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Sinwar’s death does not make Hamas–Fatah reconciliation more likely, whoever his successor may be

Sinwar’s death does not make Hamas–Fatah reconciliation more likely, whoever his successor may be Expert comment jon.wallace

The killing may aid Hamas recruitment – but it will not make agreement with Fatah any easier to achieve.

Western political leaders were quick to argue that Israel’s killing of Hamas leader Yahya Sinwar on 17 October presented an opportunity for a ceasefire in Gaza and the return of Israeli hostages.

US President Joe Biden immediately called on Israeli prime minister Benjamin Netanyahu to seize the moment to negotiate, now that Israel has achieved one of its war aims.

However, that ‘moment’ has already passed. Israel’s military assault on Gaza has intensified since Sinwar was killed, leading UN Peace Process Co-ordinator Tor Wennesland to say that ‘nowhere is safe in Gaza’. It is abundantly clear Netanyahu is intent on further degrading Hamas, resetting a new ‘power balance’ and carving out a buffer zone, no matter the cost in Palestinian lives or Israeli hostages. 

But there are other implications of Sinwar’s assassination beyond the zero-sum analysis of will there or won’t there be a ceasefire.

Hamas’s ability to fight

At present, everyone has an opinion on how Sinwar’s killing will affect Hamas and its ability to resist and respond to Israel’s military. His death will have been a major blow – symbolically, operationally, and psychologically. Hamas has been downgraded and its capacity to respond compromised.

But it will recover, regenerate and retaliate in time – and Sinwar’s death will have been no surprise to Palestinians in Gaza or elsewhere. Hamas is accustomed to seeing its leaders assassinated. Since its formation in 1987, it has been ‘decapitated’ many times, only to continue with its mission to ‘liberate Palestine’.

Hamas’s portrayal of Sinwar dying in his fatigues, head wrapped in a keffiyeh and resisting until the end will persuade many young Palestinians that he died as a martyr serving the Palestinian cause. Many will be inspired to join and fortify the ranks of Hamas as a result.

The IDF’s release of drone footage showing Sinwar’s last moments will have done nothing to undermine his credibility. 

On the contrary, it will serve as a rallying call to disaffected and disenfranchised young Palestinians horrified by Israel’s bombing of civilian targets in Gaza and disaffected with Fatah’s inability to prevent Israeli settler expansion and violence in the West Bank.

Reconciliation

Some hope that if Sinwar is replaced by a more ‘moderate’ leader, his killing may smooth the path to Hamas–Fatah reconciliation – and that this could provide a foundation for a patchwork political solution when Israel and Gaza arrive at the ‘day after.’  

Prospective new Hamas leaders such as Khaled al Meshaal and Khalil al-Hayya are based in Qatar (and) their ability to influence events on the ground in Gaza will be limited.

But the idea that a downgraded and ‘leaderless’ Hamas will be susceptible to international pressure to reconcile with Fatah is divorced from reality.  

Prospective new Hamas leaders such as Khaled al Meshaal and Khalil al-Hayya are based in Qatar. 

They may be more pliable to external pressure to reconcile with Fatah in search of a political outcome, but their ability to influence events on the ground in Gaza will be limited. That was demonstrated by the Sinwar-orchestrated attacks on 7 October 2023, which took place without the blessing of the exiled leadership in Doha.

Hamas has long gone to ground in Gaza and become far more decentralized than it was before 7 October. It is now more typical of an insurgency, where Hamas cadres exercise a great degree of operational autonomy.

In other words, the disconnect between Hamas in Gaza and its political leadership in Qatar has only grown wider since this round of conflict started.

International efforts

That will undermine international efforts made by Qatar, Egypt, Saudi Arabia, China, Russia and others to bring about a reconciliation. Moscow and Beijing already hosted reconciliation talks in February and April early this year but made no progress in closing the chasm between the two parties. Saudi Arabia has also hosted talks.

The three Arab states, none of which have so far commented publicly on Sinwar’s killing, will likely view his death as an opportunity to bolster the political wing of Hamas – backing it with pledges of political, diplomatic and financial support.

Hamas’s military wing is not about to concede ground and reconcile with Fatah.

Saudi Arabia and Egypt will have next to no influence over the succession process, but Qatar’s long-established relationship with the political wing of Hamas affords it leverage over the organization, albeit limited. They may be able to strengthen the hand of those based in Doha by promising to work harder at securing a ceasefire, guaranteeing the provision of humanitarian relief, and working towards a political solution.




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Members' question time: What has COP29 achieved?

Members' question time: What has COP29 achieved? 25 November 2024 — 1:00PM TO 1:45PM Anonymous (not verified) Online

Join us and ask our senior research fellow, Ruth Townend anything about the outcome from COP29. Submit your questions in advance.

As COP29 prepares to conclude in Baku, Azerbaijan, this year’s conference has taken place against a backdrop of ever worsening climate impacts and escalating financial needs for developing countries. Being hosted by Azerbaijan has been significant, a country whose economy is heavily reliant on fossil fuels. As delegates and officials prepare to leave, the urgency for global climate action intensifies.

Join us as Ruth Townend, our Senior Research Fellow for the Environment and Society Centre to provide the latest insight and analysis from COP. She will give an overview of the key developments from Baku, new global commitments that have been agreed and how this sets up COP 30 in Brazil in 2025.

Submit your questions to Ruth Townend in advance of the event. Your questions will drive the conversation.




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Should Debt in the Developing World be Cancelled?




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Can Investment Prevent Conflict?




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Undercurrents: Episode 27 - Financing for Developing Countries, and Investigative Journalism in West Africa




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Undercurrents: Episode 35 - EU Elections, and Sustainable Development in Colombia




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A Conversation With: Steven T Mnuchin, Secretary, US Treasury




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Lipidomics reveals a remarkable diversity of lipids in human plasma

Oswald Quehenberger
Nov 1, 2010; 51:3299-3305
Research Articles




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Thematic review series: Brain Lipids. Cholesterol metabolism in the central nervous system during early development and in the mature animal

John M. Dietschy
Aug 1, 2004; 45:1375-1397
Thematic Reviews




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Molecular physiology of reverse cholesterol transport

CJ Fielding
Feb 1, 1995; 36:211-228
Reviews




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Sanctions must not prevent humanitarian work in Ukraine

Sanctions must not prevent humanitarian work in Ukraine Expert comment NCapeling 30 May 2022

Restrictions on supply of certain items and financial sanctions can impede vital relief unless adequate safeguards are put in place such as exceptions or general licences.

Sanctions play a major role in the response to Russia’s invasion of Ukraine. The United Nations (UN) has not imposed sanctions, but an important number of states have done so. They have imposed a wide array of restrictions and the number of targeted – or ‘designated’ – persons is unprecedented.

The public has been captivated by the freezing of oligarchs’ assets. There is ongoing discussion about seizing them to provide compensation for war damage. Debate continues about how far to ban oil and gas imports.

One aspect of the sanctions has received far less attention, even though it can exacerbate the effect of the conflict on civilians. Some of the trade restrictions and financial sanctions pose immediate and concrete challenges to the capacity of humanitarian organizations to work in Ukraine and in neighbouring states.

Trade sanctions imposed by the European Union (EU) and UK prohibit the export or supply of certain goods and technology in the transport, telecommunications, energy, and oil or mineral exploration sectors to non-government-controlled areas of the Donetsk or Luhansk oblasts, or for use there.

Experience shows that the due diligence measures adopted by humanitarian organizations do not always allay concerns of risk-averse sectors such as banks

Restricted items include technical equipment which is necessary for humanitarian operations, such as water pumps and refrigerating equipment, but also far more mundane items such as vehicles for transport of persons and goods, and office equipment that are necessary for humanitarian organizations trying to work in the region.

Designations can reduce options for support

Financial sanctions also raise problems. Some are immediately apparent. Significantly for humanitarian operations, the two de facto republics of Donetsk and Luhansk are designated by the EU, the UK, and the US. Consequently, it is prohibited to make funds or assets available to them directly or indirectly.

This prohibition covers the payment of any taxes, licences, and other fees to these authorities, as well as the provision of assets to ministries under their control in the course of humanitarian operations, such as ministries of health and education.

Designations of other entities may also be relevant, such as Russian ‘state enterprises’ which operate in these areas and are the sole providers of commodities necessary for humanitarian response, such as heating fuel.

These are the designations which most obviously impact humanitarian response. However, more than 1,000 persons and entities have been designated and humanitarian organizations must avoid purchasing goods and services from them.

Risk-averse commercial partners

Commercial actors – such as banks, insurers, freight companies and commodity providers – whose services are required by humanitarian organizations must also comply with the sanctions. Experience shows that the due diligence measures adopted by humanitarian organizations do not always allay concerns of risk-averse sectors such as banks.

Fears of violating the sanctions, coupled with the fact humanitarian organizations are rarely profitable clients, have led them to severely restrict the services they provide.

This is not the first occasion the problem has arisen. What is different in relation to Ukraine is the number of designated persons and the ‘sanctions packages’ adopted in quick succession. As compliance officers struggle to keep abreast, their institutions become even more risk-averse.

For UK banks, the situation is exacerbated by the adoption of the Economic Crime (Transparency and Enforcement) Act 2022. This amends existing rules by removing the requirement for the UK Treasury to prove knowledge or reasonable cause to suspect that a transaction violated sanctions, imposing strict liability for sanctions violations.

Time for the UK to follow others

The EU, the US, Switzerland, and other states which have imposed sanctions have sought to mitigate their adverse effects by including safeguards for humanitarian action. Although the UK has largely replicated the measures adopted by the EU in terms of restrictions and designations, it lags behind in including such safeguards.

The UK trade restrictions and financial sanctions do not include exceptions for humanitarian action. While several general licences have been issued, none relate to humanitarian operations.

If the UK is to show it is serious about responding to the immense needs caused by the invasion it must introduce appropriate safeguards in its sanctions

Instead, the UK measures foresee only the possibility of applying for specific licences – from the Treasury in the case of financial sanctions and the Department of International Trade for trade restrictions. But obtaining specific licences is a time-consuming process which is simply not appropriate for emergency response.

If the UK is to show it is serious about responding to the immense needs caused by the invasion it must introduce appropriate safeguards in its sanctions – either in the form of exceptions or general licences.

What matters is they cover all key humanitarian organizations responding to the Ukraine crisis that are subject to UK sanctions – either because they are UK persons or because their funding agreements with the UK government require them to comply with UK measures.

These include UN agencies, funds and programmes, components of the International Red Cross and Red Crescent Movement, and non-governmental organizations (NGOs) responding to the crisis in Ukraine and neighbouring states. The provision must also clearly extend to commercial entities which provide necessary services for humanitarian operations.

Given the UK recently adopted an exception along similar lines in relation to the Afghanistan sanctions, there is a valuable precedent for Ukraine.




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Seven ways Russia’s war on Ukraine has changed the world

Seven ways Russia’s war on Ukraine has changed the world Feature jon.wallace 17 February 2023

Chatham House experts examine the shifts in geopolitical alliances, security, energy, and supply chains and whether these changes are likely to be long-lasting.

President Vladimir Putin’s decision to launch a full-scale re-invasion of Ukraine one year ago was a global shock which ‘marked an abrupt end to 30 years of globalization and all the international co-operation that made that possible’ with serious implications for countries around the world, outlined Chatham House director Bronwen Maddox in her inaugural lecture.

Not only has the war threatened the stability of Europe but it has also impacted food and energy security globally including in the Middle East and Africa, creating shock waves in a world barely recovering from the COVID-19 pandemic.




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FRET and optical trapping reveal mechanisms of actin activation of the power stroke and phosphate release in myosin V [Enzymology]

Myosins generate force and motion by precisely coordinating their mechanical and chemical cycles, but the nature and timing of this coordination remains controversial. We utilized a FRET approach to examine the kinetics of structural changes in the force-generating lever arm in myosin V. We directly compared the FRET results with single-molecule mechanical events examined by optical trapping. We introduced a mutation (S217A) in the conserved switch I region of the active site to examine how myosin couples structural changes in the actin- and nucleotide-binding regions with force generation. Specifically, S217A enhanced the maximum rate of lever arm priming (recovery stroke) while slowing ATP hydrolysis, demonstrating that it uncouples these two steps. We determined that the mutation dramatically slows both actin-induced rotation of the lever arm (power stroke) and phosphate release (≥10-fold), whereas our simulations suggest that the maximum rate of both steps is unchanged by the mutation. Time-resolved FRET revealed that the structure of the pre– and post–power stroke conformations and mole fractions of these conformations were not altered by the mutation. Optical trapping results demonstrated that S217A does not dramatically alter unitary displacements or slow the working stroke rate constant, consistent with the mutation disrupting an actin-induced conformational change prior to the power stroke. We propose that communication between the actin- and nucleotide-binding regions of myosin assures a proper actin-binding interface and active site have formed before producing a power stroke. Variability in this coupling is likely crucial for mediating motor-based functions such as muscle contraction and intracellular transport.





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Minerals and Metals for a Low-Carbon Future: Implications for Developing Countries

Minerals and Metals for a Low-Carbon Future: Implications for Developing Countries 30 October 2017 — 5:00PM TO 8:00PM Anonymous (not verified) 13 October 2017 Chatham House, London

This roundtable will explore two sides of minerals and metals for a low-carbon future - the growing demand for metals required for low-carbon technology and the technological and policy innovations that will be required to manage the carbon footprint of the mining sector and its wider energy and industrial linkages. Based around a presentation and scenarios developed by the World Bank, this roundtable discussion will assess which strategic metals will likely rise in demand in order to deliver a low-carbon future, before exploring the possible implications for resource-rich developing countries. In particular, what does a growing demand of minerals for a clean energy future mean for governments and industry, and how might developing countries benefit from this trend? What impact might growth of the mining sector have on a sustainable and climate-smart development? Can renewable energy and other clean tech innovations in the mining industry help reduce the carbon footprint of the sector and related industries, and under what circumstances? And how fit-for-purpose are current donor approaches to the mining sector in an increasingly carbon-constrained world?

Attendance at this event is by invitation only.




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Realizing the Potential of Extractives for Industrial and Economic Development

Realizing the Potential of Extractives for Industrial and Economic Development 18 October 2018 — 5:30PM TO 7:00PM Anonymous (not verified) 3 October 2018 Chatham House | 10 St James's Square | London | SW1Y 4LE

Over the past two decades, the extractives industries have risen in importance for many low- and middle- income countries their prospects for economic development and poverty reduction. During a period of rising commodities prices, the development of extractives became increasingly attractive to both governments and companies. There was - and remains - much discussion about their potential to support inclusive development.

However, there are also risks and uncertainties associated with the extractives industries and many things can, and do, go wrong. Fluctuations in commodity prices can be hard to manage and can lead to considerable fiscal pressures. In the longer-term, climate change and the various policy responses to this, will profoundly affect the extractives sector as renewables replace fossil fuels in the global energy mix.

Managing the extractives sectors will therefore remain highly challenging especially in low-income countries where institutions are often weak. This roundtable will bring together some of the foremost academics and practitioners working in the extractives industries and also in economic development to discuss a major new UNU-WIDER study Extractive Industries: The Management of Resources as a Driver of Sustainable Development.

Attendance at this event is by invitation only.




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Explicit calculations for Sono’s multidimensional sieve of ????₂-numbers

Daniel A. Goldston, Apoorva Panidapu and Jordan Schettler
Math. Comp. 93 (), 2943-2958.
Abstract, references and article information





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Natural Resources & Economic Development - 11/14/2024

Time: 10:00 AM, Location: E1.012 (Hearing Room)




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Recent Developments in Fractal Geometry and Dynamical Systems

Sangita Jha, Mrinal Kanti Roychowdhury and Saurabh Verma, editors. American Mathematical Society, 2024, CONM, volume 797, approx. 268 pp. ISBN: 978-1-4704-7216-0 (print), 978-1-4704-7610-6 (online).

This volume contains the proceedings of the virtual AMS Special Session on Fractal Geometry and Dynamical Systems, held from May 14–15,...




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Even singular integral operators that are well behaved on a purely unrectifiable set

Benjamin Jaye and Manasa N. Vempati
Proc. Amer. Math. Soc. 152 (), 5105-5116.
Abstract, references and article information




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I'm a Neurologist, and This Is This Is the One 'Healthy' Breakfast I'll Never, Ever Eat




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The Nightly Habit Cardiologists Are Begging You to Never, Ever Do




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Here are 5 signs you’re financially healthy in America even if you don't feel like it — how many do you show?




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China reveals reusable cargo shuttle design for Tiangong space station (video)




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Development of a novel mammalian display system for selection of antibodies against membrane proteins [Immunology]

Reliable, specific polyclonal and monoclonal antibodies are important tools in research and medicine. However, the discovery of antibodies against their targets in their native forms is difficult. Here, we present a novel method for discovery of antibodies against membrane proteins in their native configuration in mammalian cells. The method involves the co-expression of an antibody library in a population of mammalian cells that express the target polypeptide within a natural membrane environment on the cell surface. Cells that secrete a single-chain fragment variable (scFv) that binds to the target membrane protein thereby become self-labeled, enabling enrichment and isolation by magnetic sorting and FRET-based flow sorting. Library sizes of up to 109 variants can be screened, thus allowing campaigns of naïve scFv libraries to be selected against membrane protein antigens in a Chinese hamster ovary cell system. We validate this method by screening a synthetic naïve human scFv library against Chinese hamster ovary cells expressing the oncogenic target epithelial cell adhesion molecule and identify a panel of three novel binders to this membrane protein, one with a dissociation constant (KD) as low as 0.8 nm. We further demonstrate that the identified antibodies have utility for killing epithelial cell adhesion molecule–positive cells when used as a targeting domain on chimeric antigen receptor T cells. Thus, we provide a new tool for identifying novel antibodies that act against membrane proteins, which could catalyze the discovery of new candidates for antibody-based therapies.




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Quantitative phosphoproteomic analysis reveals involvement of PD-1 in multiple T cell functions [Signal Transduction]

Programmed cell death protein 1 (PD-1) is a critical inhibitory receptor that limits excessive T cell responses. Cancer cells have evolved to evade these immunoregulatory mechanisms by upregulating PD-1 ligands and preventing T cell–mediated anti-tumor responses. Consequently, therapeutic blockade of PD-1 enhances T cell–mediated anti-tumor immunity, but many patients do not respond and a significant proportion develop inflammatory toxicities. To improve anti-cancer therapy, it is critical to reveal the mechanisms by which PD-1 regulates T cell responses. We performed global quantitative phosphoproteomic interrogation of PD-1 signaling in T cells. By complementing our analysis with functional validation assays, we show that PD-1 targets tyrosine phosphosites that mediate proximal T cell receptor signaling, cytoskeletal organization, and immune synapse formation. PD-1 ligation also led to differential phosphorylation of serine and threonine sites within proteins regulating T cell activation, gene expression, and protein translation. In silico predictions revealed that kinase/substrate relationships engaged downstream of PD-1 ligation. These insights uncover the phosphoproteomic landscape of PD-1–triggered pathways and reveal novel PD-1 substrates that modulate diverse T cell functions and may serve as future therapeutic targets. These data are a useful resource in the design of future PD-1–targeting therapeutic approaches.




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Carnosine synthase deficiency is compatible with normal skeletal muscle and olfactory function but causes reduced olfactory sensitivity in aging mice [Developmental Biology]

Carnosine (β-alanyl-l-histidine) and anserine (β-alanyl-3-methyl-l-histidine) are abundant peptides in the nervous system and skeletal muscle of many vertebrates. Many in vitro and in vivo studies demonstrated that exogenously added carnosine can improve muscle contraction, has antioxidant activity, and can quench various reactive aldehydes. Some of these functions likely contribute to the proposed anti-aging activity of carnosine. However, the physiological role of carnosine and related histidine-containing dipeptides (HCDs) is not clear. In this study, we generated a mouse line deficient in carnosine synthase (Carns1). HCDs were undetectable in the primary olfactory system and skeletal muscle of Carns1-deficient mice. Skeletal muscle contraction in these mice, however, was unaltered, and there was no evidence for reduced pH-buffering capacity in the skeletal muscle. Olfactory tests did not reveal any deterioration in 8-month-old mice lacking carnosine. In contrast, aging (18–24-month-old) Carns1-deficient mice exhibited olfactory sensitivity impairments that correlated with an age-dependent reduction in the number of olfactory receptor neurons. Whereas we found no evidence for elevated levels of lipoxidation and glycation end products in the primary olfactory system, protein carbonylation was increased in the olfactory bulb of aged Carns1-deficient mice. Taken together, these results suggest that carnosine in the olfactory system is not essential for information processing in the olfactory signaling pathway but does have a role in the long-term protection of olfactory receptor neurons, possibly through its antioxidant activity.




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ARID4B is critical for mouse embryonic stem cell differentiation towards mesoderm and endoderm, linking epigenetics to pluripotency exit [Developmental Biology]

Distinct cell types emerge from embryonic stem cells through a precise and coordinated execution of gene expression programs during lineage commitment. This is established by the action of lineage specific transcription factors along with chromatin complexes. Numerous studies have focused on epigenetic factors that affect embryonic stem cells (ESC) self-renewal and pluripotency. However, the contribution of chromatin to lineage decisions at the exit from pluripotency has not been as extensively studied. Using a pooled epigenetic shRNA screen strategy, we identified chromatin-related factors critical for differentiation toward mesodermal and endodermal lineages. Here we reveal a critical role for the chromatin protein, ARID4B. Arid4b-deficient mESCs are similar to WT mESCs in the expression of pluripotency factors and their self-renewal. However, ARID4B loss results in defects in up-regulation of the meso/endodermal gene expression program. It was previously shown that Arid4b resides in a complex with SIN3A and HDACS 1 and 2. We identified a physical and functional interaction of ARID4B with HDAC1 rather than HDAC2, suggesting functionally distinct Sin3a subcomplexes might regulate cell fate decisions Finally, we observed that ARID4B deficiency leads to increased H3K27me3 and a reduced H3K27Ac level in key developmental gene loci, whereas a subset of genomic regions gain H3K27Ac marks. Our results demonstrate that epigenetic control through ARID4B plays a key role in the execution of lineage-specific gene expression programs at pluripotency exit.




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Importance of endothelial Hey1 expression for thoracic great vessel development and its distal enhancer for Notch-dependent endothelial transcription [Gene Regulation]

Thoracic great vessels such as the aorta and subclavian arteries are formed through dynamic remodeling of embryonic pharyngeal arch arteries (PAAs). Previous work has shown that loss of a basic helix-loop-helix transcription factor Hey1 in mice causes abnormal fourth PAA development and lethal great vessel anomalies resembling congenital malformations in humans. However, how Hey1 mediates vascular formation remains unclear. In this study, we revealed that Hey1 in vascular endothelial cells, but not in smooth muscle cells, played essential roles for PAA development and great vessel morphogenesis in mouse embryos. Tek-Cre–mediated Hey1 deletion in endothelial cells affected endothelial tube formation and smooth muscle differentiation in embryonic fourth PAAs and resulted in interruption of the aortic arch and other great vessel malformations. Cell specificity and signal responsiveness of Hey1 expression were controlled through multiple cis-regulatory regions. We found two distal genomic regions that had enhancer activity in endothelial cells and in the pharyngeal epithelium and somites, respectively. The novel endothelial enhancer was conserved across species and was specific to large-caliber arteries. Its transcriptional activity was regulated by Notch signaling in vitro and in vivo, but not by ALK1 signaling and other transcription factors implicated in endothelial cell specificity. The distal endothelial enhancer was not essential for basal Hey1 expression in mouse embryos but may likely serve for Notch-dependent transcriptional control in endothelial cells together with the proximal regulatory region. These findings help in understanding the significance and regulation of endothelial Hey1 as a mediator of multiple signaling pathways in embryonic vascular formation.




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Peptidoglycan analysis reveals that synergistic deacetylase activity in vegetative Clostridium difficile impacts the host response [Glycobiology and Extracellular Matrices]

Clostridium difficile is an anaerobic and spore-forming bacterium responsible for 15–25% of postantibiotic diarrhea and 95% of pseudomembranous colitis. Peptidoglycan is a crucial element of the bacterial cell wall that is exposed to the host, making it an important target for the innate immune system. The C. difficile peptidoglycan is largely N-deacetylated on its glucosamine (93% of muropeptides) through the activity of enzymes known as N-deacetylases, and this N-deacetylation modulates host–pathogen interactions, such as resistance to the bacteriolytic activity of lysozyme, virulence, and host innate immune responses. C. difficile genome analysis showed that 12 genes potentially encode N-deacetylases; however, which of these N-deacetylases are involved in peptidoglycan N-deacetylation remains unknown. Here, we report the enzymes responsible for peptidoglycan N-deacetylation and their respective regulation. Through peptidoglycan analysis of several mutants, we found that the N-deacetylases PdaV and PgdA act in synergy. Together they are responsible for the high level of peptidoglycan N-deacetylation in C. difficile and the consequent resistance to lysozyme. We also characterized a third enzyme, PgdB, as a glucosamine N-deacetylase. However, its impact on N-deacetylation and lysozyme resistance is limited, and its physiological role remains to be dissected. Finally, given the influence of peptidoglycan N-deacetylation on host defense against pathogens, we investigated the virulence and colonization ability of the mutants. Unlike what has been shown in other pathogenic bacteria, a lack of N-deacetylation in C. difficile is not linked to a decrease in virulence.




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Polydisperse molecular architecture of connexin 26/30 heteromeric hemichannels revealed by atomic force microscopy imaging [Protein Structure and Folding]

Connexin (Cx) protein forms hemichannels and gap junctional channels, which play diverse and profound roles in human physiology and diseases. Gap junctions are arrays of intercellular channels formed by the docking of two hemichannels from adjacent cells. Each hexameric hemichannel contains the same or different Cx isoform. Although homomeric Cxs forms have been largely described functionally and structurally, the stoichiometry and arrangement of heteromeric Cx channels remain unknown. The latter, however, are widely expressed in human tissues and variation might have important implications on channel function. Investigating properties of heteromeric Cx channels is challenging considering the high number of potential subunit arrangements and stoichiometries, even when only combining two Cx isoforms. To tackle this problem, we engineered an HA tag onto Cx26 or Cx30 subunits and imaged hemichannels that were liganded by Fab-epitope antibody fragments via atomic force microscopy. For Cx26-HA/Cx30 or Cx30-HA/Cx26 heteromeric channels, the Fab-HA binding distribution was binomial with a maximum of three Fab-HA bound. Furthermore, imaged Cx26/Cx30-HA triple liganded by Fab-HA showed multiple arrangements that can be derived from the law of total probabilities. Atomic force microscopy imaging of ringlike structures of Cx26/Cx30-HA hemichannels confirmed these findings and also detected a polydisperse distribution of stoichiometries. Our results indicate a dominant subunit stoichiometry of 3Cx26:3Cx30 with the most abundant subunit arrangement of Cx26-Cx26-Cx30-Cx26-Cx30-Cx30. To our knowledge, this is the first time that the molecular architecture of heteromeric Cx channels has been revealed, thus providing the basis to explore the functional effect of these channels in biology.




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A structural and kinetic survey of GH5_4 endoglucanases reveals determinants of broad substrate specificity and opportunities for biomass hydrolysis [Protein Structure and Folding]

Broad-specificity glycoside hydrolases (GHs) contribute to plant biomass hydrolysis by degrading a diverse range of polysaccharides, making them useful catalysts for renewable energy and biocommodity production. Discovery of new GHs with improved kinetic parameters or more tolerant substrate-binding sites could increase the efficiency of renewable bioenergy production even further. GH5 has over 50 subfamilies exhibiting selectivities for reaction with β-(1,4)–linked oligo- and polysaccharides. Among these, subfamily 4 (GH5_4) contains numerous broad-selectivity endoglucanases that hydrolyze cellulose, xyloglucan, and mixed-linkage glucans. We previously surveyed the whole subfamily and found over 100 new broad-specificity endoglucanases, although the structural origins of broad specificity remained unclear. A mechanistic understanding of GH5_4 substrate specificity would help inform the best protein design strategies and the most appropriate industrial application of broad-specificity endoglucanases. Here we report structures of 10 new GH5_4 enzymes from cellulolytic microbes and characterize their substrate selectivity using normalized reducing sugar assays and MS. We found that GH5_4 enzymes have the highest catalytic efficiency for hydrolysis of xyloglucan, glucomannan, and soluble β-glucans, with opportunistic secondary reactions on cellulose, mannan, and xylan. The positions of key aromatic residues determine the overall reaction rate and breadth of substrate tolerance, and they contribute to differences in oligosaccharide cleavage patterns. Our new composite model identifies several critical structural features that confer broad specificity and may be readily engineered into existing industrial enzymes. We demonstrate that GH5_4 endoglucanases can have broad specificity without sacrificing high activity, making them a valuable addition to the biomass deconstruction toolset.




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Snapshots during the catalytic cycle of a histidine acid phytase reveal an induced-fit structural mechanism [Protein Structure and Folding]

Highly engineered phytases, which sequentially hydrolyze the hexakisphosphate ester of inositol known as phytic acid, are routinely added to the feeds of monogastric animals to improve phosphate bioavailability. New phytases are sought as starting points to further optimize the rate and extent of dephosphorylation of phytate in the animal digestive tract. Multiple inositol polyphosphate phosphatases (MINPPs) are clade 2 histidine phosphatases (HP2P) able to carry out the stepwise hydrolysis of phytate. MINPPs are not restricted by a strong positional specificity making them attractive targets for development as feed enzymes. Here, we describe the characterization of a MINPP from the Gram-positive bacterium Bifidobacterium longum (BlMINPP). BlMINPP has a typical HP2P-fold but, unusually, possesses a large α-domain polypeptide insertion relative to other MINPPs. This insertion, termed the U-loop, spans the active site and contributes to substrate specificity pockets underpopulated in other HP2Ps. Mutagenesis of U-loop residues reveals its contribution to enzyme kinetics and thermostability. Moreover, four crystal structures of the protein along the catalytic cycle capture, for the first time in an HP2P, a large ligand-driven α-domain motion essential to allow substrate access to the active site. This motion recruits residues both downstream of a molecular hinge and on the U-loop to participate in specificity subsites, and mutagenesis identified a mobile lysine residue as a key determinant of positional specificity of the enzyme. Taken together, these data provide important new insights to the factors determining stability, substrate recognition, and the structural mechanism of hydrolysis in this industrially important group of enzymes.




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Bacterial iron detoxification at the molecular level [Protein Structure and Folding]

Iron is an essential micronutrient, and, in the case of bacteria, its availability is commonly a growth-limiting factor. However, correct functioning of cells requires that the labile pool of chelatable “free” iron be tightly regulated. Correct metalation of proteins requiring iron as a cofactor demands that such a readily accessible source of iron exist, but overaccumulation results in an oxidative burden that, if unchecked, would lead to cell death. The toxicity of iron stems from its potential to catalyze formation of reactive oxygen species that, in addition to causing damage to biological molecules, can also lead to the formation of reactive nitrogen species. To avoid iron-mediated oxidative stress, bacteria utilize iron-dependent global regulators to sense the iron status of the cell and regulate the expression of proteins involved in the acquisition, storage, and efflux of iron accordingly. Here, we survey the current understanding of the structure and mechanism of the important members of each of these classes of protein. Diversity in the details of iron homeostasis mechanisms reflect the differing nutritional stresses resulting from the wide variety of ecological niches that bacteria inhabit. However, in this review, we seek to highlight the similarities of iron homeostasis between different bacteria, while acknowledging important variations. In this way, we hope to illustrate how bacteria have evolved common approaches to overcome the dual problems of the insolubility and potential toxicity of iron.




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Hydrogen/deuterium exchange memory NMR reveals structural epitopes involved in IgE cross-reactivity of allergenic lipid transfer proteins [Protein Structure and Folding]

Identification of antibody-binding epitopes is crucial to understand immunological mechanisms. It is of particular interest for allergenic proteins with high cross-reactivity as observed in the lipid transfer protein (LTP) syndrome, which is characterized by severe allergic reactions. Art v 3, a pollen LTP from mugwort, is frequently involved in this cross-reactivity, but no antibody-binding epitopes have been determined so far. To reveal human IgE-binding regions of Art v 3, we produced three murine high-affinity mAbs, which showed 70–90% coverage of the allergenic epitopes from mugwort pollen–allergic patients. As reliable methods to determine structural epitopes with tightly interacting intact antibodies under native conditions are lacking, we developed a straightforward NMR approach termed hydrogen/deuterium exchange memory (HDXMEM). It relies on the slow exchange between the invisible antigen-mAb complex and the free 15N-labeled antigen whose 1H-15N correlations are detected. Due to a memory effect, changes of NH protection during antibody binding are measured. Differences in H/D exchange rates and analyses of mAb reactivity to homologous LTPs revealed three structural epitopes: two partially cross-reactive regions around α-helices 2 and 4 as well as a novel Art v 3–specific epitope at the C terminus. Protein variants with exchanged epitope residues confirmed the antibody-binding sites and revealed strongly reduced IgE reactivity. Using the novel HDXMEM for NMR epitope mapping allowed identification of the first structural epitopes of an allergenic pollen LTP. This knowledge enables improved cross-reactivity prediction for patients suffering from LTP allergy and facilitates design of therapeutics.




eve

Determinants of replication protein A subunit interactions revealed using a phosphomimetic peptide [Molecular Biophysics]

Replication protein A (RPA) is a eukaryotic ssDNA-binding protein and contains three subunits: RPA70, RPA32, and RPA14. Phosphorylation of the N-terminal region of the RPA32 subunit plays an essential role in DNA metabolism in processes such as replication and damage response. Phosphorylated RPA32 (pRPA32) binds to RPA70 and possibly regulates the transient RPA70-Bloom syndrome helicase (BLM) interaction to inhibit DNA resection. However, the structural details and determinants of the phosphorylated RPA32–RPA70 interaction are still unknown. In this study, we provide molecular details of the interaction between RPA70 and a mimic of phosphorylated RPA32 (pmRPA32) using fluorescence polarization and NMR analysis. We show that the N-terminal domain of RPA70 (RPA70N) specifically participates in pmRPA32 binding, whereas the unphosphorylated RPA32 does not bind to RPA70N. Our NMR data revealed that RPA70N binds pmRPA32 using a basic cleft region. We also show that at least 6 negatively charged residues of pmRPA32 are required for RPA70N binding. By introducing alanine mutations into hydrophobic positions of pmRPA32, we found potential points of contact between RPA70N and the N-terminal half of pmRPA32. We used this information to guide docking simulations that suggest the orientation of pmRPA32 in complex with RPA70N. Our study demonstrates detailed features of the domain-domain interaction between RPA70 and RPA32 upon phosphorylation. This result provides insight into how phosphorylation tunes transient bindings between RPA and its partners in DNA resection.




eve

MMP activation-associated aminopeptidase N reveals a bivalent 14-3-3 binding motif [Protein Structure and Folding]

Aminopeptidase N (APN, CD13) is a transmembrane ectopeptidase involved in many crucial cellular functions. Besides its role as a peptidase, APN also mediates signal transduction and is involved in the activation of matrix metalloproteinases (MMPs). MMPs function in tissue remodeling within the extracellular space and are therefore involved in many human diseases, such as fibrosis, rheumatoid arthritis, tumor angiogenesis, and metastasis, as well as viral infections. However, the exact mechanism that leads to APN-driven MMP activation is unclear. It was previously shown that extracellular 14-3-3 adapter proteins bind to APN and thereby induce the transcription of MMPs. As a first step, we sought to identify potential 14-3-3–binding sites in the APN sequence. We constructed a set of phosphorylated peptides derived from APN to probe for interactions. We identified and characterized a canonical 14-3-3–binding site (site 1) within the flexible, structurally unresolved N-terminal APN region using direct binding fluorescence polarization assays and thermodynamic analysis. In addition, we identified a secondary, noncanonical binding site (site 2), which enhances the binding affinity in combination with site 1 by many orders of magnitude. Finally, we solved crystal structures of 14-3-3σ bound to mono- and bis-phosphorylated APN-derived peptides, which revealed atomic details of the binding mode of mono- and bivalent 14-3-3 interactions. Therefore, our findings shed some light on the first steps of APN-mediated MMP activation and open the field for further investigation of this important signaling pathway.




eve

Humanin selectively prevents the activation of pro-apoptotic protein BID by sequestering it into fibers [Protein Structure and Folding]

Members of the B-cell lymphoma (BCL-2) protein family regulate mitochondrial outer membrane permeabilization (MOMP), a phenomenon in which mitochondria become porous and release death-propagating complexes during the early stages of apoptosis. Pro-apoptotic BCL-2 proteins oligomerize at the mitochondrial outer membrane during MOMP, inducing pore formation. Of current interest are endogenous factors that can inhibit pro-apoptotic BCL-2 mitochondrial outer membrane translocation and oligomerization. A mitochondrial-derived peptide, Humanin (HN), was reported being expressed from an alternate ORF in the mitochondrial genome and inhibiting apoptosis through interactions with the pro-apoptotic BCL-2 proteins. Specifically, it is known to complex with BAX and BID. We recently reported the fibrillation of HN and BAX into β-sheets. Here, we detail the fibrillation between HN and BID. These fibers were characterized using several spectroscopic techniques, protease fragmentation with mass analysis, and EM. Enhanced fibrillation rates were detected with rising temperatures or pH values and the presence of a detergent. BID fibers are similar to those produced using BAX; however, the structures differ in final conformations of the BCL-2 proteins. BID fibers display both types of secondary structure in the fiber, whereas BAX was converted entirely to β-sheets. The data show that two distinct segments of BID are incorporated into the fiber structure, whereas other portions of BID remain solvent-exposed and retain helical structure. Similar analyses show that anti-apoptotic BCL-xL does not form fibers with humanin. These results support a general mechanism of sequestration of pro-apoptotic BCL-2 proteins into fibers by HN to inhibit MOMP.




eve

A combinatorial native MS and LC-MS/MS approach reveals high intrinsic phosphorylation of human Tau but minimal levels of other key modifications [Neurobiology]

Abnormal changes of neuronal Tau protein, such as phosphorylation and aggregation, are considered hallmarks of cognitive deficits in Alzheimer's disease. Abnormal phosphorylation is thought to precede aggregation and therefore to promote aggregation, but the nature and extent of phosphorylation remain ill-defined. Tau contains ∼85 potential phosphorylation sites, which can be phosphorylated by various kinases because the unfolded structure of Tau makes them accessible. However, methodological limitations (e.g. in MS of phosphopeptides, or antibodies against phosphoepitopes) led to conflicting results regarding the extent of Tau phosphorylation in cells. Here we present results from a new approach based on native MS of intact Tau expressed in eukaryotic cells (Sf9). The extent of phosphorylation is heterogeneous, up to ∼20 phosphates per molecule distributed over 51 sites. The medium phosphorylated fraction Pm showed overall occupancies of ∼8 Pi (± 5) with a bell-shaped distribution; the highly phosphorylated fraction Ph had 14 Pi (± 6). The distribution of sites was highly asymmetric (with 71% of all P-sites in the C-terminal half of Tau). All sites were on Ser or Thr residues, but none were on Tyr. Other known posttranslational modifications were near or below our detection limit (e.g. acetylation, ubiquitination). These findings suggest that normal cellular Tau shows a remarkably high extent of phosphorylation, whereas other modifications are nearly absent. This implies that abnormal phosphorylations at certain sites may not affect the extent of phosphorylation significantly and do not represent hyperphosphorylation. By implication, the pathological aggregation of Tau is not likely a consequence of high phosphorylation.




eve

Role of phospholipid synthesis in the development and differentiation of malaria parasites in the blood [Microbiology]

The life cycle of malaria parasites in both their mammalian host and mosquito vector consists of multiple developmental stages that ensure proper replication and progeny survival. The transition between these stages is fueled by nutrients scavenged from the host and fed into specialized metabolic pathways of the parasite. One such pathway is used by Plasmodium falciparum, which causes the most severe form of human malaria, to synthesize its major phospholipids, phosphatidylcholine, phosphatidylethanolamine, and phosphatidylserine. Much is known about the enzymes involved in the synthesis of these phospholipids, and recent advances in genetic engineering, single-cell RNA-Seq analyses, and drug screening have provided new perspectives on the importance of some of these enzymes in parasite development and sexual differentiation and have identified targets for the development of new antimalarial drugs. This Minireview focuses on two phospholipid biosynthesis enzymes of P. falciparum that catalyze phosphoethanolamine transmethylation (PfPMT) and phosphatidylserine decarboxylation (PfPSD) during the blood stages of the parasite. We also discuss our current understanding of the biochemical, structural, and biological functions of these enzymes and highlight efforts to use them as antimalarial drug targets.




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Flaring in MENA: The Multibillion Dollar Decarbonization Lever

15 July 2020

Adel Hamaizia

Associate Fellow, Middle East and North Africa Programme

Dr Mark Davis

CEO, Capterio
The climate crisis and ‘energy transition’ is driving a response from the oil and gas industry to decarbonize, with flaring – the deliberate combustion of gas associated with oil production – as a critical lever, especially in the Middle East and North Africa, write Adel Hamaizia and Mark Davis.

2020-07-15-Flare-Oil-Iraq

Iraqi Southern Oil Company engineers look towards the flares in the Zubair oil field in southern Iraq. Photo by ESSAM -AL-SUDANI/AFP via Getty Images.

Flaring is a significant source of economic and environmental waste. Except when safety-related, flared gas can often be captured and monetised using low-cost proven solutions.

In doing so, governments can improve health and safety, reduce emissions (of carbon dioxide, methane, and particulates) and add value by driving up revenue, increasing reserves and production, creating jobs and improving the industry’s ‘social license to operate’.

Flare capture also helps countries to deliver on the Paris Agreement and the UN’s Sustainable Development Goal #13 while, for example, providing affordable alternatives for heating and cooking.

The Middle East and North Africa (MENA) region accounts for 40% of the world’s flaring. In the region, flaring has increased year-on-year - apart from 2018 - to almost six billion cubic feet of gas per day, generating up to 300-500 million tonnes of CO2-equivalent emissions per year.

These emissions result not only from the combustion of gas, but also from the venting, from inefficient flares, of un-combusted methane, a more potent greenhouse gas. Yet much of this is avoidable.

There are many commercially attractive options to reduce flaring in MENA. The key is to use the right proven technology and to be agile in commercial structuring. And the prize could be a boost to MENA’s annual revenues by up to $200 per second (up to $6.4 billion per year) by delivering wasted gas to market by pipeline, as power or in liquid form.

The chart highlights the abundance of flaring across the MENA region, and in many cases, their proximity to population centres. While Iran, Iraq, and Algeria generate 75% of MENA’s flaring, Saudi Arabia, Kuwait, UAE and Qatar are notable for their relatively low ‘flaring intensity’ i.e. flaring normalized to oil production.

In today’s world of lower energy prices, it makes sense to monetise every molecule. Even more so for national oil companies, which are responsible for most of the flaring, since they are not only the custodians of their countries’ natural resources, but they also generate a dominant source of government revenue.

Most oil producers in MENA have already made commitments to the World Bank’s flaring-reduction initiatives (e.g. ‘Zero Routine Flaring by 2030’), but to date, delivery is mostly lacking. Three main issues have hindered progress.

Firstly, operators, regulators, and governments highlight that flaring is often not ‘sufficiently on the radar’. Flaring is often underreported if not ignored or denied - although satellite detection gives unavoidable transparency. In MENA alone, more than 1,700 flare clusters are visible every day from space.

Secondly, flare capture is sometimes not perceived to be economically viable due to costs, taxes, or inappropriate technology. Thirdly, there are often issues around resources, especially concerning management bandwidth, delivery capabilities or financing.

Yet these issues can be solved if the right proven technologies are combined with the right commercial structures. To accelerate flare capture projects, stakeholders in the MENA hydrocarbons sector must consider several complementary, action-oriented initiatives.

In particular, they should:

  • Promote transparency and disclosure to drive greater awareness of flaring. Governments, regulators and operators must understand the real scale of their gas flaring opportunity and be capable of acting, as a recent report for the EBRD on Egypt highlighted. Compliance with clear standards for measuring, monitoring and verification is critical.
  • Advance policies and incentives which encourage action. Better commercial terms will incentivise and accelerate flare investments. Stronger penalties will help, but independent and capable regulators must actually enforce these penalties. Through the use of such clear anti-flaring policies, Norway’s flaring intensity is almost 20 times lower than the MENA region.
  • Improve the investment climate, beyond economics and open access to a broader range of players. Local market failures can be avoided by reducing the complexity and cost of in-country operations and by removing excessive, rigid, or redundant regulations. By enabling greater ‘third-party’ access to gas and power projects and infrastructure, new players can accelerate change by deploying new technologies and new operating models. Better third-party access will also unlock ideas, capital, skills and project-specific financing options. Algeria is making steps towards such liberalisation through its new 2019 Hydrocarbon Law.
  • Reduce subsidies and improve energy efficiency and reduce demand, increase gas exports and boost national revenues. Countries with large subsidies on transport fuels and power, such as Algeria and Iraq, stand to gain the most.
  • Encourage collaboration between stakeholders in industry and government by creating working groups to radiate best practices, build capacity, deploy technology and local content, such as the flare minimization programme in Saudi Arabia or Iraq’s major flare-to-power project operated by the Basrah Gas Company.

The industry needs to prepare for a greener world after COVID-19 and investors and consumers are demanding cleaner fuels. Since gas is widely viewed as a transition fuel, MENA governments and stakeholders must work to eliminate its wastage and seize the revenue, production and environmental opportunities that flare capture projects offer.

There is much new leadership in the region in government and critical institutions with new mandates for change. The time to act is now.




eve

Seven Ways the West Can Help Belarus

10 September 2020

Ryhor Astapenia

Robert Bosch Stiftung Academy Fellow, Russia and Eurasia Programme
Outlining the key steps that government, international institutions, and NGOs can take to bring an end to the suffering of the Belarus people.

2020-09-10-Belarus-Protest-Lukashenka

Opposition supporters hold white-red-white flags at a Minsk protest in support of Belarusian opposition activist Maria Kolesnikova. Photo by Natalia FedosenkoTASS via Getty Images.

1. Acknowledge the new reality

A huge number of Belarusians across all levels of society simply no longer recognize Lukashenka as their legitimate president. The unprecedented size and persistence of protests against his regime and the sheer scale of reports of repressive actions, torture, and even murder, mean Belarus will never be the same again.

However, current paralysis in EU policy and the absence of a comprehensive US policy are both serving as a de facto licence for Lukashenka to deepen the political crisis. The sooner policymakers realize this and act with more responsibility and confidence, the quicker the increasing repression can be reversed.

2. Do not recognize Lukashenka as president

If the international community stops recognizing Lukashenka as president, it makes him more toxic to others, including Russia and China, both of which will be reluctant to waste resources on someone who is seen as the main cause of Belarusian instability. Even if Russia still decides to save Lukashenka and financially support him, ignoring Lukashenka decreases the legitimacy of any agreements he signs with the Kremlin on collaboration or integration.

Demanding a re-run of the presidential election should also remain firmly on the agenda as functionaries within Lukashenka's system should know this international pressure is not going away until a truly transparent vote takes place.

3. Be present on the ground

In order to curb repression and establish ties with actors within Belarus, a monitoring group should be organized under the auspices of the UN, the OSCE or other international organizations to establish a presence on the ground, and to stay in the country as long as it is needed, and is possible. Governments and parliaments can send their own missions, while staff from international media and NGOs should be encouraged to report on what is actually happening inside the country.

The bigger the visible presence of the international community is in Belarus, the less brutal Lukashenka’s agencies can be in persecuting protestors, which in turn would then allow more substantial negotiations to take place between the democratic movement and Lukashenka.

4. Announce a package of economic support for a democratic Belarus

The Belarusian economy was already in bad shape before the election, but the situation is going to get much worse. The only way out is support from the international community with a ‘Marshall Plan for a democratic Belarus’. States and international financial institutions should declare they will provide significant financial assistance through grants or low-interest loans, but only if there is democratic change first.

It is essential to make this economic package conditional on democratic reform, but also that it will have no geopolitical strings attached. If a democratically-elected government decides it wants to improve relations with Russia, it should still be able to count on an assistance package.

This would send a strong signal to economic reformers who remain inside Lukashenka's system, giving them a genuine choice between a functioning Belarusian economy or sticking with Lukashenka, whose leadership is seen by many as to be responsible for ruining the country’s economy.

5. Introduce targeted political and economic sanctions

The Lukashenka regime deserves tough sanctions internationally, but so far only selective visa restrictions or account freezes have been imposed, which have little to no effect on what is actually happening on the ground. Visa sanction lists need to be expanded but, more importantly, there should be increased economic pressure on the regime. Companies which are the most important to Lukashenka's business interests should be identified and targeted with sanctions, all their trading activity halted, and all their accounts abroad frozen.

Governments should also persuade their own country’s large companies to reconsider working with Belarusian producers. It is shameful that international corporations continue to advertise in media controlled by Lukashenka and appear to be ignoring the reports of human rights violations at Belarusian companies they do business with.

Moreover, there should be a deadline set to halt all repression, or broader economic sanctions will be imposed. This would send a strong message to Lukashenka and also his entourage, many of whom would then become more convinced he has to go.

6. Support NGOs to investigate allegations of torture

There are few legal mechanisms to prosecute those thought to be involved in election fraud and acts of brutality. Nevertheless, all reports of torture and falsifications should be properly documented by human rights defenders, including identifying those alleged to have taken part. Gathering evidence now prepares the ground for investigations, targeted sanctions, and leverage on law enforcement officials in the future.

But, given that such an investigation is not possible in Belarus right now, international human rights activists should be enabled to start the process outside the country with support from Belarusian NGOs.

7. Support known victims of the regime

Even with an unprecedented campaign of solidarity among Belarusians, many people need support, especially those alleged to have suffered torture. Some media outlets claim to have lost a significant amount of revenue because advertisers were forced to pull out, and journalists arrested. Human rights defenders need funds to keep organizations running in the heat of this crackdown.

Supporting all these people and organizations will cost tens of millions of euros, but it would significantly ease the huge financial burden facing those who have opposed the regime.




eve

A new vision for African agency in sustainable development

A new vision for African agency in sustainable development Expert comment LJefferson 18 October 2022

Change is necessary not only in global economic structures and attitudes – but in African governance too.

The conventional notion that Africa is mostly a consumer of norms and practices designed by the Global North has been repeatedly challenged and is increasingly being debunked. Increased African agency in international affairs is today a well-established and documented reality. But Africa’s influence still does not match the scale of the challenges that it faces on its pathway to sustainable development. 

Pushing for African agency in sustainable development also warrants a critical assessment of how ‘sustainable development’ should be defined, and how it can be achieved in terms of actual poverty reduction and real improvement in the lives of local poor Africans. Sustainable development has been a political catchphrase for over 30 years – but a genuine transition towards sustainability has yet to begin.

African agency today

Historically, there have been structural limitations on the agency of African stakeholders to shape development pathways. Chief among them, donor-recipient power dynamics have persistently promoted dependency and sustained institutional corruption. Many African countries are also challenged by economic incentives and infrastructure that have favoured the market demands and supply chains of former colonial powers, which largely remain reliant on natural resource extraction, and are marked by limited investment in value-addition activities and technology development.

Donor-recipient power dynamics have persistently promoted dependency and sustained institutional corruption.

Today, however, African agency is being exerted in a more assertive fashion. The African Union (AU), individual African states, civil society, the private sector and eminent and ordinary persons are all displaying Africa’s agency in steering global sustainable development priorities, namely by proposing their own development agenda, The African Union Agenda 2063, adopted in 2013. This was followed by the UN Sustainable Development Goals (Agenda 2030), which in many ways mirror Agenda 2063 – a clear demonstration of the influence of Africa in the global arena. 

Agenda 2063 is a strategic roadmap for Africa ‘to build an integrated, prosperous and peaceful Africa, driven and managed by its own citizens and development goals representing a dynamic force in the international arena’. Prepared following a broad-based participatory consultation, it advocates for inclusion and empowerment and provides an excellent vision for African countries and African people. The SDGs address several of the key shortcomings of their predecessor – the MDGs – and incorporate a broader and more transformative agenda that more adequately reflects the complex challenges of the 21st century and the need for structural reforms in the global economy and governance norms.

In international forums on sustainable development, African countries are increasingly using their collective voice to change the discourse on how development can and should be done. For instance, by championing innovative solutions for carbon markets, African policy leaders are enabling access to climate finance for development while preserving Africa’s natural wealth.

In the post-COVID era, championing investments in and leadership of Africa’s global health architecture demonstrates a desire that in the next pandemic, Africa CDC, AMA and continental manufacturers will play leading roles in determining Africa’s public health strategy and implementation.

In trade, building on the groundwork led by the regional economic commissions, the AfCFTA will catalyse and scale regional integration, trade and cooperation, leading to promising new modes of supply chain and self-sufficiency.

Encouraging signs, but persistent shortcomings

Encouraging signs that African agency is gaining momentum cannot disguise the fact that Africa has yet to move from rhetoric to implementation in the realm of sustainable development. Continental visions often fail to go beyond declarations of intent, and have only limited influence on governance systems or national structural transformation, and African states remain vulnerable to economic shocks emanating from the global system.

African agency should not be only seen as emanating from government, but also as being exerted by independent civil society organizations and committed ordinary individuals.

Change will require governance systems that are coordinated, transparent, efficient, and inclusive, as well as tools, processes, and means (material, technical, and human) for successful implementation. There is an urgent need for a new governance paradigm in Africa and internationally, dealing with long-term social change.

Notably, African agency should not be only seen as emanating from government, but also as being exerted by independent civil society organizations and committed ordinary individuals. Effective agency needs to be multi-faceted and multi-actor, and depends on the inclusiveness of African governments and their willingness to work with civil society in their strategic engagements with external partners.

Both Agenda 2063 and the SDGs hold the potential for transformation, but implementation will depend on continued advocacy to hold authorities to account and change the dominant discourse, logic and rules of engagement at global, regional, national, and local levels. There is a need for a dynamic new model of African ‘development’.

Time for a new vision

Africa’s economic landscape is changing rapidly, with new regional and local value chains, and integrated regional economic corridors to link countries, minimize the burden of high-cost production and logistics, and boost real incomes and international competitiveness. But Africa continues to face structural challenges, including the need for large investment projects – at a time when Africa remains a net exporter of capital.

Donors and development partners must reflect upon their prior modes of engagement and commit to genuine and equitable relationships with African states. Such partnerships must reflect mutual respect of ideas and accountability, and commit to making space in international forums and multi-lateral arrangements for African people and countries to realize their own visions for progress.

More resources should be channelled to actors engaging closest to communities and people, who can better understand and communicate local needs.

But African leaders and actors must also recognize that with the advent of resources and agency comes responsibility for results and outcomes, notably the need to improve governance. Gaps in accountability, widespread corruption, and lack of successful implementation and sustainability of projects must be addressed.




eve

Global lysine acetylation and 2-hydroxyisobutyrylation reveal the metabolism conversion mechanism in Giardia lamblia

Wenhe Zhu
Dec 29, 2020; 0:RA120.002353v1-mcp.RA120.002353
Research




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Novel Proteomic Profiling of Epididymal Extracellular Vesicles in the Domestic Cat Reveals Proteins Related to Sequential Sperm Maturation with Differences Observed between Normospermic and Teratospermic Individuals

Tricia Rowlison
Dec 1, 2020; 19:2090-2103
Research




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Separation and identification of permethylated glycan isomers by reversed phase nanoLC-NSI-MS

Simone Kurz
Dec 29, 2020; 0:RA120.002266v1-mcp.RA120.002266
Research




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A Mouse Brain-based Multi-omics Integrative Approach Reveals Potential Blood Biomarkers for Ischemic Stroke

Alba Simats
Dec 1, 2020; 19:1921-1935
Research




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Proteome-wide Analysis Reveals Substrates of E3 Ligase RNF146 Targeted for Degradation

Litong Nie
Dec 1, 2020; 19:2015-2029
Research




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Systematic identification of P. falciparum sporozoite membrane protein interactions reveals an essential role for the p24 complex in host infection

Julia Knöckel
Dec 22, 2020; 0:RA120.002432v1-mcp.RA120.002432
Research