Single Ratio Predicts the Organization of the Mammalian Visual Cortex – Technology Networks

Researchers have explained how visual cortexes develop uniquely across the brains of different mammalian species. A KAIST research team led by Professor Se-Bum Paik from the Department of Bio and Brain Engineering has identified a single biological factor, the retino-cortical mapping ratio, that predicts distinct cortical organizations across mammalian species.This new finding has resolved a long-standing puzzle in understanding visual neuroscience regarding the origin of functional architectures in the visual cortex. The study demonstrates that the evolutionary variation of biological parameters may induce the development of distinct functional circuits in the visual cortex, even without species-specific developmental mechanisms.

In the primary visual cortex (V1) of mammals, neural tuning to visual stimulus orientation is organized into one of two distinct topographic patterns across species. While primates have columnar orientation maps, a salt-and-pepper type organization is observed in rodents.

For decades, this sharp contrast between cortical organizations has spawned fundamental questions about the origin of functional architectures in the V1. However, it remained unknown whether these patterns reflect disparate developmental mechanisms across mammalian taxa, or simply originate from variations in biological parameters under a universal development process.

To identify a determinant predicting distinct cortical organizations, Professor Paik and his researchers Jaeson Jang and Min Song examined the exact condition that generates columnar and salt-and-pepper organizations, respectively. Next, they applied a mathematical model to investigate how the topographic information of the underlying retinal mosaics pattern could be differently mapped onto a cortical space, depending on the mapping condition.

The research team proved that the retino-cortical feedforwarding mapping ratio appeared to be correlated to the cortical organization of each species. In the model simulations, the team found that distinct cortical circuitries can arise from different V1 areas and retinal ganglion cell (RGC) mosaic sizes. The team's mathematical sampling model shows that retino-cortical mapping is a prime determinant in the topography of cortical organization, and this prediction was confirmed by neural parameter analysis of the data from eight phylogenetically distinct mammalian species.

Furthermore, the researchers proved that the Nyquist sampling theorem explains this parametric division of cortical organization with high accuracy. They showed that a mathematical model predicts that the organization of cortical orientation tuning makes a sharp transition around the Nyquist sampling frequency, explaining why cortical organizations can be observed in either columnar or salt-and-pepper organizations, but not in intermediates between these two stages.

Professor Paik said, "Our findings make a significant impact for understanding the origin of functional architectures in the visual cortex of the brain, and will provide a broad conceptual advancement as well as advanced insights into the mechanism underlying neural development in evolutionarily divergent species."

He continued, "We believe that our findings will be of great interest to scientists working in a wide range of fields such as neuroscience, vision science, and developmental biology."ReferenceJang et al. (2020) Retino-Cortical Mapping Ratio Predicts Columnar and Salt-and-Pepper Organization in Mammalian Visual Cortex. Cell Reports. DOI: https://doi.org/10.1016/j.celrep.2020.02.038

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More Than a Nice Coating – Technology Networks

Researchers at the Netherlands Institute for Neuroscience (NIN) have shown that specialized aggregates of molecules enwrapping nerve cells in the brain, the perineuronal nets, are crucial for regulating the connections between nerve cells that control motor memories. The discovery provides novel insight into how memories are formed and stored in the brain.Perineuronal nets influence learningAs the brain becomes older, the contacts between nerve cells (synapses) become less flexible, because they are encased in a meshwork of proteins and carbohydrates called a perineuronal net. In the current study, researchers of the NIN (Verhaagen group and De Zeeuw group), in collaboration with the University of Turin and the University of Cambridge, induced a remarkable remodeling of cerebral synapses. They improved the learning abilities of mice by using a powerful molecular tool to degrade the perineuronal nets. However, the capability of the mice to remember what they had learned was disturbed, indicating that the storage of acquired information requires intact perineuronal nets. This is the first time that it has been shown that changes in perineuronal nets are instrumental for motor learning and memory, says Daniela Carulli, researcher at the NIN and first author of this study.Changing of perineuronal netsChildren have the capability to learn much better than adults, from mastering a new language to playing a musical instrument. This is possible thanks to the flexibility (or plasticity) of the connections between nerve cells in young brains. Plasticity also allows a faster recovery from brain injury. We discovered that perineuronal nets exert tight control on learning and memory in the adult brain, explains Carulli. The researchers investigated a well-characterized type of learning, called eyeblink conditioning, that depends on the cerebellum, a brain region involved in motor functions. Our results indicate that perineuronal nets are diminished during the learning phase of eyeblink conditioning, but are restored at later stages, when memories are consolidated, Carulli continues.

Much still needs to be known as to how exactly perineuronal nets regulate plasticity, and, thereby cognitive functions. This is crucial in view of finding therapeutic strategies to tackle cognitive decline in the elderly or in patients with neurological disorders.ReferenceCarulli et al. (2020) Cerebellar plasticity and associative memories are controlled by perineuronal nets. PNAS. DOI: https://doi.org/10.1073/pnas.1916163117

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University of Plymouth: Calibrating students for career success – Study International News

Prospective international students who are looking for a university that moulds career-ready graduates might want to consider the University of Plymouth in England. Plymouth boasts of several accolades under its belt, including being among the top 10 UK Young University in the 2019 Times Higher Education Young University Rankings.

It is also ranked eighth in the world and best in the UK for the quality and impact of its engineering research in the Marine and Ocean Engineering category of the Shanghai Ranking Global Ranking of Academic Subjects 2019.

Students can choose from a wide range undergraduate and postgraduate degrees across various fields, including the biological sciences; business, management, marketing, finance and maritime and logistics degree courses; chemistry; engineering and psychology, to name a few.

Meanwhile, postgraduate students keen on advancing their knowledge and skills in psychology also have numerous options to choose from, be it Plymouths MSc Psychology, MSc Advanced Psychology, MSc Clinical Psychology or even MSc Human Neuroscience programme.

There is also a range of postgraduate research degrees across all areas of their world-leading research from digital art and dance to dentistry and geochemistry, to cater to varied interests.

At the heart of Plymouths programmes are carefully curated courses that ensure students have numerous opportunities to put theory into practice, be it via their hands-on learning approach or work placement opportunities.

For instance, at the undergraduate level, students can enrol in the BSc (Hons) Psychology if they are keen on discovering how thoughts, feelings and motivations shape our behaviour. The programme offers a hands-on approach to learning across social, developmental, clinical and cognitive psychology and neuroscience, thus providing students with the skills relevant across a range of careers, from education and health to business and the media.

Calvin So Chun Kit. Source: University of Plymouth

International student Calvin So Chun Kit said that his PSYC519 Research Skill in Practice 1 class is highly applicable for aspiring researchers whilePSYC514 Individual Differences, Social and Developmental Psychology class is ideal for students aspiring to branch into research or academia.

The 21-year-old BSc (Hons) Psychology student from Singapore felt that every module has much real-world application as it encourages students to use their integrated knowledge to effectively assess any given situation. Coupled with Plymouths lecturers and teaching staff who are really nice and approachable, Plymouth serves as an excellent place of study for international students.

The university also offers a variety of scholarships for international students who meet the eligibility criteria.

Students enrolled in the programme have the opportunity to spend their second year abroad or pick an optional psychology placement year (in their third year) to gain invaluable work experience that boost their career prospects. For the latter, students are free to apply to one of the organisations that regularly offer placements to Plymouths students, or find their own host anywhere in the world, giving them the platform to volunteer for work overseas.

Other opportunities that promote deeper learning and thinking include the Research Apprentice Scheme where students can work on real research projects, or the Student Council that helps to run the School.

These carefully chosen experiences are supported by reflection, critical analysis and synthesis, providing students with the critical framework that would help them understand what it is like to be a health professional.

Plymouths approach in ensuring their students benefit from these experiences are backed by research.

Experiential learning is paramount in enhancing a high-level of retention among students. Studies note that it helps increase students interest, making the absorbing of complex material easier. Plymouth also exposes its undergraduate students to high-level research to promote deeper learning. The skills students gain by conducting research also translates into sought-after skills that make them attractive among employers, in addition to serving as excellent preparation for graduate studies.

Coupled with Plymouths state-of-the-art facilities, which include the Babylab a research lab for the cognitive psychology of child development in addition to the Brain Research and Imaging Centre (BRIC) an advanced multi-modal brain imaging facility students are fully supported to achieve career success.

This culminates in helping students explore their potential strengths and challenges in their future jobs, making them better prepared for the working world.

These factors only lead to one conclusion: The University Plymouth has all it takes to prepare graduates for career success. Apply today.

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Psychology: A pathway leading to diverse career prospects

Explore the many facets of psychology at the University of Central Lancashire

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Global Motor Neuron Diseases Treatment Market Insights 2019-2025 | NIH, UCL Institute of Neurology, National Neuroscience Institute, The University of…

The report involves insightful data on the main sectors of the Global Motor Neuron Diseases Treatment Market. The report has segmented market, by its types and applications. Each segment has analyzed completely on the basis of its production, consumption as well as revenue. Further, it is classified on the basis of geographical areas which include: North America, Europe, Asia Pacific, Latin America, Middle East and Africa.

The study on the Motor Neuron Diseases Treatment market provides complete report on changing market trends for this market. It offers market size and share of each separate segment in the market. Many companies are involved in this market. Top players are completely profiled in this report.

Our best analysts have surveyed the market report with the reference of inventories and data given by the key players:

NIHUCL Institute of NeurologyNational Neuroscience InstituteThe University of MelbourneThe University of SheffieldOZBiosciencesThe University of QueenslandMND Australia

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This Motor Neuron Diseases Treatment market research report surrounds importance on:

Global Motor Neuron Diseases Treatment Market Split by Product Type and Applications:

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RiluzoleNusinersenPhysical TherapyRespiratory TherapyOthers

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Multidisciplinary ClinicsHospitalsSocial Work FacilitiesOthers

The report exerts historical data analysis, present market prospects, and future market outlook for the period between 2014 and 2026. Regional insights on the Motor Neuron Diseases Treatment market around several geographies has been covered in this insightful study, coupled with country-level analysis. Influential market dynamics across regional segments are slated in the report, with their magnitudes differing from country to country.

The report has been offered by the report, with respect to various prominent players operating in the market. Information about the strategic alliances, acquisitions, mergers, expansion initiatives, SWOT analysis, key innovations, product developments and company overview of the market players have been provided in the concluding chapter of this report.

This report can assist its readers in attaining research objectives and accomplishing business milestones over the years to follow.

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There are 13 Sections to show the global Motor Neuron Diseases Treatment market:

Chapter 1: Market Overview, Drivers, Restraints and Opportunities, Segmentation overviewChapter 2: Market competition by ManufacturersChapter 3: Production by RegionsChapter 4: Consumption by RegionsChapter 5: Production, By Types, Revenue and Market share by TypesChapter 6: Consumption, By Applications, Market share (%) and Growth Rate by ApplicationsChapter 7: Complete profiling and analysis of ManufacturersChapter 8: Manufacturing cost analysis, Raw materials analysis, Region-wise manufacturing expensesChapter 9: Industrial Chain, Sourcing Strategy and Downstream BuyersChapter 10: Marketing Strategy Analysis, Distributors/TradersChapter 11: Market Effect Factors AnalysisChapter 12: Market ForecastChapter 13: Motor Neuron Diseases Treatment Research Findings and Conclusion, Appendix, methodology and data source

Scope of Motor Neuron Diseases Treatment Market Report:

Report provides factors that are contributing to and influencing the expansion of the global Motor Neuron Diseases Treatment market. It projects the market assessment for the predicted time. It also provides various drivers that are boosting the market. Moreover, the major product type and segments are covered with their complete analysis in the report. Applications with different segment are overviewed in the report.c

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BIN1 deficit leads to impaired spatial learning and memory – The Medical News

Reviewed by Emily Henderson, B.Sc.Mar 11 2020

Bridging integrator 1, known as BIN1, is the second most common risk factor for late-onset Alzheimer's disease, according to genome-wide studies of genetic variants. Yet, scientists know little about what this protein does in the brain.

Now a new preclinical study has discovered that a lack of BIN1 leads to a defect in the transmission of neurotransmitters that activate the brain cell communication allowing us to think, remember and behave. Led by Gopal Thinakaran, PhD, of the University of South Florida Health (USF Health) Morsani College of Medicine and colleagues at the University of Chicago, the study was published March 10 in Cell Reports.

Approximately 40% of people with Alzheimer's disease have one of three variations in the BIN1 gene - a glitch in a single DNA building block (nucleotide) that heightens their risk for the neurodegenerative disease, said the paper's senior author Dr. Thinakaran, a professor of molecular medicine at the USF Health Byrd Alzheimer's Center and associate dean for neuroscience research at the Morsani College of Medicine.

Our findings that BIN1 localizes right at the point of presynaptic communication and may be precisely regulating neurotransmitter vesicle release brings us much closer to understanding how BIN1 could exert its function as a common risk factor for Alzheimer's disease. We suspect it helps control how efficiently neurons communicate and may have a profound impact on memory consolidation - the process that transforms recent learned experiences into long-term memory."

Dr. Gopal Thinakaran, paper's senior author

The research team created a mouse model in which the BIN1 gene was selectively inactivated, or knocked out, to characterize the protein's normal function in the brain. In particular, they used advanced cell and molecular biology techniques to investigate the role of BIN1 in regulating synapses associated with learning and memory.

To frame the study results, it helps to know that a healthy human brain contains tens of billions of brain cells (neurons) that process and transmit chemical messages (neurotransmitters) across a tiny gap between neurons called a synapse. In the Alzheimer's disease brain, this synaptic communication is destroyed, progressively killing neurons and ultimately causing a steep decline in memory as well as other signs of dementia. Individuals most susceptible to developing full-blown Alzheimer's in later life are those who lose the most synapses, Dr. Thinakaran said.

Among the Cell Reports study highlights:

The study authors conclude that altogether their work highlights a non-redundant role for neuronal BIN1 in presynaptic regulation and "opens new paths for the future investigation of the precise role of BIN1 as a risk factor in Alzheimer's disease pathophysiology."

Source:

Journal reference:

De Rossi, P., et al. (2020) Neuronal BIN1 Regulates Presynaptic Neurotransmitter Release and Memory Consolidation. Cell Reports. doi.org/10.1016/j.celrep.2020.02.026.

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BIN1 deficit leads to impaired spatial learning and memory - The Medical News

March: STEM BME event | News and features – University of Bristol

Last month, BME pupils from City Academy in Bristol got their first taste of Science, Technology, Engineering and Maths (STEM) thanks to black students and professionals from the Schools of Biochemistry, Chemistry, Mathematics and CAME Engineering.

Aiming to encourage black pupils from City Academy to come to University, and to consider wider careers in STEM subjects, the event showcased the roles of black engineers and scientists and was inspired by discussions with the Assistant Principal for Inclusion at City Academy in Bristol Aisha Thomas. In a 2018 study, Aisha found that there are 26 black working teachers in Bristol's secondary schools, out of more than 1,300 across the city and found that this lack of representation is one of the factors that leads to low inclusion of black students in Higher Education.

Thirty-one pupils from City Academy attended the event, listening to talks from Professor Tanniemola Liverpool (Mathematics, University of Bristol) and Benjamin Omasanuwa (Head of Mechanical Engineering Design Office, Safran Seats GB).

The pupils also took part in demonstrations including practical sessions on forensic science, ink-jet printing and a demonstration of a Chaotic pendulum by Mictroy Mitchell. Mictroy was born in Kingston, Jamaica, but when he came to the UK, he went to City Academy. After working in the railway engineering sector, he moved to the University of Bristol as a Research Technician in the Earthquake Laboratory.

Mictroy said: "I love giving back to the community. It fills my soul with joy knowing that I am helping and inspiring the younger generation."

The event was set up by Lara Lalemi, a Chemistry student who last year organised the Being BME in STEM workshop and report, which highlighted the need for work around the inclusion of minority groups.

Lara said: "In the current climate, where there is a lack of domicile BME students studying a STEM subject, this event endeavoured to show the fun side of chemistry, biochemistry and engineering, encouraging young students to consider studying them in higher education. We want to inspire the next generation of scientists, mathematicians and engineers and this event is work towards that."

Professor Stephen Eichhorn, co-organiser of the event, said: "As a white-male Professor in the UK I represent the majority in my profession. It is important to recognise that barriers to access Higher Education, particularly in STEM subjects, are significant. This is especially true for black students and professionals.

"We need to increase opportunities and routes into Higher education. One size does not fit all. We also need to increase representation of black educators in Higher Education. If we don't do this, we miss out on great talent pools of potential."

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Diana Scott Beattie, Ph.D. is being recognized by Continental Who’s Who – PRNewswire

MORGANTOWN, W.Va, March 11, 2020 /PRNewswire/ --Diana Scott Beattie, Ph.D. is being recognized by Continental Who's Who as a Pinnacle Professional Achiever in the field of Bio Chemistry Research.

Now retired, Dr. Beattie worked in bio-chemistry for over sixty years, establishing herself as a hard working researcher in the field of biological sciences. Before retirement, she was very fond of researching, using creativity, and working with students at West Virginia University School of Medicine. For twenty-one years, she served as Chair for the Department of Biochemistry, taking on the position of Chair for both the Departments of Biochemistry and Molecular Pharmacology for the last five years of her tenure. She has stated that, "the work was often challenging, but interesting and fun".

By listening to presentations at research forums, dissertation proposals, and defenses, Dr. Beattie gained a greater understanding of the varied research interests delivered by the biochemistry department. She and her students helped the department achieve major contributions to science, which resulted in the department being praised for their educational outcomes in both biochemistry and pharmacology. Overall, she has helped to shape the reputation of West Virginia University School of Medicine held by the larger scientific community.

Prior to embarking on her professional journey, Dr. Beattie earned a Bachelor of Arts with high honors in Biology from Swarthmore College. She then went on to earn a PhD in Biochemistry from the University of Pittsburgh. Upon retirement, she was appointed Professor Emeritus at the West Virginia University School of Medicine.

Dr. Beattie is affiliated with the National Board of Medical Examiners, American Cancer Society, and Christian Help. She has served for two years on the administrative board of the West Virginia University Retirees Association.

When not at work, she can be found at volunteer centers where she distributes free meals, toys, and clothing donations for those who are in need.

In her spare time, Dr. Beattie enjoys spending time with her four children and raising her grandchildren.

She would like to dedicate this recognition in memoriam to Seymore Koritz, Ph.D., and Liviu Clejan, Ph.D.

Contact: Katherine Green, 516-825-5634, [emailprotected]

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http://www.continentalwhoswho.com

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Bench-top Veterinary Biochemistry Analyzers Market Overview with Detailed Discussion of Key Vendors, Business Trends and Driver Forecast to 2020 2027…

The Global Bench-top Veterinary Biochemistry Analyzers Market is highly consolidated, and the leading players in the industry have undertaken strategic initiatives, including product launches, regional expansion, agreements, joint ventures, partnerships, mergers and acquisitions, and others to strengthen their presence in the global industry. The research study encompasses the market shares held by the major regions in the Bench-top Veterinary Biochemistry Analyzers sector viz., North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa.

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Idexx LaboratoriesAbaxisHeskaFuji FilmDiaSys Diagnostic SystemsRandox LaboratoriesLITEONURIT Medical ElectronicScil Animal CareBPC BioSedAMS AllianceCarolina Liquid ChemistriesCrony InstrumentsiCubio

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AutomaticSemi-automatic

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Veterinary HospitalsVeterinary Clinics

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**Customized Report with a 2-level country break-up is availableNorth AmericaEuropeAsia PacificLatin AmericaMiddle East & Africa

The timeline considered in the Global Bench-top Veterinary Biochemistry Analyzers market study is as follows: Historical Years: 2016-2018 Base Year: 2019 Estimated Year: 2020 Forecast Years: 2020 to 2026

Competitive Analysis [Perfect Competition; C4 Index above 50% of Total Market Share]

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Key Stakeholders: Bench-top Veterinary Biochemistry Analyzers Manufacturers Bench-top Veterinary Biochemistry Analyzers Distributors and Suppliers Bench-top Veterinary Biochemistry Analyzers Feedstock suppliers Vendor Landscape Downstream Buyers

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Automatic Veterinary Biochemistry Analyzer Market 2020 By Top Key Players/Manufacturers, Type and Application, Regions, Industry Analysis, Growth,…

The latest research report on the Automatic Veterinary Biochemistry Analyzer Market published by Verified Market Research provides a profound awareness of the various market dynamics such as Trends, drivers, challenges and opportunities. The report explains in more detail the micro and macroeconomic elements that are expected to influence the growth of the Automatic Veterinary Biochemistry Analyzer Market over the forecast period (2020-2026).

The Global Automatic Veterinary Biochemistry Analyzer Market is growing at a faster pace with substantial growth rates over the last few years and is estimated that the market will grow significantly in the forecasted period i.e. 2019 to 2026.

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The Automatic Veterinary Biochemistry Analyzer Market has been divided into several important areas, including applications, types and regions. Each market segment is intensively examined in the report to take into account its market acceptance, value, demand and growth prospects. The segmentation analysis helps the customer to adapt their marketing approach so that they better master each Segment and identify the most potential customer base.

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In terms of Region, this research report covers almost all major regions of the world, such as North America, Europe, South America, the Middle East, Africa and the Asia-Pacific region. Growth is expected for the regions of Europe and North America in the coming years. While the Automatic Veterinary Biochemistry Analyzer Market in the regions in the Asia-Pacific region is expected to show remarkable growth in the forecast period. Cutting-edge technology and innovation are the key features of the North America Region, and this is why the US dominates global markets most of the time. The Automatic Veterinary Biochemistry Analyzer Market in the South America region is also expected to grow in the near future.

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U of T researchers hunt for antivirals to treat COVID-19 patients – News@UofT

Researchers from the University of Torontos Donnelly Centre for Cellular and Biomolecular Research are working on developingantivirals that can combat thenovel coronavirus outbreak.

Led bySachdev Sidhu, a professor of molecular genetics, the team will apply their protein engineering technology to identify promising therapeutics.

We have diverse expertise on our team from across U of T and the University of Manitoba, which is renowned for its virology research, and we have already demonstrated that we can engineer proteins that inhibit MERS, a related coronavirus, says Sidhu, who, in addition to the Donnelly Centre holds cross appointments in the Faculty of Medicine and at the Institute of Biomaterials and Biomedical Engineering. We will now expand on this work to design therapeutics for COVID-19.

The team recently received almost $900,000 over two years from the federal government through a rapid funding competition announced on Feb. 10 to address the COVID-19 outbreak.

Sidhu is collaborating withRoman Melnyk, a senior scientist at the Hospital for Sick Children and assistant professor of biochemistry at U of T, andBrian Mark, a structural virologist and professor at the University of Manitoba. In a 2016 proof-of-principle study withMarjolein Kikkert, a virologist at Leiden University in the Netherlands, they applied a protein engineering pipeline developed by Sidhus team to create proteins that inhibit a related coronavirus that caused the Middle East Respiratory Syndrome (MERS) outbreak in 2012.

Wei Zhang, then a post-doctoral researcher in Sidhus lab and now an assistant professor at the University of Guelph,received a national innovation award for this research.

The researchers now plan to use the same strategy to battle the coronavirus behind the COVID-19global health crisis, which the World Health Organization today declared a pandemic.

Since the outbreak began in China in late 2019, the virus has spread to every continentexcept Antarctica, with more than 120,000 confirmed cases and more than 4,000 deaths, according to the latest figures. And while researchers around the world are racing to develop a vaccine, that is only a part of the solution, Sidhu says.

Even if a vaccine becomes available, not everyone is going to get vaccinated, says Sidhu. We see that with the flu the vaccination rates are far from 100 per cent. Should the virus become endemic and end up circulating in the population like the flu, medicines that stop the virus from replicating in an already infected person will be as important as vaccines, which prevent infection, according to Sidhu.

Jacky Chung, a research associate in the Sidhu lab, will spearhead the project by first engineering proteins that can inhibit the virus. The team will then search for small molecules that behave in the same way since they are easier to develop into therapeutics than proteins.

It's important to get the therapeutic inside the cells, which is where the virus replicates, says Chung. And small molecules can get into cells much more readily than proteins, which are much larger.

At the heart of the approach lies a protein called ubiquitin, named for being present in all plant and animal cells. Ubiquitin is an essential part of the cellular machinery that the virus hijacks for its own benefit. Upon infection, the virus releases proteins that interfere with human ubiquitin and allow it to bypass the hosts defence system and spread in the body.

To block the virus, the researchers will create synthetic ubiquitin variants (UbV) that thwart rather than aid its ability to replicate. By analyzing the molecular structures of different UbVs bound to the viral protein, they will gain clues into the kinds of small molecules that are most likely to be effective against the virus.

Sidhu says that, within two years, they should have candidate molecules that could be developed into therapeutics. We know there are literally armies of medicinal chemists and various companies that could then optimize the molecule into a drug that can be given to humans, says Sidhu who was previously at pharmaceutical giant Genentech and has founded six startups since joining the university.

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U of T researchers hunt for antivirals to treat COVID-19 patients - News@UofT