimating that the COVID-19 outbreak’s global cost could reach $4.1 trillion and the OECD warning that the shock caused by the pandemic is already greater than the financial crisis of 2007, the global economic impact of the health emergency is not only vast but also unpredictable. The disruption to a number of industries and sectors including, but not limited to, the airline and energy industries, could result in long-term damage to global trade flows, supply and demand. But does the pandemic also present an opportunity to build sustainable economies that can cope with such threats?
This panel will explore the ways in which the coronavirus outbreak has highlighted vulnerabilities in global systems and what this might mean for a transition towards a sustainable economy. How do we explain the failure of businesses and governments to prepare for systemic shocks and the lack of resilience in global structures and models? How should governments prepare to reshape policy, business practices and societal behaviour to better tackle climate change while addressing the current emergency? And might the emergency offer opportunities to kick start a sustainable path towards a greener future?
This event is part of a fortnightly series of 'Business in Focus' webinars reflecting on the impact of COVID-19 on areas of particular professional interest for our corporate members and giving circles.
Not a corporate member? Find out more.
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Closing the Global Access Gap in Palliative Care and Pain Relief: A Top Priority in Achieving Universal Health Coverage
Invitation Only Research Event
17 July 2019 - 12:30pm to 5:00pm
Chatham House | 10 St James's Square | London | SW1Y 4LE
Event participants
Dr Tedros Adhanom Ghebreyesus, Director-General, World Health Organization
The Lancet Commission on Palliative Care and Pain Relief estimated that in 2015, 61 million people experienced serious health-related suffering (SHS) that could have been ameliorated by palliative care. A large proportion of this burden – more than 80 per cent – fell on low- and middle-income countries (LMICs) despite an essential package of palliative care and pain relief services being cost-effective and affordable. As the director general of the World Health Organization (WHO) argues, there cannot be UHC without palliative care and thus, closing this coverage gap should be a top priority for the global UHC movement.
The Centre on Global Health Security at Chatham House, building on the momentum of the Lancet Commission, is hosting a roundtable focused on the global unmet need for palliative care and effective pain relief. The primary purpose of this roundtable is to convene leading experts, palliative care service users and advocates with key figures from the UHC movement and global health to highlight the importance of prioritizing this vital part of the continuum of care in UHC reform processes. The roundtable will serve as a scholarly discourse in translating the recommendations of the Lancet Commission into concrete actions, focusing on the political and economic dimensions.
Department/project
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Strengthening National Accountability and Preparedness for Global Health Security (SNAP-GHS)
The project aims to identify the enablers and barriers to enhance data use by National Public Health Institutes (NPHIs), producing outputs that will facilitate strengthening of the role of NPHIs in monitoring potential public health threats, and in shaping and informing domestic policies on health security and preparedness.
Global health security is underpinned by the actions taken at a national level to ensure capacities exist to sufficiently prepare for and respond to acute threats and crises. In many contexts, National Public Health Institutes (NPHIs) were first established because of, and in response to, specific public health challenges typically related to infectious diseases.
The Strengthening National Accountability and Preparedness for Global Health Security (SNAP-GHS) project evolved from a series of roundtables and discussions hosted by the Centre on Global Health Security at Chatham House, in collaboration with the Graduate Institute of Geneva.
The outcome of the project is a SNAP-GHS Toolkit to support NPHIs in better diagnosing and understanding the challenges to data use within their own institutes, as well as in relation to external stakeholders and agencies. The toolkit is intended to be used for further circulation and dissemination by the International Association of National Public Health Institutes (IANPHI).
The project is led by the Centre on Global Health Security at Chatham House in collaboration with the Ethiopian Public Health Institute, the Nigeria Centre for Disease Control, and the National Institute for Health in Pakistan.
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New Coronavirus Outbreak: Concern Is Warranted, Panic Is Not
23 January 2020
Whenever there is a new infection in humans, such as the novel coronavirus, it is appropriate to be concerned because we do not know enough about its potential.Explainer: Coronavirus - What You Need to Know
World-renowned global health expert Professor David Heymann CBE explains the key facts and work being done on the Coronavirus outbreak.
When it comes to emerging infectious diseases – those newly recognized in humans or in new locations – it is not only what we know that matters but also what we do not know.
An outbreak of a new coronavirus first reported in Wuhan, China, which has so far led to more than 500 confirmed cases and multiple deaths across five countries (and two continents) has prompted the question from several corners of the world: Should we be worried?
Although expert teams coordinated by the World Health Organization (WHO) are working on key questions to get answers as soon as possible, the level of uncertainty is still high.
We do not yet know exactly how deadly the disease is, how best to treat those who get sick, precisely how it is spreading, nor how stable the virus is. It is thought that the virus spread from an animal source, but the exact source is yet to be confirmed and the disease is now in human populations and appears to be spreading from human to human.
It is such uncertainty, inherent in emerging infectious disease outbreaks, that warrants concern. Until they are resolved, it is appropriate for the world to be concerned. It is useful to remember that most established scourges of humanity such as HIV, influenza and tuberculosis likely started as emerging infectious diseases that jumped the species barrier from animals to humans.
Shortly after the Chinese authorities reported the first cases of ‘mystery pneumonia’ in Wuhan, China, to WHO, the virus causing the disease was isolated and identified as being part of the coronavirus family. It belongs to the same virus family as SARS, a highly contagious and life-threatening coronavirus that caused a nine-month epidemic in 2003 that affected 26 countries and resulted in more than 8,000 infections and nearly 800 deaths.
A second novel coronavirus that emerged in 2012 and persists today – MERS, or Middle East Respiratory Syndrome – is less contagious (spread by close contact rather than coughing and sneezing).
The differences between the SARS coronavirus and the MERS coronavirus highlight that, despite belonging to the same virus family, pathogens do not necessarily behave in the same way. It is as yet unknown whether the new virus is, or will turn out to be, more like SARS or MERS, or neither.
Chinese authorities have confirmed that there is human-to-human transmission. However, it is not yet established whether it is sustained, which would make the outbreak more difficult to control. As of 23 January, the number of cases range from 500 confirmed cases up to an estimated 1,700 cases, according to a disease outbreak model by Imperial College London.
Likewise, we do not know to what extent the virus is able to mutate and if so, how rapidly. Generally, coronaviruses are known to be able to mutate, with the risk that a less contagious form of the virus becomes highly contagious. This could have an impact not only on the transmission pattern and rate but also the death rate. The virus could change in either direction, to become either more or less of a threat.
It is important to take a precautionary approach while uncertainty persists. It is also important not to overreact and for measures to be scientifically sound. Concern over this outbreak is due, but panic is not.
Three virtual networks of experts supporting the response – one of virologists, one of epidemiologists and one of clinicians – are working on the key pieces of the jigsaw puzzle: watching the virus, watching the transmission patterns, and watching the people who have been infected. It is crucial to maintain the ongoing investigation of the disease, stay focused on the science and to keep sharing the necessary information.
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Nina van der Mark
Research Analyst, Global Health Programme
Biography
Nina works on universal health coverage (UHC) and health system reforms. Her research is primarily focused on the political economy of UHC and accelerating health system reforms in low-and-middle income countries.
Previously, Nina worked as an international development professional, focused on health financing and advocacy in the fields of sexual and reproductive health and rights, youth participation and maternal and child health. Nina has experience working in Ethiopia and Nigeria. She has also worked for the private sector as a healthcare technology research consultant for Southeast Asia.
She has a broad-based interest in global health, including the influence of demographic changes on population health outcomes, innovative health financing mechanisms and improving research uptake into health policy.
She has a multidisciplinary background and holds a Msc in Population and Development at The London School of Economics (LSE) and a BA in Liberal Arts and Sciences, focused on international relations, international law and China studies at University College Utrecht.
+44 (0) 20 7314 3646
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A novel GPER antagonist protects against the formation of estrogen-induced cholesterol gallstones in female mice [Research Articles]
Many clinical studies and epidemiological investigations have clearly demonstrated that women are twice as likely to develop cholesterol gallstones as men, and oral contraceptives and other estrogen therapies dramatically increase that risk. Further, animal studies have revealed that estrogen promotes cholesterol gallstone formation through the estrogen receptor (ER) α, but not ERβ, pathway. More importantly, some genetic and pathophysiological studies have found that G protein-coupled estrogen receptor (GPER) 1 is a new gallstone gene, Lith18, on chromosome 5 in mice and produces additional lithogenic actions, working independently of ERα, to markedly increase cholelithogenesis in female mice. Based on computational modeling of GPER, a novel series of GPER-selective antagonists were designed, synthesized, and subsequently assessed for their therapeutic effects via calcium mobilization, cAMP, and ERα and ERβ fluorescence polarization binding assays. From this series of compounds, one new compound, 2-cyclohexyl-4-isopropyl-N-(4-methoxybenzyl)aniline (CIMBA), exhibits superior antagonism and selectivity exclusively for GPER. Furthermore, CIMBA reduces the formation of 17β-estradiol-induced gallstones in a dose-dependent manner in ovariectomized mice fed a lithogenic diet for 8 weeks. At 32 μg/day/kg CIMBA, no gallstones are found, even in ovariectomized ERα (–/–) mice treated with 6 μg/day 17β-estradiol and fed the lithogenic diet for 8 weeks. In conclusion, CIMBA treatment protects against the formation of estrogen-induced cholesterol gallstones by inhibiting the GPER signaling pathway in female mice. CIMBA may thus be a new agent for effectively treating cholesterol gallstone disease in women.
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The grease trap: uncovering the mechanism of the hydrophobic lid in Cutibacterium acnes lipase [Research Articles]
Acne is one of the most common dermatological conditions, but the details of its pathology are unclear, and current management regimens often have adverse effects. Cutibacterium acnes is known as a major acne-associated bacterium that derives energy from lipase-mediated sebum lipid degradation. C. acnes is commensal, but lipase activity has been observed to differ among C. acnes types. For example, higher populations of the type IA strains are present in acne lesions with higher lipase activity. In the present study, we examined a conserved lipase in types IB and II that was truncated in type IA C. acnes strains. Closed, blocked, and open structures of C. acnes ATCC11828 lipases were elucidated by X-ray crystallography at 1.6–2.4 Å. The closed crystal structure, which is the most common form in aqueous solution, revealed that a hydrophobic lid domain shields the active site. By comparing closed, blocked, and open structures, we found that the lid domain-opening mechanisms of C. acnes lipases (CAlipases) involve the lid-opening residues, Phe-179 and Phe-211. To the best of our knowledge, this is the first structure-function study of CAlipases, which may help to shed light on the mechanisms involved in acne development and may aid in future drug design.
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It’s unlikely Latin America is at risk of an Iranian proxy attack. However . . .
Source
The Miami HeraldRelease date
10 January 2020Expert
Dr Christopher SabatiniIn the news type
Op-ed
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Why is the U.S. joining Venezuela and Nicaragua in discrediting a system to protect human rights?
Source
The Washington PostRelease date
17 January 2020Expert
Dr Christopher SabatiniIn the news type
Op-ed
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Nato Leaders’ Summit 2019: Treaty organisation faces deep divisions at 70
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Competing visions of Europe are threatening to tear the union apart
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Coronavirus: Why are we catching more diseases from animals?
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Iran shot down a Ukrainian plane. How did Ukraine respond?
Source
The Washington PostRelease date
17 January 2020Expert
Orysia LutsevychIn the news type
Op-ed
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Is COVID-19 an opportunity for more equitable health systems in the Middle East?
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X-ray structures of catalytic intermediates of cytochrome c oxidase provide insights into its O2 activation and unidirectional proton-pump mechanisms [Molecular Biophysics]
Cytochrome c oxidase (CcO) reduces O2 to water, coupled with a proton-pumping process. The structure of the O2-reduction site of CcO contains two reducing equivalents, Fea32+ and CuB1+, and suggests that a peroxide-bound state (Fea33+–O−–O−–CuB2+) rather than an O2-bound state (Fea32+–O2) is the initial catalytic intermediate. Unexpectedly, however, resonance Raman spectroscopy results have shown that the initial intermediate is Fea32+–O2, whereas Fea33+–O−–O−–CuB2+ is undetectable. Based on X-ray structures of static noncatalytic CcO forms and mutation analyses for bovine CcO, a proton-pumping mechanism has been proposed. It involves a proton-conducting pathway (the H-pathway) comprising a tandem hydrogen-bond network and a water channel located between the N- and P-side surfaces. However, a system for unidirectional proton-transport has not been experimentally identified. Here, an essentially identical X-ray structure for the two catalytic intermediates (P and F) of bovine CcO was determined at 1.8 Å resolution. A 1.70 Å Fe–O distance of the ferryl center could best be described as Fea34+ = O2−, not as Fea34+–OH−. The distance suggests an ∼800-cm−1 Raman stretching band. We found an interstitial water molecule that could trigger a rapid proton-coupled electron transfer from tyrosine-OH to the slowly forming Fea33+–O−–O−–CuB2+ state, preventing its detection, consistent with the unexpected Raman results. The H-pathway structures of both intermediates indicated that during proton-pumping from the hydrogen-bond network to the P-side, a transmembrane helix closes the water channel connecting the N-side with the hydrogen-bond network, facilitating unidirectional proton-pumping during the P-to-F transition.
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Unified approach to critical-contrast homogenisation with explicit links to time-dispersive media
K. D. Cherednichenko, Yu. Yu. Ershova, A. V. Kiselev and S. N. Naboko
Trans. Moscow Math. Soc. 80 (2020), 251-294.
Abstract, references and article information
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The finiteness of the spectrum of boundary value problems defined on a geometric graph
V. A. Sadovnichii, Ya. T. Sultanaev and A. M. Akhtyamov
Trans. Moscow Math. Soc. 80 (2020), 123-131.
Abstract, references and article information
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Weakly homoclinic groups of ergodic actions
V. V. Ryzhikov
Trans. Moscow Math. Soc. 80 (2020), 83-94.
Abstract, references and article information