<![CDATA[Newsroom University of 野狼社区]]> /about/news/ en Sun, 29 Dec 2024 01:36:58 +0100 Thu, 11 Jul 2024 11:08:54 +0200 <![CDATA[Newsroom University of 野狼社区]]> https://content.presspage.com/clients/150_1369.jpg /about/news/ 144 University of 野狼社区 helps secure 拢34 million for transformative UK life sciences data project /about/news/university-of-manchester-helps-secure-34-million-for-transformative-uk-life-sciences-data-project/ /about/news/university-of-manchester-helps-secure-34-million-for-transformative-uk-life-sciences-data-project/651876Academics at The University of 野狼社区 have been at the forefront of securing a transformative project set to revolutionise UK life sciences research.

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Academics at The University of 野狼社区 have been at the forefront of securing a transformative project set to revolutionise UK life sciences research.

Today, UK Research and Innovation (UKRI), has announced 拢34 million investment in a ground-breaking project, BioFAIR, which aims to overhaul research data management across the nation.

The project, initially proposed by the ELIXIR-UK community, which is co-led by Professor Carole Goble from the University of 野狼社区, aims to establish a cohesive, UK-wide digital research infrastructure that bridges current gaps between researchers, digital research technical professionals, existing institutional digital research infrastructures, and the funder-community partnership.

It will deliver a step change in the UK鈥檚 capability to translate existing and future life science data assets into world leading research in response to some of society鈥檚 most pressing challenges.

ELIXIR-UK is the UK Node of ELIXIR, a European project to integrate life sciences data across the continent with the aim of facilitating the linking of data worldwide. Professor Goble has been co-leading on the business case and investment activity for the project in partnership with the Earlham Institute and UKRI over the last six years and has played an instrumental role in securing the award for the UK. She is also leading the architecture requirements development of the BioFAIR Commons.

BioFAIR will be a catalyst for innovation and discovery and over its five-year life span will:

  • accelerate the adoption of findable, accessible, interoperable and reusable (FAIR) data principles across the UK life sciences, making it more useful and valuable to researchers than ever before
  • unify the UK鈥檚 currently fragmented digital research landscape, fostering unprecedented opportunities for collaboration and coordination among the national life sciences community
  • break down barriers to democratise data accessibility, giving UK researchers the resources and autonomy needed for innovation and discovery to flourish
  • coordinate and deliver extensive training and support for practitioners at all levels, building critical workforce capacity and securing the UK鈥檚 position as a global leader in life sciences

Fundamental to the BioFAIR concept are its four key capabilities. Each will be assembled from existing data tools and services developed and deployed by the UK and international life science research communities.

Collectively, the four capabilities signify an important ethos of one community driving and sharing responsibility for the management and use of national assets to maximise accessibility, usability and impact.

The data commons will catalogue sources of existing datasets, making them easily accessible to life science researchers. It will support FAIR data management throughout the data lifecycle, from the point of collection to deposition and, crucially, to reuse.

The method commons will enable the collaborative use of shared computational workflows with a national workflow capability. It will feature a national repository of trusted and curated data methods and workflows, contributed by the life sciences research community, supporting reproducible data analytics and advancing

The community centre will provide a focal point for sharing expertise, best practice and troubleshooting within disciplines.

The knowledge centre will enable those driving the collection and curation of existing knowledge resources and training materials to advance best practice in research data management.

Together, the community and knowledge centres will create a collaborative environment that supports more effective dissemination of research data management knowledge and skills across the life sciences research community.

Mission critical 

Put simply, BioFAIR is mission critical to the future of UK life sciences research. At its core the project will deliver major efficiency gains by streamlining research data management.

By better connecting research teams and championing the reuse of data and methods, BioFAIR will help accelerate research, leading to faster scientific breakthroughs as a result.

But BioFAIR adds significantly more value than efficiency alone. It will:

  • pioneer innovation, with its state-of-the-art tools and methods paving the way for future scientific success
  • future-proof the UK life sciences ecosystem by integrating advanced computational tools and methods to set the stage for new innovations that can be translated and commercialised for maximum impact
  • support economic growth and prosperity by upskilling the life sciences research data management workforce and enabling new opportunities for the UK鈥檚 scientific leadership

Community driven from the outset, the concept of BioFAIR originated as an idea submitted to BBSRC鈥檚 by the ELIXIR-UK team.

This collaborative ethos remains at the heart of BioFAIR, complemented by additional UK and international initiatives to ensure best practices are shared and interoperability across disciplines is promoted.

BioFAIR鈥檚 success heavily relies upon the combined ability and proven track record of the UK life science research community in developing and operating research data management tools and services. 

As the awarded hosts of BioFAIR鈥檚 coordinating hub, the Earlham Institute鈥檚 strengths will be complemented by a skilled and distributed network of UK partners responsible for project leadership and delivery.

Dr Sarah Perkins, Executive Director for Strategic Planning, Evidence and Engagement at BBSRC and the UKRI Senior Responsible Officer for BioFAIR, said: 鈥淒igital research infrastructure has fast become as critical to UK bioscience as physical infrastructure. 

鈥淭he BioFAIR project will provide the backbone for ground-breaking research, enabling researchers to tackle key societal challenges head-on. By democratising access to crucial data and methods, BioFAIR ensures that the UK life science community can innovate faster and more effectively than ever before.鈥

Gerry Reilly, Interim Director of BioFAIR, said: 鈥淥ur vision is to create a powerful federated digital research infrastructure that revolutionises UK life science research. By leveraging established best practices and capabilities, we will build a national platform that ensures the effective adoption of FAIR principles and drives efficiency across all UK life science research institutions. 

鈥淒eveloped by the research community for the research community, BioFAIR will transform the future face of the UK life sciences.鈥

or email your questions to info@biofair.uk.

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Thu, 11 Jul 2024 10:06:57 +0100 https://content.presspage.com/uploads/1369/76ee4078-df90-420a-9727-c0b3fc245231/500_biofair.jpg?10000 https://content.presspage.com/uploads/1369/76ee4078-df90-420a-9727-c0b3fc245231/biofair.jpg?10000
Brain implant firm wins 拢12m funding with Graphene@野狼社区 nanotech /about/news/brain-implant-firm-wins-12m-funding-with-graphenemanchester-nanotechnology/ /about/news/brain-implant-firm-wins-12m-funding-with-graphenemanchester-nanotechnology/445024A collaboration between two Barcelona institutions and the Nanomedicine Lab at The University of 野狼社区 - aimed at treating brain disorders such as epilepsy and Parkinson’s Disease - has secured £12m in funding.

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A collaboration between two Barcelona institutions and the  at The University of 野狼社区 - aimed at treating brain disorders such as epilepsy and Parkinson’s Disease - has secured £12m in funding, one of the largest investments to date in the European medical nanotechnology industry.

is a spin-out company from the Catalan Institute of Nanoscience and Nanotechnology () and the Catalan Institution for Research and Advanced Studies (), partners of - and supported by - the European Commission’s programme.

INBRAIN’s work involves the decoding of brain signals by implanting innovative, flexible nanoscale graphene electrodes, developed in conjunction with researchers at 野狼社区’s Nanomedicine Lab and the  (NGI).

These signals may then be used to produce a therapeutic, personalised response for patients with epilepsy, Parkinson’s and other neurological disorders.

This new investment is co-led by Barcelona-based venture capitalists Asabys Partners and Alta Life Sciences, joined by: Vsquared Ventures, a deep tech-focused early-stage venture capitalist based in Munich; TruVenturo GmbH, Germany’s most successful internet company builders; and CDTI, the Spanish Ministry of Science and Innovation.

Fruits of long collaborationProfessor Kostas Kostarelos

Kostas Kostarelos, Professor of Nanomedicine at The University of 野狼社区 , the NGI and co-founder of INBRAIN Neuroelectronics, said: ‘’This investment for INBRAIN is a testament that graphene-based technologies and the properties of 2D materials have a unique set of propositions to offer for clinical medicine and the management of neurological disorders.

“This did not happen suddenly, though, or by a stroke of good luck in the lab,” he added. “It is the culmination of many years of persistent and consistent work between at least three research institutions, one of which is the Nanomedicine Lab in 野狼社区, the other two in Barcelona, all working closely and cooperatively under the critically important funding of the Graphene Flagship project.”

The Graphene Flagship is the European Commission’s €1bn research funding spearhead and a key partner of ICN2, ICREA and Graphene@野狼社区, with a mission is to accelerate advanced 2D materials research and commercialisation.

High costs of brain disease

The high incidence of brain-related diseases worldwide and their huge annual cost - around £700bn in Europe alone, according to a 2010 study by the European Brain Council - call for greater investments in basic research in this field, with the aim of developing new and more efficient therapeutic and diagnostic tools.

Existing brain interfaces are based on metals such as platinum and iridium, which significantly restrict miniaturisation and signal resolution, and are therefore responsible for considerable side effects.

As a consequence, there is a 50% rejection rate of these implants in candidate patients. INBRAIN Neuroelectronics has a disruptive technology proposition, based on the novel material graphene, that overcomes the current limitations of metal-based neural interfaces.

Graphene electrodes allow miniaturisation to nanoscale, with the potential to reach single-neuron resolution. The extraordinary properties of graphene - which is light, biocompatible, flexible and extremely conductive - are harnessed in much smaller devices, which are safer to implant and can be programmed, upgraded and recharged wirelessly.

Driven by artificial intelligence, the implant can learn from the brain of the specific patient and trigger adaptive responses to deliver a personalised neurological therapy. In addition, the use of big data management will permit remote monitoring of the device and data processing.

Better patient outcomes

Carolina Aguilar, founder and CEO of INBRAIN (pictured centre with team, above), said: “Patients with chronic conditions are alone with their diseases, at most they see their physician 1-4 times per year for a follow-up. With less invasive and more intelligent neuroelectronic therapies, we aim to provide safer and real-time adaptive therapies to empower them and improve the outcomes that matter to them.

“This way patients can better deal with their condition between follow-up visits, by getting the right therapy and support when they need it.”

The technology has already been validated in vitro and in vivo, with extensive biocompatibility and toxicity tests mainly performed in 野狼社区 using preclinical models. This significant investment will be dedicated to bring the technology to human patients, with the execution of multiple clinical trials in collaboration with key neurosurgical and neurological groups in Europe, including various NHS hospitals.

 is one of The University of 野狼社区’s  - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons

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Mon, 29 Mar 2021 10:14:44 +0100 https://content.presspage.com/uploads/1369/500_202103fg25inbrainpresscrop1200px.jpg?10000 https://content.presspage.com/uploads/1369/202103fg25inbrainpresscrop1200px.jpg?10000
Cat or cats? How language rules affect learning in children /about/news/cat-or-cats-how-language-rules-affect-learning-in-children/ /about/news/cat-or-cats-how-language-rules-affect-learning-in-children/369781A new study reveals Italian-speaking children pick up some language rules faster than English-speakers.

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A new study reveals Italian-speaking children pick up some language rules faster than English-speakers.

Learning a language is more than just knowing the words – it’s knowing the rules too. A new paper from researchers at has investigated the speed at which Italian-speaking infants are able to pick up rules around singular and plural forms of words. They found that infants had learnt this distinction by 12 months.

The study is published in the journal

In contrast, previous research on this subject has found that English-speaking infants begin to understand singular/plural distinction at around 20 months.

The reason for this might be that the rules for pluralising words in Italian make more sense than those in English. For instance, changing “the yellow giraffe” to “the yellow giraffes” in Italian requires changes in three spots (“la giraffa gialla” becomes “le giraffe gialle”). While this might seem more complex than English, consider goose/geese versus moose or sheep!

In addition, the greater number of changes required between singular and plural in Italian may help reinforce the rule, improving how quickly it is learned.

“We know that all languages have words and that word learning seems to happen in the same way across the world.” Said Dr Alissa Ferry, one of the researchers involved in the study.

She continued; “But all languages have different rules about how words are put together and when children start to figure out those rules does seem to vary depending on the language.”

To investigate the speed at which infants pick up the Italian rules, the researchers had children aged either 12-, 18- or 24-months play a game. They were shown two pictures on a computer screen with either one or two people in each picture and then heard the word for singular (for example, la bambina, the girl) or plural (le bambine, the girls).

How long the infants spent looking at the correct picture was used to gage their understanding of language rules.

The results showed that, by 12 months, the Italian infants could correctly distinguish between girl or girls, depending on which form they heard. This means they were able to pick up the rules around eight months earlier than their English-speaking counterparts.

“We know that all languages have different rules, and these findings show that those rules can shape when the infants start to figure them out,” Said Dr Ferry, adding; “Rules that are harder to find, like the English plural system, take a bit longer to figure out that rules that are easy to find, like the Italian plural system.”

“Twelve to 24-month-olds can understand the meaning of morphological regularities in their language” is published in Developmental Psychology

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Nobel laureates among University鈥檚 most highly cited researchers /about/news/nobel-laureates-among-universitys-most-highly-cited-researchers/ /about/news/nobel-laureates-among-universitys-most-highly-cited-researchers/36815014 researchers from The University of 野狼社区 are some of the most highly cited in their field, in a new list from the Web of Science Group released this week.

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14 researchers from are some of the most highly cited in their field, in a new list from the released this week.

They include Prof Sir Andre Geim and Prof Sir Kostya Novoselov, the co-discovers of graphene at the University in 2004, for which they won the Nobel Prize for Physics in 2010. Also on the list is fellow graphene researcher, Prof Irina Grigorieva, as well as Prof Jorgen Vestbo, a researcher in respiratory medicine, and Prof Frank Geels, and expert in energy and sustainability.

The list identifies scientists and social scientists who produced multiple papers ranking in the top 1% by citations for their field and year of publication, demonstrating significant research influence among their peers.

The methodology that determines the who’s who of influential researchers draws on the data and analysis performed by bibliometric experts from the Institute for Scientific Information at the Web of Science Group.

The data are taken from 21 broad research fields within Essential Science Indicators, a component of . The fields are defined by sets of journals and exceptionally, in the case of multidisciplinary journals such as Nature and Science, by a paper-by-paper assignment to a field based on an analysis of the cited references in the papers. This percentile-based selection method removes the citation advantage of older papers relative to recently published ones, since papers are weighed against others in the same annual cohort.

Listed University researchers;

Prof Sir Andre Geim, Dr Artem Mischenko, Prof Christian Klingenberg, Prof David Denning, Dr Donald Ward, Prof Frank Geels, Prof Irina Grigorieva, Prof Jorgen Vestbo, Prof Judith Allen, Prof Sir Kostya Novoselov, Prof Rahul Nair, Prof Richard Bardgett, Dr Roman Gorbachev, and Prof Zhiguo Ding.

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Thu, 21 Nov 2019 14:32:22 +0000 https://content.presspage.com/uploads/1369/500_iron_bird_13.jpg?10000 https://content.presspage.com/uploads/1369/iron_bird_13.jpg?10000
We are at the dawn of a new health revolution, says leading immunologist /about/news/we-are-at-the-dawn-of-a-new-health-revolution-says-leading-immunologist/ /about/news/we-are-at-the-dawn-of-a-new-health-revolution-says-leading-immunologist/254680A brave new world of immune system therapies – harnessing the body’s own defences – could help treat all kinds of different illnesses, according to one of the UK’s leading immunologists.

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A brave new world of immune system therapies – harnessing the body’s own defences – could help treat all kinds of different illnesses, according to one of the UK’s leading immunologists.

But in his new book The Beautiful Cure: Harnessing your body’s natural defences, Professor Daniel M. Davis, from The University of 野狼社区, says this also raises vital new issues for society, not least being how we cope with the expense of new medicines.

The book, published by Random House, describes the scientific quest to understand how the immune system works, and how it is unlocking a revolutionary approach to our fight with disease.

American immunologist Professor James P. Allison, he writes, was one pioneer who, by studying how our immune system works, has found a way to help treat some types of cancer.

The journey to a modern understanding of the immunity can be said to have begun in 1989, when Charles Janeway expanded our understanding of innate immunity, the body's first line of defence against infection.

Then followed a global adventure of digging into cells and molecules, leading to discoveries about how immune cells switch on and off in their fight with disease.

“Take one example,” Davis says: “Immunologists have learnt how to switch off a brake on the immune system – to unleash its power more forcefully in fighting cancer.”

“Another example is how anti-TNF therapy was developed for arthritis and inflammatory bowel disease.

“But these successes are probably still just the tip of the iceberg. All kinds of different diseases could feasibly be tackled with immune system therapies: cancers, viral infections, arthritis, and a range of other conditions.

“There are many other break receptors in the immune system which can switch off specific types of immune cells. We must now test whether or not blocking these, alone or in combination, can unleash immune cells to tackle different types of disease.”

He added: “We also know that stress has a vital influence on the immune system. This raises crucial questions about whether practices that reduce stress, like tai chi and mindfulness, can help our fight with disease.

“A new detailed knowledge of how our immune system works has unlocked a revolutionary new approach to medicine and well-being.”

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Lost manuscript shines light on 1960s publishing controversy /about/news/lost-manuscript-shines-light-on-1960s-publishing-controversy/ /about/news/lost-manuscript-shines-light-on-1960s-publishing-controversy/245555A scientist and historian from The University of 野狼社区 has unearthed a document which throws light on a long-forgotten controversy in scientific publishing from the 1960s.

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A scientist and historian from The University of 野狼社区 has unearthed a document which throws light on a long-forgotten controversy in scientific publishing from the 1960s.

Writing in the journal PLOS Biology, Professor Matthew Cobb tells how he discovered the document – a letter to Francis Crick – in the archives of Cold Spring Harbor Laboratory, New York.

The letter invited Crick to join an experiment designed to encourage information sharing for biologists, which was called the ‘Information Exchange Groups’. Crick initially declined, although he eventually changed his mind.

The system,which was forced to shut down in 1967 following opposition from the established publishers, eventually involved over 3,600 researchers around the world and saw the production of over 2,500 different preprints, on millions of pages of paper.

Scientists have long complained it can take months or even years for a scientific discovery to be published, because of the slowness of peer review.

To cut through the problem, researchers in physics and mathematics now use “preprints” – preliminary versions of their scientific findings published on internet servers for anyone to read.

But it wasn’t until In 2013 that biologists were able to share preprints in this way.

The growth in the Information Exchange Groups and their possible extension into physics provoked systematic opposition from journal publishers such as Nature and Science.

Vitriolic editorials were published as a number of journals refused to consider articles that had been circulated as preprints. That helped put an end to the Information Exchange Group experiment.

The widespread circulation of preprints in physics really took off in the 1990s with the appearance of the World Wide Web and a server called arXiv.

Biology continued to lag behind, and a further attempt to launch preprints in 1999 met with similar hostility from publishers and learned societies and was soon abandoned.

It is only recently that biology preprints have been widely accepted by scientists and by journals.

Professor Cobb said: “Although well-intentioned, the Information Exchange Groups became hugely controversial.

“Journal publishers claimed only they were able to guarantee the accuracy and probity of scientific findings, and that the widespread adoption of preprints threatened their existence.

“But I suspect the real issue was the potential threat to publishers’ income and prestige.”

He added: “Scientists are completely unaware of this controversy, but it illustrates how some vested interests have opposed the open circulation of knowledge in the name of money and prestige.

“It also shows how even old-style technology was able to bypass the traditional gate-keepers of science and the barriers they created.”

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Whales and dolphins have rich 鈥榟uman-like鈥 cultures and societies /about/news/whales-and-dolphins-have-rich-human-like-cultures-and-societies/ /about/news/whales-and-dolphins-have-rich-human-like-cultures-and-societies/235582Whales and dolphins (Cetaceans) live in tightly-knit social groups, have complex relationships, talk to each other and even have regional dialects – much like human societies. A major new study has linked the complexity of Cetacean culture and behaviour to the size of their brains.

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Whales and dolphins (Cetaceans) live in tightly-knit social groups, have complex relationships, talk to each other and even have regional dialects – much like human societies.

A major new study, published today in (Monday 16th October), has linked the complexity of Cetacean culture and behaviour to the size of their brains.

The research was a collaboration between scientists at The University of 野狼社区, The University of British Columbia, Canada, The London School of Economics and Political Science (LSE) and Stanford University, United States.

The study is first of its kind to create a large dataset of cetacean brain size and social behaviours. The team compiled information on 90 different species of dolphins, whales, and porpoises. It found overwhelming evidence that Cetaceans have sophisticated social and cooperative behaviour traits, similar to many found in human culture. The study demonstrates that these societal and cultural characteristics are linked with brain size and brain expansion – also known as encephalisation.

The long list of behavioural similarities includes many traits shared with humans and other primates such as:

  • complex alliance relationships – working together for mutual benefit
  • social transfer of hunting techniques – teaching how to hunt and using tools
  • cooperative hunting
  • complex vocalizations, including regional group dialects – ‘talking’ to each other
  • vocal mimicry and ‘signature whistles’ unique to individuals – using ‘name’ recognition
  • interspecific cooperation with humans and other species – working with different species
  • alloparenting – looking after youngsters that aren’t their own
  • social play 

Dr Susanne Shultz, an evolutionary biologist in 野狼社区’s School of Earth and Environmental Sciences, said: “As humans, our ability to socially interact and cultivate relationships has allowed us to colonise almost every ecosystem and environment on the planet. We know whales and dolphins also have exceptionally large and anatomically sophisticated brains and, therefore, have created a similar marine based culture.

“That means the apparent co-evolution of brains, social structure, and behavioural richness of marine mammals provides a unique and striking parallel to the large brains and hyper-sociality of humans and other primates on land. Unfortunately, they won’t ever mimic our great metropolises and technologies because they didn’t evolve opposable thumbs.”

The team used the dataset to test the social brain hypothesis (SBH) and cultural brain hypothesis (CBH). The SBH and CBH are evolutionary theories originally developed to explain large brains in primates and land mammals.

They argue that large brains are an evolutionary response to complex and information-rich social environments. However, this is the first time these hypotheses have been applied to ‘intelligent’ marine mammals on such a large scale.

Dr Michael Muthukrishna, Assistant Professor of Economic Psychology at LSE, added: “This research isn’t just about looking at the intelligence of whales and dolphins, it also has important anthropological ramifications as well. In order to move toward a more general theory of human behaviour, we need to understand what makes humans so different from other animals. And to do this, we need a control group. Compared to primates, cetaceans are a more “alien” control group.”

Dr Kieran Fox, a neuroscientist at Stanford University, added: “Cetaceans have many complex social behaviours that are similar to humans and other primates. They, however, have different brain structures from us, leading some researchers to argue that whales and dolphins could not achieve higher cognitive and social skills. I think our research shows that this is clearly not the case. Instead, a new question emerges: How can very diverse patterns of brain structure in very different species nonetheless give rise to highly similar cognitive and social behaviours?”

Reference: 'The social and cultural roots of whale and dolphin brains, Nature Ecology & Evolution (2017). '

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Selfishness means chimps are less like us, study finds /about/news/selfishness-means-chimps-are-less-like-us-study-finds/ /about/news/selfishness-means-chimps-are-less-like-us-study-finds/161477A new study finds that unlike humans, Chimpanzees are entirely selfish creatures who act in their own interests, turning conceived wisdom on its head.

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A new study finds that unlike humans, Chimpanzees are entirely selfish creatures who act in their own interests, turning conceived wisdom on its head.

The team from the universities of 野狼社区, Birmingham, and St Andrews, and the Max Planck Institute for Evolutionary Anthropology, say humans were unlikely to have inherited the trait of kindness from their primate cousins.

The animals, they find, are unlikely to take an interest in each other unless there is an anticipated benefit.

Previous research implying helpful behaviour in chimps was likely to be a by-product of the way experiments were designed, they argue in .

The team worked with a group of 16 Chimpanzees at the , in Uganda.

Using two ingenious experiments, the team discovered the chimpanzees were no more likely to help feed each other as they were to block access to a box of peanuts.

One of the principle investigators, at The University of 野狼社区, said, “The evolution of social behaviour, and what drives individuals to act altruistically, is an important and active area of debate.

“There has been an appealing suggestion that the roots of human altruism extend down at least as far as our common ancestor with chimpanzees.

“However, the results of this study challenges that view. ‘Helping’ might have formerly arisen in previous studies as a by-product of interesting tasks.”

Dr Claudio Tennie, from the University of Birmingham, said: “The results of these experiments combined demonstrate that the chimpanzees did not act in a manner that would produce benefits for others in a task where there was no perceived benefit to themselves.

“Indeed, given that the participants were just as likely to prevent access to food as they were to permit access, chimpanzees are no more altruistic than they are spiteful.

“Even after they demonstrated a clear understanding of the consequences of their actions, they remained indifferent to any effects these actions may have on others. If true, this would mean that prosocial behaviour has developed late in evolution, after our split with the other apes.”

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New research uncovers how organs and tissues develop in the first two months of pregnancy 鈥 and unlocks potential for treating developmental disorders /about/news/new-research-uncovers-how-organs-and-tissues-develop-in-the-first-two-months-of-pregnancy--and-unlocks-potential-for-treating-developmental-disorders/ /about/news/new-research-uncovers-how-organs-and-tissues-develop-in-the-first-two-months-of-pregnancy--and-unlocks-potential-for-treating-developmental-disorders/149943For the first time, the precise way organs and tissue develop in early pregnancy has been mapped – providing new insight into how developmental disorders can occur during the crucial first two months of pregnancy.

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  • Study provides the very first insight into the human embryo development
  • New insight into how developmental disorders can occur during the crucial first two months of pregnancy
  • For the first time, the precise way organs and tissue develop in early pregnancy has been mapped – providing new insight into how developmental disorders can occur during the crucial first two months of pregnancy.

    The research, carried out by a team from the University of 野狼社区 and Central 野狼社区 University Hospitals NHS Foundation Trust, is published in the current issue of the journal eLIFE.

    Concentrating on the period know as organogenesis – the point at which organs and tissue develop out of the newly established germ layers of ectoderm, mesoderm and endoderm – the study provides the very first insight into the human embryo development.

    The computational model developed during the study has not only correctly identified many genes that were already known to cause developmental problems when faulty, but more importantly it discovered many other genes which could lead to developmental defects in an unborn child. The identification of these potentially damaging genes has led the research team to believe that not only genetic diagnoses will improve in terms of identifying development disorders at an earlier stage but also the potential to treat these disorders in utero.

    Neil Hanley, Professor of Medicine at The University of 野狼社区’s School of Medical Sciences and lead author of the report, said the research findings will give a major boost to the understanding of early human development.

    “Until now, remarkably little has been known about organogenesis – the assembly phase for human organs and tissues. Any errors in this stage of development can result in miscarriage or serious birth defects. Our research has opened a window to this crucial phase, and hopefully will allow the scientists who follow us to develop methods to eliminate or significantly reduce organ and tissue disorders.”

    Working on the established knowledge that genes control the way organs and tissues develop – certain genes switch on or off in complex patterns, downloading DNA code into RNA molecules - the team used RNA-sequencing to identify the RNAs instrumental in organ development.

    The computational model developed by the team used the identified organ-developing RNAs to decode the precise patterns of gene activity in the tissues. The sequencing uncovered both normal patterns leading to healthy development as well as a significantly large and previous unknown number of genes which lead to defective development.

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    Thu, 01 Sep 2016 23:00:00 +0100 https://content.presspage.com/uploads/1369/500_shutterstock-410899978.jpg?10000 https://content.presspage.com/uploads/1369/shutterstock-410899978.jpg?10000
    David Willetts speaks at ESOF /about/news/david-willetts-speaks-at-esof/ /about/news/david-willetts-speaks-at-esof/136910

    Lord David Willetts, the Executive Director of the Resolution Foundation, and Former Minister for Universities and Science is deliver this year's Fred Jevon's Science Policy Lecture on Monday 25 July on how government supports science and technology, and how it can frame an effective industrial strategy. 

    The event is organised by The University of 野狼社区’s Centre for the History of Science, Technology and Medicine and 野狼社区 Institute of Innovation Research, which collectively constitute one of the world’s major centres of expertise in the social, historical, economic and political analysis of science and technology.

    It will take place at 野狼社区 Town Hall from 2:15pm to 3:30pm, and is part of ESOF - the Euroscience Open Forum - bringing together over 4,500 leading thinkers, innovators, policy makers, journalists and educators from more than 90 countries.

    The Fred Jevons Science Policy Lecture commemorates the founding professor of ‘Liberal Studies in Science’ at 野狼社区. 野狼社区 has long been a major centre for social, economic and historical studies of science and technology, a history consolidated by the establishment of a Department of Liberal Studies in Science in the 1960s.

    Please note, it is not necessary to be registered for ESOF to attend the lecture. This is a free event but to attend, please register .

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    Fri, 22 Jul 2016 11:00:00 +0100 https://content.presspage.com/uploads/1369/500_david-willetts-to-use-609x336.jpg?10000 https://content.presspage.com/uploads/1369/david-willetts-to-use-609x336.jpg?10000
    Dragon鈥檚 Den success is Outstanding Alumnus /about/news/dragons-den-success-is-outstanding-alumnus/ /about/news/dragons-den-success-is-outstanding-alumnus/134556

    One of Dragon’s Den’s top success stories has been recognised by The University of 野狼社区 for his work as a leading North West entrepreneur.

    Imran Hakim started in business aged just 15, with a £2,000 loan from his father, but following his BBC appearance went on to secure a worldwide distribution deal covering 45 different countries for his interactive teddy bear, the iTeddy.

    Imran graduated from the University of 野狼社区 in 1999 with a BSc (Hons) Optometry and Vision Sciences.

    Since then, he has built a portfolio of businesses, including a chain of optical retail practices, lens laboratory, spectacle frame distribution and interior optical shop-fitters.

    The Hakim Group is now the strongest independent optical group in the UK, and is the largest optical group outside of the industry’s ‘big four’.

    He said: “I knew that I would run my own business but I never thought that it would go on to be one of the largest optical groups in the country. It just reinforces the message that I always preach to our management team: keep dreaming, dream often and dream big! I’m delighted the University has acknowledged my work – and I would like to thank 野狼社区 for the support and encouragement it gave me.”

    Head of Alumni Relations at The University of 野狼社区 Claire Kilner said: “While at University, Imran brilliantly juggled the demands of building his business empire, while completing his degree.

    His energy and dedication has seen him win numerous business awards, including a Mosaic Award for Science and Technology from HRH Prince of Wales.

    “He has also been a director of entrepreneurship at The University of 野狼社区 Intellectual Property (UMIP) division, helping to turn world-leading research into world-beating companies, products and services. Many congratulations Imran.”

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    Tue, 12 Jul 2016 15:30:00 +0100 https://content.presspage.com/uploads/1369/500_imranhakim.jpg?10000 https://content.presspage.com/uploads/1369/imranhakim.jpg?10000
    New insight into how plants make cellulose /about/news/new-insight-into-how-plants-make-cellulose/ /about/news/new-insight-into-how-plants-make-cellulose/135923

    A  野狼社区 and Dundee collaboration has found out more about one of the most abundant biological substances on the planet.

    Professor Simon Turner from The University of 野狼社区 and Dr Piers Hemsley from the University of Dundee and James Hutton Institute, have been studying Cellulose.

    Cellulose is the major structural component in plants. It essentially provides the plant with its skeleton. It is also one of the most widely used natural resources, best known in the form of wood, cotton and paper, but is increasingly important as a renewable raw material for industrial applications.

    Dr Hemsley and Professor Turner identified an important new process in cellulose synthesis called S-acylation. S-acylation involves adding fatty acids to proteins to change the proteins function. They found that when the proteins that create cellulose, known as the cellulose synthase complex, were not S-acylated, plants were no longer able to make cellulose. This makes S-acylation an extremely important part of the cellulose synthesis process.

    Dr Hemsley said: “This work will help us to understand how the cellulose synthase complex works, how plants form cellulose and how they lay it down in the patterns that provide strength and structure to the plant.

    “Plant cell walls have evolved to resist attack from microbes and insects, but this also means that the cellulose in plant cell walls is hard to break down and free up the sugars needed for fermentation into biofuels or use as industrial precursors.

    “This work will help us to manipulate cellulose synthesis so that the cellulose structure is altered and therefore more open to processing. This will hopefully allow us to break down cellulose in cheaper, cleaner and more efficient ways.”
     
    Professor Turner said: “Manipulating and understanding cellulose biosynthesis to provide renewable energy sources and industrial starting products while maintaining food yields is an important goal of plant science research. This will be of even greater importance in the future as more food and energy will have to be produced from the same land area to provide for an expanding global population while reducing CO2 emissions and environmental impacts.

    “Our work highlights a critical aspect of cellulose synthesis that needs to be considered in fundamental research strategies that could help address some of these food and energy security issues.”

    The results of this work are published in Science (8th July 2016, Vol 353, Issue 6294, p 166-169) and the research was supported by the BBSRC.

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    Go red to crack the confidence blues /about/news/go-red-to-crack-the-confidence-blues/ /about/news/go-red-to-crack-the-confidence-blues/129620

    A new book developed by a University of 野狼社区 expert could be a boost for Brits who suffer from poor confidence.

    Davina Whitnall, a skills trainer, says the often hidden problem can cause misery at home and in the workplace for millions of people at some stage in their lives.

    After studying the problem for 6 years , Ms Whitnall has devised a 90-page guide, based on her work with PhD students called Confidence ketchup: pour on the confidence condiment.

    By examining survey data between 2011 and 2015, the trainer identified how confidence was a recurring theme not only for many post graduates, but for the public as a whole.

    And working through the book, she argues, will give readers a noticeable- and measurable – confidence boost through motivation and support.

    She said: “It’s surprising the sort of people who are affected by confidence: journalists, for example can be confident at work, but not in other contexts.

    “Indeed, poor confidence has long been a problem for many; over recent years, the political spotlight on mental health and stress has meant that we are becoming more open about it.”

    She added: “The method I have developed is unusual in that it’s very quick to learn, uses a system of self-measurement and teaches you to isolate confidence from the social stigma of low competence.

    “There are plenty of competent people out there who are being held back from achieving because they lack confidence.

    “Confidence enhances an individual like ketchup – hence the name or the book. The more you practice being confident, the better you get at it: if you do think this is a problem for you, maybe it’s now time to think about changing.”

    NOTES FOR EDITORS

    To try out one of confidence needs analysis contained in the book, visit:

    A book launch event is to take place be on Blackwell’s, 野狼社区 on June 28th from 18:30 - 20:00. The launch event includes a short inspirational confidence workshop, refreshments, an opportunity to purchase a signed copy of the book and chat with the author. To book your free place, visit  

    Confidence ketchup is published by and is available at Blackwell’s, Amazon, Davinawhitnall.co.uk/books

    For review copies contact: Whammy Press (U.K.) all enquiries to: info@whammypress.com

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    Wed, 01 Jun 2016 15:00:00 +0100 https://content.presspage.com/uploads/1369/500_confidencebookcoverfrontandback.jpg?10000 https://content.presspage.com/uploads/1369/confidencebookcoverfrontandback.jpg?10000
    Dino jaws: Stegosaurs bite strength revealed /about/news/dino-jaws-stegosaurs-bite-strength-revealed/ /about/news/dino-jaws-stegosaurs-bite-strength-revealed/126791

    The first detailed study of a Stegosaurus skull shows that it had a stronger bite than its small peg-shaped teeth suggested. The Natural History Museum’s Stegosaurus specimen, ‘Sophie’, has been compared with two plant-eating dinosaurs with similar skulls: Plateosaurus and Erlikosaurus.

    All three had a large low snout and a scissor-like jaw action that moved up and down. Using computer modelling a team of scientists from Bristol, London, 野狼社区 and Birmingham, including Charlotte Brassey from The University of 野狼社区, has shown these dinosaurs had different biting abilities.

    As Prof Paul Barrett, dinosaur researcher at the Natural History Museum explains: “Far from being feeble, as usually thought, Stegosaurus actually had a bite force within the range of living herbivorous mammals, such as sheep and cows.”

    The finding means that scientists need to reconsider how Stegosaurus fitted into its ecological niche. For example it may have had a role in spreading the seeds of woody evergreen cycads.

    Stegosaurus lived around 150 million years ago and needed to eat a lot of plants to sustain its large size. As grasses did not exist then, it would have fed on plants such as ferns and horsetails.

    As Barrett, leader of the research team, comments: “Our key finding really surprised us: we expected that many of these dinosaur herbivores would have skulls that worked in broadly similar ways. Instead we found that even though the skulls were fairly similar to each other in overall shape, the way they worked during biting was substantially different in each case.”

    Lead author Dr Stephan Lautenschlager, a post-doctoral researcher at the University of Bristol’s School of Earth Sciences, employed digital models and computer simulations to analyse the dinosaurs’ bites, using data from 3D scans of the skulls and lower jaws. He used engineering software to give the skulls the material properties that would match as closely as possible to the real thing, for example, using data on crocodile teeth to model those of the dinosaurs.

    By attaching muscles to the models, he was able to examine the forces that the jaws could produce and the subsequent stresses on the skulls.

    As computer power increases and software becomes more available, Lautenschlager thinks that we will see more modelling used in dinosaur research: “Using computer modelling techniques, we were able to reconstruct muscle and bite forces very accurately for the different dinosaurs in our study. As a result, these methods give us new and detailed insights into dinosaur biology – something that would not have been possible several years ago.”

    Further images are available at Please note: images are for single use only to illustrate this press release and are not to be archived.All images © Stephan Lautenschlager

    Original PublicationLautenschlager, S., Brassey, C. A., Button, D. J., Barrett, P. M. Decoupled form and function in disparate herbivorous dinosaur clades. Sci. Rep. 6, 26495; doi:10.1038/srep26495 (2016)

    For further information, please contact the Natural History Museum Press Office Tel: +44 (0) 20 7942 5654 / +44 (0) 7799 690 151 Email: press@nhm.ac.uk

    For interviews with Charlotte Brassey from The University of 野狼社区, contact: Mike Addelman, Media Relations Officer, Faculty of Life Sciences, University of 野狼社区, michael.addelman@manchester.ac.uk, 0161 275 2111, 07717 881567

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    Fri, 20 May 2016 10:04:00 +0100 https://content.presspage.com/uploads/1369/500_figure1stegasuarus.jpg?10000 https://content.presspage.com/uploads/1369/figure1stegasuarus.jpg?10000
    野狼社区 gets the science bug /about/news/manchester-gets-the-science-bug/ /about/news/manchester-gets-the-science-bug/125964

    University scientists are celebrating their best ever annual community Open day which took place last weekend.

    The team welcomed hundreds of people from across the city, keen to see where some of the country’s leading life scientists work.

    Highlights included coding a Superhero, making DNA cookies, £1m robots, touring the labs, maggot painting and seed planting.

    One family wrote to the University, thanking the team for an ‘amazing’ event, praising them for giving the opportunity to show children from local communities what the inside of a University looks like and hiow researchers work.

    The free event was held in the Michael Smith Building at the heart of the University campus.

    Also on display were creepy crawlies and microbes, insects and amphibians.

    Organiser Natalie Liddle said: “We were absolutely delighted with the turnout which made all the hard work worthwhile.

    “It’s so special to be able to open our doors to the public, so they can see what we do and learn about the research we carry out.

    “Our mission is to inspire- as well as entertain – to get the message across that a career in science is achievable for people in so many different walks of life.”

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    Thu, 12 May 2016 10:03:42 +0100 https://content.presspage.com/uploads/1369/500_openday-photo4.jpg?10000 https://content.presspage.com/uploads/1369/openday-photo4.jpg?10000
    Award for Burmese e-Library project /about/news/award-for-burmese-e-library-project/ /about/news/award-for-burmese-e-library-project/120172

    A ground breaking University of 野狼社区 project which allows Students, teachers and researchers in Myanmar (Burma) to access vital educational resources has been recognised.

    Yin Min Tun, Research and Project Manager at the eTakketho project has bagged the Information Literacy Award, given by the Chartered Institute of Library and Information Professionals and Library Association of Ireland.

    Judges Gayner Eyre, Library Consultant, and Ellen Breen, Sub-Librarian, Dublin City University, said:

    "This is an excellent and worthy initiative. Yin Min Tunhas done tremendous work and demonstrates enormous commitment. A very important project which has reached 5000 students in Myanmar and been recognised by the House of Lords and Aung San Suu Kyi."

    The award for eTekkatho, which means ‘university’ in Pali, the literary language of Myanmar, is open to practitioners, researchers and academics working in the information literacy field within the UK or Ireland

    The eTekkatho library uses leading-edge technology and contains a treasure trove of world-class academic resources including online text books, datasets and research papers.

    The free online resource was developed and hosted by The University of 野狼社区, working closely with a network of leading Myanmar universities.

    It covers subjects such as community forestry, earthquake maps and reference data from the World Bank, though the team hope that the number will expand substantially.

    The eTekkatho library is in English, with unrestricted access. The website and library uses special compression and network technologies to operate in low bandwidth (25 kbps) or fragmented Internet environments.

    Most resources in the library have been compressed and on the accompanying website, the team use cutting-edge technologies to enable users to explore the library easily, even over dial-up connections.

    Yin Min Tun said: “We’re delighted this project has been recognised in this way: Burma is reforming quickly,  resulting in high demand for up-to-date digital educational resources.

    “So this important project helps fulfil that demand, and despite some tricky technical and logistical challenges of working in the developing world with more limited infrastructure  than the West, the project has gone from strength to strength.

    “The aim of eTekkatho is to help young people in Myanmar achieve their educational aspirations and so move our country forward. I would like to thank everyone who has worked so hard to make this project such a success.”

    Professor Amanda Bamford, Associate Dean For Social Responsibility at Faculty of Life Sciences said: “Ever since this project launched back in 2013, it has been the subject of much interest and praise and a prime example of the University’s commitment to social responsibility  - whether that is at home or, as in this case, abroad. Only this month, I and other colleagues were speaking to Politicians in the House of Lords about this work which was very well received.”

    Notes for editors

    Yin Tun and Professor Bamford are available for comment.

    Visit

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    Thu, 24 Mar 2016 14:06:59 +0000 https://content.presspage.com/uploads/1369/500_burmneseelibrary4.jpg?10000 https://content.presspage.com/uploads/1369/burmneseelibrary4.jpg?10000
    Citizen science app to track UK鈥檚 allergy sufferers /about/news/citizen-science-app-to-track-uks-allergy-sufferers/ /about/news/citizen-science-app-to-track-uks-allergy-sufferers/120061

    British allergy sufferers are to turn citizen scientists in a bid to decode the poorly understood world of seasonal allergies thanks to a free new app.

    The app – called #BritainBreathing – a collaboration between the Royal Society of Biology, the British Society for Immunology, and The University of 野狼社区, aims to help the one in four people in the UK who suffer from seasonal allergies like hay fever and asthma.

    Experts say the triggers are often poorly understood and little is known about why the incidence of these allergies is increasing.

    #BritainBreathing is the first nationwide project aiming to better understand where and when allergy symptoms are occurring, what exacerbates them and why they’re on the rise. It launches on Android today.

    By using the #BritainBreathing app, sufferers will be able to track allergy symptoms they record about their eyes, nose and breathing, over time. This might help people to start thinking about what might be triggering their allergies.

    Dr Sheena Cruickshank, from The University of 野狼社区 and British Society for Immunology, said: “Seasonal allergies are increasing in the West but we don’t know what is driving this. It could be pollution, super pollens, increased cleanliness, or a combination of factors. What has been missing to answer this question is wide scale human data about what is really happening. Because detailed information on pollen and pollution is available, we want to map Britain Breathing data onto that and perhaps come closer to understanding what really drives allergies, on both an individual and a national level."

    The #BritainBreathing app will allow the public to record their allergy symptoms in a simple and straightforward way and then anonymously share that data with researchers. This large open data set, which will also capture information on timing and location, can then be combined with other publicly available data, such as weather, pollen or pollution statistics, to build a better understanding of allergies and their triggers. From these data, scientists can build a clearer picture of the pattern and frequency of allergy incidence across the UK.

    The researchers will also create up-to-date visualisations of the national crowd data, for example maps of where particular allergy symptoms are most frequently reported on any given day, so that users can compare their experience to others in their region and beyond.

    Jon Kudlick, director of communications at the Royal Society of Biology said: “This is a ground breaking project as it will give users the chance to record and monitor the frequency of their own allergy symptoms, as well as then adding their experiences to the wider data set. Does air pollution add to the misery of those suffering with hay fever? Are people having more asthmatic symptoms in 野狼社区 than in London, and if so why? These are the kind of questions we hope to help answer.”

    “This is the Society’s fourth citizen science project. The Starling Survey, Flying Ant Survey and House Spider Survey have received tens of thousands of records over four years, and shown how effective people power can be in helping researchers to find answers to difficult questions.”

    The #BritainBreathing app is available on Android at

    Find out more on the #website

    Follow the project on Twitter:

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    Thu, 24 Mar 2016 11:01:00 +0000 https://content.presspage.com/uploads/1369/500_flowerwithpollen300by200.jpg?10000 https://content.presspage.com/uploads/1369/flowerwithpollen300by200.jpg?10000
    HIV drug could stop skin cancer becoming drug-resistant /about/news/hiv-drug-could-stop-skin-cancer-becoming-drug-resistant/ /about/news/hiv-drug-could-stop-skin-cancer-becoming-drug-resistant/116408

    AN HIV DRUG could stop one of the early changes in skin cancer cells that leads to them becoming resistant to treatment, according to a Cancer Research UK-funded study published in Cancer Cell* today (Monday).  

    The researchers looked at melanoma skin cancers from 11 patients who had started standard treatment for the cancer**. They found that the cancer cells used a molecular switch to temporarily rewire themselves to become more able to withstand the drugs in the first two weeks of treatment, and then went on to develop permanent resistance through genetic changes.

    The HIV drug, called nelfinavir, works by blocking the molecular switch which boosts cells’ ability to survive treatment. The research, carried out in mice, suggests that nelfinavir could be used in combination with standard skin cancer treatments to make them more potent and delay drug resistance, making available treatments effective for a longer period of time.

     

     

     

    Professor Claudia Wellbrock, lead author from The University of 野狼社区, said: “In the first few weeks of standard treatment for skin cancer, the cancer cells become stronger and more robust against treatment.

    “But if we can target skin cancer cells before they become fully resistant, we would have a much better chance of blocking their escape. And we think this research has brought us one step closer to making this a reality.”

    Professor Nic Jones, Director of Cancer Research UK’s 野狼社区 Institute, said: “Melanoma can be difficult to treat because the cancer becomes resistant to drugs quite quickly. But this exciting research means we might be able to fight back by blocking the first steps towards resistance, so that treatments are effective for longer.

    “While drug resistance is a big challenge, we’re making great progress. Drug resistance in late stage skin cancer is still a big problem and something we need to tackle. We’ve seen big steps forward recently with the development of immunotherapies but this exciting approach could stop skin cancer developing resistance at an earlier point.”

    NOTES FOR EDITORS

    The image shows a group of cancer cells that have been treated with a drug targeting the MAPK pathway. The red cells (and yellow areas) are dying, the green cells are still alive.

    For media enquiries please contact Fiona Dennehy on 020 3469 8300 or, out-of-hours, the duty press officer on 07050 264 059.

    Or:

    Mike Addelman, Media Relations Officer, Faculty of Life Sciences, University of 野狼社区, michael.addelman@manchester.ac.uk, 0161 275 2111, 07717 881567

     *Smith et al., Inhibiting drivers of non-mutational drug-tolerance is a salvage strategy for targeted melanoma therapy. Cancer Cell, 2016. DOI: 10.1016/j.ccell.2016.02.003.

    **The researchers analysed melanomas from 11 patients undergoing treatment with vemurafenib or a dabrafenib and trametinib combination which are FDA approved. NICE recommends vemurafenib as a possible treatment for metastatic melanoma. Dabrafenib and trametenib combination treatment is under review by NICE and a result is expected in August 2016.

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    Mon, 14 Mar 2016 16:00:00 +0000 https://content.presspage.com/uploads/1369/500_treatedcancercells.jpg?10000 https://content.presspage.com/uploads/1369/treatedcancercells.jpg?10000
    Groundbreaking text mining project highlights 鈥榞ender gap鈥 in scientific research /about/news/text-mining-project-highlights-gender-gap/ /about/news/text-mining-project-highlights-gender-gap/116763

    A project at The University of 野狼社区 to analyse 15,000 mouse studies - the largest of its kind ever undertaken - has revealed that about half of these studies failed to report the sex and age of the mice involved, despite these being recognised as key variables that can affect the outcome of scientific studies. The project utilised text mining software developed at the University, which can analyse large collections of documents to unearth information which would otherwise have been virtually impossible to discover. The software relies on a number of rules, which automatically scan the method section of papers to identify mentions of gender and age.

    The results of the project, published this week in the eLife journal, highlight the issue of reproducibility of scientific research - around £20 billion is spent every year on research which is not reproducible, and over 80% of potential therapeutics fail in humans after being tested in mice. Previously published studies have suggested that research done on female animals may not be applicable for men, and in many of the studies analysed in this project, the animals used were overwhelmingly female. This may be due to female mice being less aggressive, which makes them easier to use in the studies. This is important, because the sexes can have markedly different responses to the same investigations - for example, in infection research. This may significantly reduce the reliability of studies, and lead to drugs that won’t work for half of the population.

    The reproducibility of studies often focuses on the interpretation of statistics, but this project has highlighted that the methods used may not be reported rigorously enough to assess whether they were done correctly. By looking at the methods used, it is possible to infer whether or not the statistics produced are sound, and reproducible in the future. Without knowing these methods, this cannot be inferred at all, which hampers cross-disciplinary research and longevity of data.

    The project has produced a vital tool to measure the reproducibility of scientific studies, but there is a long way to go - failure to consider gender in research is still very much the norm, and according to one analysis of scientific studies published in 2009, only 45% of animal studies involving depression or anxiety and only 38% involving strokes used females, even though these conditions are more common in women.

     

    “This study has demonstrated how state-of-the-art computer science technology is instrumental for a large-scale and systematic analysis of literature,” said Dr Goran Nenadic from The University of 野狼社区’s School of Computer Science. “It avoids small sample bias, and allows us to explore the research landscape on a large scale to identify key issues in reporting details of scientific methodologies, which are necessary for reproducibility, transparency and fidelity of research.”

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    Thu, 03 Mar 2016 13:45:43 +0000 https://content.presspage.com/uploads/1369/500_mousetextmining.jpg?10000 https://content.presspage.com/uploads/1369/mousetextmining.jpg?10000
    Study explains why our organs are bendy /about/news/study-explains-why-our-organs-are-bendy/ /about/news/study-explains-why-our-organs-are-bendy/113811

    An international team of researchers has discovered how one of the body’s crucial building blocks allows human tissues to be so flexible.

    A University of 野狼社区 scientist working with Professor Tony Weiss and Dr Giselle Yeo at the University of Sydney and Professor Markus Buehler and Anna Tarakanova at MIT now have a better understanding of how elastin – which makes our organs and vessels flexible - moves.

    The research could one day help us to understand why some diseases weaken blood vessels, or improve the ability of scientists to artificially engineer new tissue.

    Elastin allows skin to stretch and twist, blood vessels to expand and relax, and lungs to swell and contract – and is present in many of our body’s structures.

    Elastin tissues are made up of a protein called tropoelastin, which are strung together in chain-like structures.

    The findings were published this week in the journal Science Advances.

    Professor Clair Baldock from The University of 野狼社区 used a synchrotron - a type of particle accelerator which propels charged particles to near light speed - to reveal the shape and structure of tropoelastin molecules.

    And her colleagues at Sydney and MIT scientists revealed how it moves, by using a combination of computer modelling and laboratory work.

    Professor Baldock said: “Thanks to this collaborative approach, we now understand that the scissor shaped ‘bump’ of one tropoelastin molecule locks onto the narrow part of another, eventually building up a chain.  

    “It is these long chains that weave together to produce the flexible tissues so essential to human life such skin, lungs, and blood vessels.  

    “The ultimate goal of this work is to apply this research to medical practice, though that still is probably a long way off.”  

    The research team, which also included Steven Wise of the Heart Research Institute in Sydney, was supported in part by grants from the Australian Research Council, the National Institutes of Health, the BBSRC, Wellcome Trust, and the Office of Naval Research.

    NOTES FOR EDITORS

    The findings were published this week in the journal Science Advances The paper: “Subtle balance of tropoelastin molecular shape and flexibility regulates dynamics and hierarchical assembly.” Is available at

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    Fri, 05 Feb 2016 19:00:00 +0000 https://content.presspage.com/uploads/1369/500_bloodvessels.jpg?10000 https://content.presspage.com/uploads/1369/bloodvessels.jpg?10000
    Discovered: a cluster of 60 proteins that help cells move and feel /about/news/discovered--a-cluster-of-60-proteins-that-help-cells-move-and-feel/ /about/news/discovered--a-cluster-of-60-proteins-that-help-cells-move-and-feel/99570
  • Discovery unlocks understanding of how cells form different tissues and move in diseases such as cancer
  • University of 野狼社区 scientists have discovered a cluster of 60 proteins that allow the body’s cells to react to their environment and communicate with each other.

    Professor Martin Humphries, who led the research team said: “Our findings on how cells sense their environment have unlocked an important key to understanding how we can persuade cells to form different tissues and how we might stop cell movement in diseases such as cancer.”

    The research is published in Nature Cell Biology.

    Cells react differently to materials that are hard or soft, rigid or elastic. For example, stem cells on a hard surface develop into bone cells, while the same cells on a very soft surface make nerve cells.

    Similarly, cells, including tumour cells, tend to move more rapidly on hard surfaces compared to soft surfaces. The ways in which cells sense this difference in their environment remains a mystery.

    The research revolves around integrins -– a family of proteins that were discovered in the 1980s and are essential for cell growth and function.

    Integrins, which are a building block of complex life, are found at the outer edge of cells and encourage proteins to assemble around them when they interact with the outside environment.

    The team carried out complex experiments to understand the workings of the integrin protein clusters using mass spectrometry, and assembled a list of all the proteins in the system.

    One member of the team, Dr Adam Byron, assembled similar data from across the world and distilled it into a list of 60 proteins that cluster around integrins.

    Another member of the research team, Ed Horton, said: “After assimilating all the complex data which was available, we were surprised that only 60 proteins were the essential mediators of the information exchange between integrins and the outside world.

    “So there is now a consensus view:  integrins work closely with at least 60 proteins to coordinate many functions including cancer cell migration.”

    And fellow researcher Dr Jon Humphries said: “Understanding how cells sense their environment is an important step in understanding how, for example, cancer cells move or how stem cells take on different jobs.”

    NOTES FOR EDITORS
    Image available: Word cloud art work which shows all the proteins identified by the analysis. They have been scaled by the number of times they were observed in the analysis so that the larger text indicates the 60 proteins highlighted by the paper.

    Professor Humphries, Drs Horton and Humphries are available for comment

    An electronic copy of the paper, Definition of a consensus integrin adhesome and its dynamics during adhesion complex assembly and disassembly, is available on request.

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    Snake unlikely to have killed Cleopatra /about/news/snake-unlikely-to-have-killed-cleopatra/ /about/news/snake-unlikely-to-have-killed-cleopatra/92948Academics at The University of 野狼社区 have dismissed the long-held argument that the ancient Egyptian queen Cleopatra was killed by a snake bite.

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  • Cobras or vipers would have been too large to get unseen into the queen’s palace.
  • Unlikely Cleopatra was killed by a snake bite
  • Ancient Egyptians rightly believed that cobras were good mothers
  • Academics at The University of 野狼社区 have dismissed the long-held argument that the ancient Egyptian queen Cleopatra was killed by a snake bite. 

    Andrew Gray, Curator of Herpetology at 野狼社区 Museum, says venomous snakes in Egypt -  Cobras or Vipers - would have been too large to get unseen into the queen’s palace.

    He was speaking  to Egyptologist Dr Joyce Tyldesley in a new video which is part of a new online course introducing ancient Egyptian history, using six items from the Museum’s collection.

    According to Dr Tyldesley, the ancient accounts say a snake hid in a basket of figs brought in from the countryside, and was also used to kill one or two of her serving maids.

    But according to Andrew Gray, Cobras are typically 5 to 6 feet long but can grow up to 8 feet – too big to hide very easily.

    There would also be too little time to kill 2 or 3 people-  because snake venom kills you slowly-  with in any case only a 10 per cent chance of death.

    He said: “Not only are Cobras too big, but  there’s just a 10 per cent chance you would die from a  snake bite: most bites are dry bites that don’t inject venom.

    “That’s not to say they aren’t dangerous: the venom causes necrosis and will certainly kill you, but quite slowly

    “So it would be impossible to use a snake to kill  2 or 3 people one after the other. Snakes use venom to protect themselves and for hunting – so they conserve their venom and use it in times of need.”

    Cleopatra is strongly associated with snakes, like many ancient Egyptian kings and queens of Egypt. In addition, Cleopatra also believed she was the embodiment of the Goddess Isis, who can take on the form of a snake.

    Dr Tyldesley, who’s book Cleopatra: Egypt's Last Queen was a BBC Radio 4 book of the week, says one aspect of the accounts has proved to be correct. The ancient Egyptians believed snakes were good mothers.

    “Very few snakes have a maternal instinct. However, the cobra is an exception: they sit on the nest and protect them until they hatch. So in this case, it seems the Egyptians were right,” agrees Dr Gray

    The free Massive Open Online Course (MOOC), ‘A History of Ancient Egypt’, launches on 26 October.

    Dr Tyldesley added: “The MOOC includes behind-the-scenes access at the Museum and detailed descriptions of many objects from our Egypt and Sudan collection.”

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    Wed, 21 Oct 2015 15:00:00 +0100 https://content.presspage.com/uploads/1369/500_cleopatratempleimage.jpg?10000 https://content.presspage.com/uploads/1369/cleopatratempleimage.jpg?10000
    Flies can make a buzz in schools /about/news/flies-can-make-a-buzz-in-schools/ /about/news/flies-can-make-a-buzz-in-schools/91711

    Flies can make a buzz in schools

    Researchers from The University of 野狼社区 have developed a new way of teaching which could improve the way biology is taught at schools.

    Professor Andreas Prokop and colleague Sanjai Patel say the fruit fly - or Drosophila - can be used as a modern teaching tool to explain many biological concepts used in the school curriculum.

    In a UK first, the scientists based at the University’s 野狼社区 Fly Facility have launched – a website with sample lessons and teaching resources for schools.

    Professor Prokop said: “Fruit flies are a fantastic resource for schools as Drosophila is the conceptually best understood animal there is.

    “It is used by over ten thousand scientists worldwide for cutting edge research, and it is easy to keep in schools for captivating, exciting experiments which bring life into the classroom.”

    According to the researchers, the flies are easy and cheap to breed; the equivalent of London's population can be kept on a handful of laboratory trays.

    The project website contains supporting documents and additional information to engage students who want to know more about Drosophila and help teachers who want to use flies in their lessons.

    "Currently we have resources for teaching classical genetics, statistical analysis of experiments, concepts of nervous system function, the gene to protein concept, principles of enzyme function, genetic variation and Darwinian evolution. All with flies," he explained

    He has even created a computer game where flies develop from eggs and spawn against time and parasites. To play the game visit

    To adapt resources to teachers' needs, Prokop and Sanjai supervised two PhD students, funded by the Biotechnology and Biological Sciences Research Council, who worked as teaching assistants in two 野狼社区 schools

    The students then developed biology sample lessons in close collaboration with the teachers which can be downloaded from the

    The lessons continue to be used in the two schools: Loretto college and Trinity Church of England High school

    Professor Prokop added: "Flies have all the ingredients to convey conceptual understanding of biology as well as the thrill and relevance of science as a subject and future career perspective."

    Surita Lawes, Head of Faculty at Loreto Sixth Form College, who is also a biology teacher, said: “By studying mutations in Drosophila, our students have been exploring how alcohol and human culture affects our genetic make-up. It’s an excellent way for teachers to meet the challenge of revising many areas of the new linear syllabus using a topic designed to spark an interest.”

    Tof Apampa, a student at Trinity Church of England High School said: “ "It was great having the PhD student working with us. We learnt about what we can study at university and how fruit flys can help scientists explain how the human body works.

    “Having the flies in the classroom was good fun. It was so clear to see how the old flies were less mobile then the young ones.

    “We then learnt how this can help us understand aging in humans. It also showed in a really clear way how using a large sample size is important when we are looking for patterns in scientific data."

    • New way of teaching biology
    • The fly equivalent of London's population can be kept on a handful of laboratory trays.
    • Fly computer computer game developed

    If you want know how and why fruit flies became so important for biology research, Prokop and Patel have even created two very entertaining educational YouTube videos.

    For more information visit

    To download the teaching packs and support information for teachers, visit the droso4schools website: https://droso4schools.wordpress.com

    All school- resources including computer game and YouTube videos are explained and summarised on this blog: https://poppi62.wordpress.com/2015/08/28/school-flies

    Prof Prokop is available for interview

    Surita Lawes from Loreto Sixth Form College and Catherine Alnuamaani from‎ Trinity Church of England High School are available for comment. Filming may be possible in the schools

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    Wed, 14 Oct 2015 09:10:00 +0100 https://content.presspage.com/uploads/1369/500__jil2161.jpg?10000 https://content.presspage.com/uploads/1369/_jil2161.jpg?10000
    University of 野狼社区-led research shows treatment for rare bleeding disorder is effective /about/news/university-of-manchester-led-research-shows-treatment-for-rare-bleeding-disorder-is-effective/ /about/news/university-of-manchester-led-research-shows-treatment-for-rare-bleeding-disorder-is-effective/91106

    Researchers in 野狼社区 have demonstrated for the first time the relative safety and effectiveness of treatment, eltrombopag, in children with persistent or chronic immune thrombocytopenia (ITP), as part of an international duo of studies. 

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  • ITP is an autoimmune disorder where the immune system attacks platelets and blood fails to clot as it should
  • The studies demonstrate that eltrombopag is well tolerated and effective, consistently stabilising the platelet count
  • Researchers in 野狼社区 have demonstrated for the first time the relative safety and effectiveness of treatment, eltrombopag, in children with persistent or chronic immune thrombocytopenia (ITP), as part of an international duo of studies. 

    The results of the studies conducted in 野狼社区 by the ITP Centre, in partnership with the (CRF), both based at Royal 野狼社区 Children’s Hospital were published in and .

    ITP is an autoimmune disorder where the immune system attacks platelets and blood fails to clot as it should.  Four in every 100,000 children develop the disorder each year globally.  The symptoms of ITP include bleeding and bruising more easily.  Frequent nose bleeds and bleeding from the gums can be common, and bruising often appears as purple patches or tiny red spots on the skin. On rare occasions bleeding can be life threatening.

    The condition may resolve by itself, but for one in every four of the affected children, the condition becomes chronic persisting after primary intervention and lasting for more than twelve months.  For eight-year-old George, a patient from Royton near Rochdale who was involved in the study, having chronic ITP meant frequent visits to A&E for nose bleeds that wouldn’t stop and he would also miss out on social activities.

    George’s mum, Joanne, explains: “George was diagnosed when he was four years old. I’d find myself chasing after George trying unsuccessfully to wrap a very active little boy in cotton wool.  On this new treatment, George can make the most of his childhood and he recently celebrated his eighth birthday with friends in style at a trampoline park.”

    Historically, second-line treatment options for children with ITP have been scarce and, one of the earliest options, surgical removal of the spleen (splenectomy) was associated with a high risk of sepsis and thrombosis.  A better understanding about the underlying cause of ITP led to the development of the use of newer immunosuppressant agents, including rituximab.  More recently, thrombopoietin receptor agonists (e.g. eltrombopag) have been approved for the treatment of thrombocytopenia in adult patients with chronic ITP who have had an inadequate response or are intolerant to other treatments.

    Chief investigator, , Consultant Paediatric Haematologist and Honorary Lecturer at The University of 野狼社区, explains: “The studies, funded by , provide clinicians with much needed evidence to help decide when eltrombopag would benefit paediatric patients and provide dosage regimens suitable for paediatric patients. 

     

    “The studies demonstrate that eltrombopag is well tolerated and effective, consistently stabilising the platelet count to over 50 X 109 per litre within 2–6 weeks for 40 per cent of children receiving the treatment, compared with 0 per cent on the placebo arm.”  

    Life Sciences Minister George Freeman MP said: “This important research has the potential to bring real benefits to children suffering from rare and life threatening bleeding disorders. By investing more than £1 billion a year through the National Institute for Health Research we are giving our world leading life sciences sector the ability to trial the latest 21st century medical breakthroughs.”

    Professor Nick Webb, Director of the NIHR / Wellcome Trust 野狼社区 CRF adds: “The first ever patient to be recruited to a clinical trial at our clinical research facility in 野狼社区 was also the first patient globally to be recruited into the ITP study.  This research will enable patients to be more actively involved in school and social activities, and is also an historical milestone for the clinical research facility – affirming the value of having a dedicated children’s research facility to test and tailor treatments to children’s needs.” 

    On the back of these studies eltrombopag was licenced by the FDA for use in children >1 year old.  EU licencing for this application is currently in progress.

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