Meticulous study of the Global Biochemical Sensors Market elaborates on significant market drivers, restraints, and present revenue forecast up to 2025.

The global Biochemical Sensors market has been growing at a steady CAGR for the last decade and is expected to report sizable growth rates during 2020-2025. Owing to the upsurging end-users industry, the demand for the Biochemical Sensors is holding the finest grip on the revenue share. Industrialization in developing and developed regions, rapidly rising demand, increasing product awareness, leaping disposable incomes, product innovation, a stable market, and growing purchasing confidence among Biochemical Sensors consumers are likely to accelerate market profitability by the end of 2025.

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The latest research report published byMarket Research Exploreenfolds crucial details, facts, and estimates based on the global Biochemical Sensors market performance of the current and forthcoming sitch. It explores every significant facet of the market that holds the potential to influence, govern, impact, or hinder Biochemical Sensors market growth momentum. Also, the aspects include market rivalry landscape, segments, industry environment, and top companies performing in the market are explored in the report. It also enlightens the precise evaluation of market size, share, demand, production, sales revenue, and growth rates.

Competitive landscape of the global Biochemical Sensors market:

A number of elements leading to influence the global Biochemical Sensors market structure, are also analyzed in the research report. The elements include changing market and manufacturing trends, consumption tendencies, changing dynamics, volatile production costs, pricing structure, development-boosting forces, uneven demand-supply proportions, as well as Biochemical Sensors market limitations and restraints.

The report further elucidates the leading Biochemical Sensors manufacturers in the market that has been delivering superior outcomes in order to pose their dominance in the market at global and regional levels. The report includes an analysis of their production processes, plant locations, production capacities, and product specifications to facilitate clients with a deep explanation of companies production-related factors. It also elaborates on the value chain, pricing structure, industry supply chain, organizational structure, corporate alliance, distribution network, and global presence.

Besides, the report covers insightful assessments of financial ratios, revenue, gross margin, profitability, revenue outcomes, Biochemical Sensors sales volume, and growth rates. Clients will also find extensive delineation of leading competitors strategic planning, which comprises promotional activities, brand developments, product launches as well as recent mergers acquisitions, ventures, amalgamations, and partnerships. With all these details, the global Biochemical Sensors market research study intends to offer a comprehensive lookout for market competition.

The global Biochemical Sensors market has been divided into segments such as types, applications, end-users, technologies, and regions. Detailed analysis and reliable predictions based on each market segment are highlighted in the report to offer a comprehensive scenario of Biochemical Sensors market segmentation. The geographical segments are also underscored in the report, which features North America, Europe, Asia Pacific, South America, and the Middle East and Africa. Moreover, the report provides shrewd acumen to identify and spot forthcoming business opportunities, challenges, risks, obstacles, threats, and other uncertainties.

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Biochemical Sensors Market is Anticipated to Witness a Significant Growth - Feed Road

A rare, fatal genetic disease is treated with an existing immunotherapeutic drug.

Chest radiography after two months of ruxolitinib therapy showed sufficient improvement for weaning off of mechanical ventilation.The New England Journal of Medicine 2020 A three-year-old Saudi boy is in full remission from a fatal gene deficiency following treatment with a known immunotherapeutic drug. USP18 deficiency is an extremely rare genetic disorder that impairs the immune system, with prominent symptoms including respiratory failure, accumulation of fluid in the brain, and inflammation throughout the body.

We are in the renaissance period when it comes to rapid genetic diagnosis and experimental treatment of inherited disorders, says paediatrician Dusan Bogunovic of the Icahn School of Medicine at Mount Sinai, New York. Now we know that USP18 deficiency is treatable with JAK inhibitors, if detected early.

In healthy individuals, the USP18 (ubiquitin-specific peptidase 18) gene codes for an enzyme that inhibits a part of the immune system called interferon signalling, curbing excessive inflammation. USP18 enzyme deficiency leads to abnormal inflammation across multiple tissues. The Saudi child was diagnosed with complete absence of USP18, and had been kept alive through extraordinary medical care by physicians in Saudi Arabia. Genetic and biochemical tests confirmed that oral administration of ruxolitinib, a Janus kinase (JAK) inhibitor drug used for treating certain bone marrow disorders, would be suitable for regulating the childs inflammation.

Within two months of ruxolitinib therapy, the boy was well enough to be weaned off of mechanical ventilation and is now, two years into therapy, in full remission of the clinical signs of the disorder. He is receiving follow-up treatment from an outpatient clinic and continues to grow normally, albeit with slower progress in his developmental milestones, the researchers say. The child will likely need to take ruxolitinib for the rest of his life.

Consultant paediatrician Abdullah Alangari at King Saud University, Saudi Arabia, says the study is a very good example of the value of international collaboration in helping critically ill patients and in advancing science.

Rare diseases cannot be managed alone, adds Bogunovic. Each requires expertise that very few people on the planet have, he says, commending the joint work by researchers in Saudi Arabia, France and the USA.

The clinical case study represents a significant milestone, says immunologist John Teijaro of Scripps Research Institute, USA, who was not involved in the study. This success should pave the way for utilizing ruxolitinib and other JAK inhibitors to treat additional autoimmune diseases where heightened interferon or cytokine signalling drive pathological manifestations.

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Treating the untreatable - News - Nature Middle East - Nature Middle East

The University of Redlands Mortar Board Honor Society has named Rebecca Lyons as Professor of the Year. Lyons, a chemistry professor in the College of Arts and Sciences, has been teaching at the University of Redlands for nine years.

Being a teacher in the College of Arts and Sciences is a noble calling. It is noble to assist students in the liberating joy of discovering knowledge that restructures how they see the world. It is also noble to help students take the beginning steps in a profession that will provide lifelong satisfaction, said Associate Dean of Student Engagement David Schrum.

The Professor of the Year distinction recognizes faculty members outstanding teaching abilities and important contributions to the University community. While the Mortar Board Honor Society facilitates the voting process, the nominations for the award are student-driven.

A graduate of University of Washington (B.S., biochemistry), the State University of New York College at Cortland (M.A., science education), and the State University of New York College of Environmental Science and Forestry (M.S., Ph.D., environmental chemistry), Lyons teaches nine courses in chemistry, including a May Term course in the Sierra Nevada Mountains.

She works every day to not only ensure that her students are prepared for the rigor of graduate-level work in chemistry, medical school, and work in research fields, but also makes connections that keep her students feeling seen and loved, said Associated Students of the University of Redlands President Jacob Miner 20.

Throughout her time at the University, Lyons has mentored more than two dozen research students and co-authored a number of publications and presentations alongside students.

Chemistry Club President Jared Cellini 20 spoke about how Lyons mentorship has enhanced his experience at the University of Redlands. Recalling a group hike that she led, he explained that her passion for science and the environment is felt by all of her students.

This is such an amazing group of people to be a part ofI look around at my fellow educators and Im honored to stand with you. More than anything, my students are amazing and I love them, and its really great when its reciprocated, Lyons said.

This was the 62nd year that Mortar Board undergraduates honored a distinguished faculty member who embodies the groups ideals of scholarship, leadership, and service.

Mortar Board began at the University of Redlands in 1943 as a womens senior honorary group, known as W.E.B.S., Wisdom, Excellence, Belief, and Service. In 1955, it became recognized as an official chapter of the Mortar Board National Senior Honor Society, and, in 1975, membership was opened to both men and women.

This years Mortar Board finalists for Professor of the Year also included Mathematics and Computer Science Professor Joanna Bieri, Biology Professor Caryl Forristall, Theatre Arts Professor Trevor Norton, and Biology Professor Linda Silveira.

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Rebecca Lyons named University of Redlands Professor of the Year - The Inland Empire Community

Prof. Jan Scrimgeour

Clarkson University President Tony Collins has announced that Jan Scrimgeour has been granted tenure and promoted from assistant professor to associate professor of physics in the School of Arts and Sciences.

His research interests involve the application of advanced optical microscopy for the visualization and characterization of nanostructured biological interfaces. He is especially interested in the interplay between the nanostructure, physics and biochemistry of cell-surface polymers and the roles of each in mediating interactions between tissue surfaces and the immune system. His work can shed light on chronic inflammatory conditions.

Last year, he was awarded a CAREER grant from the National Science Foundation for more than $541,000. Scrimgeour was awarded the grant for use on his project titled CAREER: Understanding the Structure and Function of the Endothelial Glycocalyx through Single Molecule Visualization.

He received his master of physics degree with first class honours in optoelectronics and laser engineering, from Heriot-Watt University, Edinburgh. He received his D.Phil. in condensed matter physics from the University of Oxford.

Before coming to Clarkson, Scrimgeour was a postdoctoral fellow at the Georgia Institute of Technology, the University of Illinois at Urbana-Champaign, and Gothenburg University in Sweden.

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Jan Scrimgeour Receives Tenure and Promotion to Associate Professor at Clarkson University - Clarkson University News

A profound analysis of the industry based on the "Biochemical Sensor Market" all over the world is named as Global Biochemical Sensor Market Report. The research report assesses the current as well as the upcoming performance of the Biochemical Sensor market, in addition to with newest trends in the market. The major player of the Biochemical Sensor market (Honeywell, TE Connectivity, NovaSensor, AMS AG, Tekscan, Measurement Specialties, Sysmex, AMETEK, Melexis, Beckman Coulter Inc, Bio-Rad Laboratories, Inc., Endress+Hauser, First Sensor Medical, Pressure Profile Systems, SMD Sensors, Microchip Technology Inc, NXP Semiconductors, BioVision Technologies, Analog)are also included in the market report. The report forecasts the future of the Biochemical Sensor market on the basis of this evaluation.

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Global Biochemical Sensor Market 2019 by Manufacturers, Regions, Type and Application, Forecast to 2025 - Exclusive Industry Reports

LAHORE - The syndicate of University of Health Sciences (UHS) has approved the affiliation of 29 institutes for start of 56 new postgraduate and undergraduate programs.

The 58th meeting of UHS Syndicate was held here on Monday with Vice Chancellor Prof Javed Akram in the chair. Prof Talat Naseer Pasha, Prof Khawaja Sadiq Hussain, Prof Humaira Akram, Prof Nadia Naseem, Prof Nasir Shah, Dr Asad Zaheer and representatives of Punjab Specialized Healthcare and Medical Education (SHC&ME) and Finance departments attended the meeting.

The syndicate approved affiliation, extension in affiliation and enhancement of seats in various institutions after considering inspection reports of the affiliation committee. It approved Doctor of Medicine (MD) in the disciplines of psychiatry, radiology, gastroenterology, nephrology, cardiology, medicine, and paediatrics to be offered in different public sector institutions.

Similarly, recommendations of the affiliation committee were approved for start of Master of Surgery (MS) in cardiac surgery, ophthalmology, neurosurgery, urology, and paediatric surgery.

The body also approved BSc programs in the disciplines of nursing, Doctor of Physical Therapy (DPT), medical laboratory technology, dental technology, dental hygiene, nutrition, cardiac perfusion, medical imaging technology, orthotics and prosthetics, optometry and audiology to be started in different public and private sector institutions.

Moreover, approval was also granted for start of MPhil Biochemistry, MSc Nursing, Diploma in Anaesthesia, and Diploma in Child Health.

The syndicate also approved the recommendations of MD/MS/MDS Reforms Committee to conduct intermediate examination on completion of 18 months of training rather than 24 months.

The policy of negative marking was also abolished for both intermediate and abridged examination in all disciplines in Central Induction Policy (CIP) scheme of MD/MS/MDS programs.

It was also decided that the candidates who would pass written component of an examination in MD/MS/MDS, but fail in clinical and oral component, would be allowed a maximum of three attempts to clear clinical and oral component of that examination, failing which they would have to take the entire examination, including written component, afresh.

The syndicate also endorsed the VCs proposal to invite online applications for grant of affiliation in future besides creation of a dedicated directorate of affiliation in the University.

The members also approved award of PhD degree to Dr Rabiea Munir in the subject of pharmacology.

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UHS approves affiliation of 29 institutes for graduate programs - The Nation

Biochemical Reagent Market Report is a complete assessment of current status, trends and respective shares of some of the most prominent players in this landscape. The study contains thoughtful insights, facts, Biochemical Reagent historical data, and statistically supported and industry-validated market data. This Biochemical Reagent report also explores Business models, Key strategies and Growth opportunities in upcoming years.

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Thermo Fisher Scientific, Beckman Coulter, Abbott, Merck & Co. Inc., Life Technologies, Bio-Rad, Water Corporation, Sigma-Aldrich, Agilent Technologies Inc., Betcon Dickinson, Roche, AB Analitica, Gesan Production, Medicalsystem Biotechnology Co. Ltd., Promega, PZ CorAugust, SENTINEL CH., Teco Diagnostics, Dickinson & Company

Global Biochemical Reagent Market insights cover traits, growth, and size, segmentation, regional retreats, competitive landscape, shares, trends, and plans. The attributes part of this Biochemical Reagent report defines and explains the growth. The market size department gives industry earnings, covering the historical growth of this and predicting the long run. Biochemical Reagent Drivers and restraints with the variables affecting the growth of this market. The segmentations divide the essential Biochemical Reagent sub-industries that form the market.

North America, China, Rest of Asia-Pacific, UK, Europe, Central & South America, Middle East & Africa

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The Biochemical Reagent analysis incorporates historical data from 2014 to 2019 and predictions until 2025 helping to make the reports a valuable resource for industry executives, promotion, product and sales managers, advisers, analysts, and different people trying to find vital Biochemical Reagent industry data in readily accessible records with clearly exhibited tables and charts.

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Biochemical Reagent Market 2019 Regions, Companies, Types and Their Applications 2025 - Finance Daily Tribune

Global Biochemical Oxygen Demand (BOD) Analyzer Market Insights Reports Acquire Market Research

The global Biochemical Oxygen Demand (BOD) Analyzer Market is comprehensively and Insightful information in the report, taking into consideration various factors such as competition, regional growth, segmentation, and Biochemical Oxygen Demand (BOD) Analyzer Market size by value and volume. This is an excellent research study specially compiled to provide the latest insights into critical aspects of the Biochemical Oxygen Demand (BOD) Analyzer market. The report includes different market forecasts related to market size, production, revenue, consumption, CAGR, gross margin, price, and other key factors. It is prepared with the use of industry-best primary and secondary research methodologies and tools.

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Manufacturer Detail: Hach, Lovibond, Xylem, Skalar, MANTECH-Inc, Mettler Toledo, Thermo Fisher Scientific, VELP Scientifica, AQUALYTIC, LAR Process Analysers, KORBI Co., Ltd.

Product Type Segmentation: Portable BOD Analyzer, Online BOD Analyzer

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The main sources are mainly industry experts in the core and related industries and manufacturers involved in all sectors of the industry supply chain. The bottom-up approach is used to plan the market size of Biochemical Oxygen Demand (BOD) Analyzer based on end-user industry and region in terms of value. With the help of data, we support the primary market through the three-dimensional survey procedure and the first interview and data verification through expert telephone, determine the individual market share and size, and confirm with this study.

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Regions covered in the market report: North America (United States, Canada and Mexico), Europe (Germany, France, UK, Russia and Italy), Asia-Pacific (China, Japan, Korea, India and Southeast Asia), South America (Brazil, Argentina, Colombia etc.), Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

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1)To study and forecast the market size of Biochemical Oxygen Demand (BOD) Analyzer in Global2)To analyze the global key players, SWOT analysis, value, and Global Biochemical Oxygen Demand (BOD) Analyzer Market share for top players.3)To identify significant trends and factors driving or constraining the growth of the market.4)To analyze competitive developments such as extensions, contracts, new product launches, mergers, and acquisitions in the market5)To strategically analyze each sub-market in regards to the individual growth trends and their influence in the Biochemical Oxygen Demand (BOD) Analyzer Market.

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2. Massive growth of Preservation Intelligent Pigging Market 2023 with high CAGR In Coming Years with Focusing Key players like T.D. Williamson, Baker Hughes, Rosen Group, etc.

3. PC as a Service Market 2019: Future Trends, Key Players: HP, Dell, Lenovo, etc.

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Massive growth of Preservation Biochemical Oxygen Demand (BOD) Analyzer Market 2023 with high CAGR In Coming Years with Focusing Key players like...

The global "Automated Biochemical Analyzers Market" report offers a planned observation of analyzed data associated to Automated Biochemical Analyzers market. The Automated Biochemical Analyzers market report offers multiple opportunities to various industries, vendors, associations, and organizations offering items and administrations BeckmanCoulter, Hitachi, Roche, KHB, ThermoScientific, Dirui, Toshiba, GaomiCaihong, Sunostik, Urit, MindrayMedical, Abbott, Senlo, TecomScience, SiemensHealthcare, Rayto by providing a huge platform for their overall expansion by competing among themselves and supplying reliable services to the consumers.

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The report conveys delivers thorough information regarding the markets major competitors as well as currently emerging organizations that hold considerable shareholdings in the market on the basis of sales, revenue, demand, superior products manufacturers, and satisfactory services providers.

On the basis of demand and methodologies currently used by the market holders, the global Automated Biochemical Analyzers Market report delivers in-depth and thoroughly analyzed forecast concerning the growth rate pattern of the market in the several coming years. Furthermore, The report presents a detailed segmentation Floor-standing, Bench-top, Market Trend by Application Primary Hospital, Prefectural Hospital, Provincial Hospital of the global market based on technology, product type, application, and various processes and systems. The market report delivers detailed information about the alterations in the types of product, its innovation and advancements that may be caused as a result of a minor deviation in the profile of the item.

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The analysis of quality and efficiency of the global Automated Biochemical Analyzers market are based on the quantitative and subjective methods to obtain a crystal-clear perception of the present and expected growth patterns. The report also includes the bifurcation of the market based on geological areas.

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There are 15 Chapters to display the Global Automated Biochemical Analyzers market

Chapter 1, Definition, Specifications and Classification of Automated Biochemical Analyzers, Applications of Automated Biochemical Analyzers, Market Segment by Regions;Chapter 2, Manufacturing Cost Structure, Raw Material and Suppliers, Manufacturing Process, Industry Chain Structure;Chapter 3, Technical Data and Manufacturing Plants Analysis of Automated Biochemical Analyzers, Capacity and Commercial Production Date, Manufacturing Plants Distribution, R&D Status and Technology Source, Raw Materials Sources Analysis;Chapter 4, Overall Market Analysis, Capacity Analysis (Company Segment), Sales Analysis (Company Segment), Sales Price Analysis (Company Segment);Chapter 5 and 6, Regional Market Analysis that includes United States, China, Europe, Japan, Korea & Taiwan, Automated Biochemical Analyzers Segment Market Analysis (by Type);Chapter 7 and 8, The Automated Biochemical Analyzers Segment Market Analysis (by Application) Major Manufacturers Analysis of Automated Biochemical Analyzers ;Chapter 9, Market Trend Analysis, Regional Market Trend, Market Trend by Product Type Floor-standing, Bench-top, Market Trend by Application Primary Hospital, Prefectural Hospital, Provincial Hospital;Chapter 10, Regional Marketing Type Analysis, International Trade Type Analysis, Supply Chain Analysis;Chapter 11, The Consumers Analysis of Global Automated Biochemical Analyzers ;Chapter 12, Automated Biochemical Analyzers Research Findings and Conclusion, Appendix, methodology and data source;Chapter 13, 14 and 15, Automated Biochemical Analyzers sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source.

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Global Automated Biochemical Analyzers Market Executive Summary and Analysis by Top Players 2019-2025 : Beckman Coulter, Hitachi, Roche, KHB, Thermo...

Based on the emerging national consensus that science is best taught and learned in an interdisciplinary context, Augustana has created a biochemistry major as a collaboration across several departments.

Find out more on our Microbiology Majors YouTube playlist.

The major is composed of classes from Biology, Chemistry, Mathematics, and Physics. The nature of how science is currently studied and implemented in the workplace heavily favors those who are readily able to integrate across these disciplines.

Students will achieve a broad background in the natural sciences that prepares them for a variety of post-graduation options, including research positions, graduate studies, professional health disciplines, biotechnology, chemical industry, and other professions.

Students graduating with a biochemistry major will have the ability to communicate in a variety of scientific languages and position themselves at the forefront of integrative scientific discovery.

Previously, students desiring to attain a degree in both biology and chemistry needed to double major, or obtain minors, in these fields. Biochemistry offers an alternative to the demanding class load required by a biology-chemistry double major. While still a large major, biochemistry offers an interdisciplinary degree for those students hoping to pursue studies across both fields.

In addition, a biochemistry major allows students greater freedom to explore a wide array of courses and areas within the liberal arts curriculum, as well as providing opportunity to further explore additional courses of interest within the sciences.

The biochemistry department will prepare you to enter employment with many skills, the most important of those being how to go about answering a question you dont know the answer to.

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Biochemistry - Augustana University

The Master of Arts in Biology in the College of Science and Technology at Temple emphasizes contemporary coursework for students to gain advanced understanding within the field of modern biology. Students are prepared for professional schools or careers in fields related to the biological sciences. The Biology MA is a part-time or full-time graduate program, and it is tailored for students seeking graduate studies in the biological sciences without experimental research in labs. Compared to the Biology MS, the Biology MA program focuses primarily on coursework and independent research and helpsyou form expertise in one or more areas of biology, such as molecular biology and genetics, among others.

As a result of thecurriculum's emphasis oncoursework, youll develop the analytical thinking skills necessary for biological research and literature review. Interdisciplinary coursework includes

All Biology MA students produce a written, nonresearch literature thesis in the final year ofthe masters program. Youll become proficient in researching, investigating and interpreting primary scientific literature. Graduates are able to writeauthoritative, critical and in-depth scientific reviews.

Although much of your time in the Biology MA program will be spent in class, youll have access to the Department of Biologys centers and institutes, including the Center for Biodiversity, the Institute for Contemporary Molecular Science and the Sbarro Health Research Organization.

Learn more about the College of Science and Technologys centers, facilities and institutes.

To earn the Biology MA, students must successfully complete the degrees culminating event, which is the masters nonresearch literature thesis. This is an original research study that presents a problem in the biological sciences based on a rigorous review of literature in the biological sciences, as well as demonstrates a students advanced knowledge of research methods and mastery of the primary area of interest.

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Biology MA | Temple University

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Dr. Dangs Lab LLP | Biochemistry & Immunology

A biochemistry degree opens up a range of highly-skilled careers that incorporate aspects of both biology and medicine

Jobs directly related to your degree include:

Jobs where your degree would be useful include:

Remember that many employers accept applications from graduates with any degree subject, so don't restrict your thinking to the jobs listed here.

Take a few minutes to answer the Job Match quiz and find out what careers would suit you

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The practical and technical skills you develop during your biochemistry degree - through laboratory-based work and your final year research project - prepare you well for a research or technical position. Obtaining some work experience, for example a summer internship in a research laboratory or company, will help to boost your chances of finding a job.

Some universities provide a four-year undergraduate course that includes an industry/research placement year. This is usually undertaken in the pharmaceutical or biotechnical industries or a research institute. Opportunities also exist to take a placement abroad, expanding your career prospects. Work placements help develop key skills further and provide opportunities for building contacts and networking.

Whatever your career plans it is important to enhance your degree with extra skills and experiences, which show that you are a proactive person engaging with the world around you.

The main employers of biochemistry graduates in the public sector are:

Opportunities exist in government laboratories such as the Food & Environment Research Agency (FERA) and public health laboratories such as Public Health England.

Biochemistry graduates are also employed in industry. Typical employers include pharmaceutical, biotechnology, food, water and agricultural companies. Small companies employ biochemists to provide specialist services, such as toxicological studies.

Other employers include scientific and medical publishers and the Intellectual Property Office (as patent examiners).

Find information on employers in science and pharmaceuticals, healthcare, teaching and education and other job sectors.

During your degree you develop specific skills associated with biochemistry, such as:

Other general skills include:

You can demonstrate your experience in these areas by giving examples from the practical work and group projects included in your degree course.

It is common for biochemists to continue their higher education if they are intending to develop a career in the biosciences. A PhD is essential for academic research or to secure a career as an academic lecturer. Even for those entering research in industry or associated careers such as publishing, science communication or clinical careers, further qualifications are an asset and increasingly essential.

If you are aiming for a career path away from science, for example in teaching, law, finance or other non-scientific careers, consider what kind of professional qualifications may stand you in good stead for getting into your chosen career. With a biochemistry degree you can also apply for graduate entry to medicine, dentistry and veterinary science.

For more information on further study and to find a course that interest you, see Masters degrees and search postgraduate courses.

A fifth of graduates are working in the UK either as biochemists, medical scientists or laboratory technicians.

More than a third of graduates go on to further study, a tenth of whom are studying towards clinical medicine.

Find out what other science graduates are doing six months after finishing their degrees in What Do Graduates Do?

Graduate destinations data from the Higher Education Statistics Agency.

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What can I do with a biochemistry degree? | Prospects.ac.uk

Although dragons are exciting, they are dangerous and expensive to house in a laboratory setting. Therefore, to investigate the genetic and molecular mechanisms underlying various (dragon) phenotypes, Biochem 390G students breed research-tractable cousins of dragons, called drakes, in the interactive, computer-based gaming environment of Geniverse. Developed by the non-profit Concord Consortium, Geniverse allows students to conduct drake breeding experiments, analyze the data, and propose hypotheses to explain the results. A Gene-to-Protein Genie illustrates the transcription of DNA and translation of RNA for relevant genes. Overall, the course spans fundamental Mendelian genetics, epigenetics, genetic engineering, and genome editing. Additionally, students in an Honors section of Biochem 390 utilize bioinformatics tools to build new drake genes, mutant alleles, and phenotypes based on investigations of the scientific literature. Honors students have, for example, created drakes whose genotypes give rise to deafness and dwarfism, cancer and cold tolerance, polydactyly, and the ability to spit spider silk. Emerita Professor Molly Fitzgerald-Hayes and Ludmila Tyler built the course, with input from Dr. Frieda Reichsman of The Concord Consortium. Biochem 390G(HH) is taught by Dr. Tyler and was offered for the second time this spring. This summer, Dr. Tyler presented a poster on students work and learning gains at the Plant Biology 2017 conference in Honolulu, Hawaii.

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Department of Biochemistry and Molecular Biology | | UMass ...

AstaReal Inc. USA has today shared its findings of its newly published clinical study on skin health in The Journal of Clinical Biochemistry and Nutrition.

Burlington, New Jersey (PRWEB) July 28, 2017

AstaReal Inc. USA, the leading producer and most studied brand of natural premium Astaxanthin, has today shared the findings of its newly published clinical study in The Journal of Clinical Biochemistry and Nutrition, confirming its natural AstaReal Astaxanthin can maintain a healthy complexion through extrinsic stressors associated with seasonal change.

Using its own Astaxanthin products, the study determined that AstaReal's Astaxanthin has been shown to reduce damaging effects on the skin caused by environmental factors such as ultraviolet rays and dehydration from low humidity, both of which often lead to wrinkles and seasonal dryness.

Throughout the 16-week-long clinical study in Japan, which lasted from August through December when damaging environmental factors such as increased UV rays and low humidity were at their highest, AstaReal's strong antioxidant capabilities were tested amongst a group of 65 female participants taking either 6 mg or 12 mg of Astaxanthin once per day or placebo. For those who took the placebo, the parameters for skin moisture content and wrinkles significantly worsened over those 16 months, while the 6 mg and 12 mg AstaReal Astaxanthin groups were not affected by seasonal environmental stressors such as UVB and low humidity.

The study also showed that production of inflammatory cytokines were suppressed in epidermal keratinocytes where UV-B induced inflammation occurred, suggesting that natural Astaxanthin suppresses inflammation of the epithelium. Normally, inflammation of this layer of the skin induces the secretion of matrix metalloproteinase-1 (MMP-1), causing the decomposition of dermal collagen.

When AstaReal's research team incubated dermal fibroblasts in the secretory fluid of UVB-irradiated epidermal keratinocytes pre-treated with Astaxanthin, suppression of MMP-1 secretion was confirmed, suggesting that natural AstaReal Astaxanthin improves resilience to wrinkle formation.

Before and after the study, samples of participants' own keratinocytes were sampled to investigate their resilience to seasonal low humidity. Upon examination, the study showed that there was an increase in cytokines associated with low humidity in the placebo group and 6 mg AstaReal group, indicating inflammation occurred in response to seasonal low humidity. Those who took 12 mg oral doses of AstaReal Astaxanthin, however, showed no increase in cytokines, confirming the proactive beauty benefits for the skin in those taking AstaReal's premium natural Astaxanthin daily.

For more information on AstaReal Inc. USA, visit http://www.astarealusa.com.

For the original version on PRWeb visit: http://www.prweb.com/releases/2017/07/prweb14543933.htm

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Newly Released Clinical Study in The Journal of Clinical Biochemistry and Nutrition Confirms AstaReal's Natural ... - Benzinga

University Relations

Jingyi Chen and Lauren Greenlee

Ammonia is the world's primary raw material for nitrogen-based fertilizer production, but producing it consumes a large amount of energy1- to 2-percent of energy consumption worldwide. The National Science Foundation has awarded $450,000 to Jingyi Chen and Lauren Greenlee to develop alternative processes for producing ammonia. The research will also lead to a more refined and environmentally softer method of producing hydrogen for energy storage and fuel and chemical production.

Chen is an associate professor of chemistry and biochemistry in the J. William Fulbright College of Arts and Sciences, and Greenlee is an assistant professor of chemical engineering in the College of Engineering. Their work supports the NSF's goal of discovering and developing sustainable energy sources.

Conventional processes for ammonia production, primarily the Haber-Bosch thermal catalytic method, rely on hydrocarbon resources for the hydrogen needed to produce ammonia. Chen and Greenlee are developing catalytic electrochemical processes, or "electrolyzers," for an alternative method of producing ammonia and hydrogen. Specifically, they focus on a method called nitrogen reduction reaction, in which nitrogen is combined with water molecules to form ammonia. They are also studying oxygen evolution reaction, during which water splits to oxygen and hydrogen. For both methods, the researchers are seeking efficient, nonprecious-metal nanocatalysts that can operate at ambient temperature rather than the high-temperature conditions required for hydrocarbon-based technologies.

The researchers will characterize iron and nickel nanostructures as bimetal catalysts and evaluate the reactivity and selectivity of these catalysts for both electrochemical processes. They will then use x-ray absorption spectroscopy to develop methods to correlate the structure and composition of the metals with electrocatalytic activity.

The goal of the project is to design a low-cost and better performing catalytic electrolyzer that can be developed for commercial production.

By integrating research and education, the project is designed to increase student participation in the fields of science, technology, engineering and math (STEM). Chen and Greenlee will recruit students from under-represented groups to participate in the research program. The researchers' findings will be integrated into teaching and curriculum development for the departments of Chemical Engineering and Chemistry and Biochemistry.

Editor-selected comments will be published below. No abusive material, personal attacks, profanity, spam or material of a similar nature will be considered for publication.

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Award Supports Novel Methods to Produce Ammonia and Hydrogen - University of Arkansas Newswire

August 29, 2017 - By Vivian Park

Shares of Beijing Leadman Biochemistry Co Ltd (SHE:300289) last traded at 12.1, representing a move of -5.1%, or -0.65 per share, on volume of 24.10 million shares. After opening the trading day at 12, shares of Beijing Leadman Biochemistry Co Ltd traded in a close range. Beijing Leadman Biochemistry Co Ltd currently has a total float of shares and on average sees shares exchange hands each day. The stock now has a 52-week low of 10.31 and high of 17.53.

Amid numerous setbacks in the past, China has still proven itself to have one of the most important economies not just in Asia but in the whole world. Trade and commerce is richly flourishing in the nation and the Shanghai Stock Exchange (SSE) is one of the reasons it does. It is also the best place to show full potential for Beijing Leadman Biochemistry Co Ltd and its colleagues.

The SSE, one of Chinas primary stock exchanges aside from the Shenzhen Stock Exchange, is a non-profit organization that is administered by the China Securities Regulatory Commission (CSRC). As of February, the SSE boasts with a market capitalization of $3.50 trillion, making it the fifth largest stock exchange in the world. In Asia, it is the second biggest stock exchange. The second biggest market in the world increased the chances of Beijing Leadman Biochemistry Co Ltd to catch attention of investors.

The SSE was established in 1866 but it had to close on December 5, 1941 when Japan invaded Shanghai. Operations did not resume until December 19, 1990.

Shortly after the relaunch of the SSE, the SSE Composite Index began operating on July 15, 1991 as the primary index measuring all stocks on the SSE based on market capitalization. It tracks companies using the Paasche weighted composite price index formula. Measuring more than 1,000 companies listed on the SSE means that the SSE Composite Index is a broad indicator of the Chinese economy. As a result, it had to have three sub-indices: 1) the SSE 380, which monitors the 380 most active companies; 2) the SSE 180, which monitors the 180 most active companies; and 3) the SSE 50, which monitors the 50 most active companies. Of course, in order to be included in the SSE 50, a company needs to first be included in the SSE 180 and the SSE 380. Similarly, in order for it to be included in the SSE 180, it first needs to be included in the SSE 380. The smaller the index, the clearer of a representation it is of the Chinese economy.

The SSE Composite Index has last seen its all-time high of 6,092.06 in October 2007, shortly before the 2008 Global Financial Crisis broke out; and its all-time low of 99.98 in December 1990 during the relaunch period of the SSE.

Companies listed on the SSE are classified into two types: 1) A shares, which are traded in yuan; and 2) B shares, which are traded in US dollar (USD). In the past, only domestic traders had been allowed to trade A shares. Foreign investors had been limited to B shares. However, the restriction was lifted in 2002, giving the Chinese economy more opportunities to grow immensely with greater foreign investments. It means more possibilities for Beijing Leadman Biochemistry Co Ltd.

The regular trading session on the SSE starts at 9:30 and ends at 11:30 in the morning and starts at 1:30 and ends at 3:00 in the afternoon. There is also a pre-market trading session that starts at 9:15 a.m. and lasts for 10 minutes.

China is Asias largest economy, which is why there is no better way to bet on the Asian trade and commerce environment than to invest on SSE stocks. Traders look on the liquidity of Beijing Leadman Biochemistry Co Ltd.

More notable recent Beijing Leadman Biochemistry Co Ltd (SHE:300289) news were published by: Businesswire.com which released: Enigma Diagnostics Signs Joint Venture Agreement with Beijing Leadman on October 22, 2014, also Businesswire.com with their article: Research and Markets: Diagnostic Reagent Industry in China 2015 published on June 09, 2015, Prnewswire.com published: China In-vitro Diagnostic Reagent Industry Report 2017-2021 Research and Markets on April 21, 2017. More interesting news about Beijing Leadman Biochemistry Co Ltd (SHE:300289) were released by: Businesswire.com and their article: IVD Market in China 2015-2024 Research and Markets published on February 15, 2016 as well as Prweb.coms news article titled: China Diagnostic Reagent Industry (biochemical, molecular & immunodiagnostic with publication date: July 30, 2014.

Beijing Leadman Biochemistry Co., Ltd is a China firm principally engaged in the research, development, production and sales of in-vitro diagnostic reagents. The company has market cap of $. The Companys diagnostic reagents include chemiluminescence diagnostic reagents and biochemical diagnostic agents, such as hepatitis B virus attributes and tumor markers. It currently has negative earnings. The Firm also produces diagnostic instruments and biochemical raw materials.

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Beijing Leadman Biochemistry Co Ltd (300289) Decline -5.1% on Aug 29 - NormanObserver.com

Music is an integral part of human cultures around the world. Common wisdom suggests that listening to music has an affect on mental states, for better or for worse. Rock and roll music can pump you up, while soothing classical piano can mellow you out. However, are these effects real? What is really happening in the body when you listen to say, a track of relaxing music? Is it any different from simply listening to pleasant sounds or resting quietly? Scientists in a collaborative team in the US, Germany, and Switzerland ventured to find out.

Previous studies on the effects of music on the body usually only tested the music on very small groups of people, which can lead to bias. Many also failed to measure actual biochemical markers of stress, making it difficult to determine if changes in the body are actually occurring. In this study, the researchers tested various types of sounds on 60 healthy people, all female, between the ages of 20 and 30 and then measured actual biochemical stress indicators from the womens saliva. The researchers explained that, because the stress response differs by sex, they wanted to confine their group to only one sex in order to avoid variation in results from drowning out any real changes in stress levels. It is worth noting that applicants who had clinical depression, tinnitus, or music training, as well as those who drank alcohol and smoked regularly, were not accepted as study participants.

Prior to the experiment, the participants were given standardized tests that measure depression, anxiety, and emotionality. They were also given a survey to determine their music preferences, and it is worth noting that preference for classical music was high in this group. These measures were taken to ensure that depression and music preferences did not play a role in how relaxed the women became as a result of the study. For example, an anxious person might have a more difficult time becoming relaxed despite any intervention, and a person who hates classical music may not feel relaxed while listening to it.

Now, onto the experiment. The participants were divided randomly into three groups. One group listened to Miserere by Gregorio Allegri. The second group listened to a recording of flowing water. The third group rested quietly with no music. Each groups session lasted for ten minutes. Saliva was sampled from each participant before and after the intervention to establish a baseline. This would be used later to measure various stress markers. Then, the participants were put into a stressful situation a mock job interview. This particular scenario was chosen because it is a common stressful experience, and thus, stress could be induced ethically. After the stress test, a third saliva measurement was taken. The participants also filled out a set of questionnaires reporting how stressed they felt after the mock interview.

This begs the question how do we measure stress anyway? Simply asking a person if they are stressed can lead to bias since stress is different for everyone. It is also a very general term describing many different experiences. Researchers decided to accompany the self-reported stress levels of the participants with actual biochemical and physical measurements cortisol levels, salivary amylase, heart rate, and respiratory rate.

Cortisol is a hormone that is commonly elevated when a person is stressed. Salivary amylase is an enzyme produced by the digestive system, but it is also an indicator of the fight or flight response and another sign of stress. These chemicals are secreted in the saliva, making measurement convenient. Elevated heart rate and changes in what is called the Respiratory sinus arrhythmia or the syncing up of heart rate with breathing, can also change in response to stressful situations.

As it turns out, listening to relaxing music before a stressful event actually increased cortisol levels! This surprised the researchers. On the contrary, listening to relaxing music did seem to help the participants recover from this heightened fight or flight mode more effectively after the stressful event was over. Self reported anxiety, depression, and emotionality were not affected significantly by any of the interventions.

Despite doing their best to control for confounding factors and using objective stress measurements, they do mention that because the study was done on such a narrow demographic (young, female, healthy) that it may not be applicable to the general population. More research in this area would be needed, possibly on different groups of people with different preferences, genders, and health statuses.

Nevertheless, the study was well designed and produced provocative results that corroborate past research on music and stress. The major conclusion here is that the effect of music on human psychology is a highly individual experience and affects a symphony, pun intended, of hormones, enzymes, and cognitive processes that require many studies to fully understand.

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Relaxing Music May Not Be a Useful Stress-Reduction Strategy - Sciworthy

Richard E. Taylor, professor of chemistry and biochemistry at the University of Notre Dame, has been named interim director of Notre Dame California. He succeeds Patrick J. Flynn, Duda Family Professor of Engineering, who served as interim director from July 2016 through June of this year. As of July 1, Flynn assumed the position of chair of the Universitys Department of Computer Science and Engineering.

Patrick J. Flynn

Among other accomplishments during Flynns tenure, Notre Dame California launched its Silicon Valley Semester (SVS), which allows a select group of Notre Dame juniors majoring in computer science and engineering to spend their spring semester living, studying, and working in Palo Alto. The SVS consists of both Notre Dame coursework and credit-bearing internships at companies including Kyndi, OpsPanda, Intuit, QuakeFinder, Stryker, and AT&T.

The academic hub for the program is the Notre Dame California facility. Opened in February, it is located in AT&Ts central office in downtown Palo Alto and represents ongoing collaboration between the company and the University. Flynn was instrumental in this process, as well.

Pat has brought to life the broad vision with which we founded Notre Dame California, said Thomas G. Burish, Notre Dames Charles and Jill Fischer Provost. Whether working with AT&T to plan and complete our facility in downtown Palo Alto, developing and then leading the inaugural Silicon Valley Semester, or tending to the myriad other responsibilities that come with launching a new program, he has been a true champion of this endeavor. I am grateful both for Pats leadership during such a formative stage and now for Richs willingness to advance our continued growth on the West Coast.

Richard E. Taylor

I look forward to serving the University in this new position and building upon the strong foundation created by the outstanding efforts of Pat Flynn, Taylor added. I am particularly interested in expanding the participation of Notre Dame undergraduate and graduate students in experiential learning opportunities and connecting Notre Dame faculty and research programs with California-based academic institutions and businesses.

Taylor received his Ph.D. from Rensselaer Polytechnic Institute and completed a postdoctoral fellowship at Stanford University before joining Notre Dames Department of Chemistry and Biochemistry in 1995.

Noted for his work in the synthesis of novel pharmaceutical compounds, Taylor continues to maintain an active research portfolio on campus at Notre Dame, where he played a key role in founding what is now the Boler-Parseghian Center for Rare and Neglected Diseases as well as the Warren Family Research Center for Drug Discovery and Development. He was acting director of the Warren Center prior to accepting the appointment at Notre Dame California and is currently program director of rare disease research and development there.

During his 20-plus years on the Universitys faculty, Taylor has also served as associate dean of research and graduate education in the College of Science and associate vice president for research.

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Taylor succeeds Flynn as head of Notre Dame California - ND Newswire

Naomi Lee, an assistant professor ofchemistry and biochemistryat Northern Arizona University, received the email the night before she gave a lecture to the Maximizing Access to Research Careers students at Fort Lewis College in Durango, Colorado. It was perfect timinggiving her a new sense of purpose to motivate the students she met the following day.

For the past 18 years,Diverse: Issues In Higher Educationhas recognized an interdisciplinary group of minority scholars who represent the best of the U.S. academy. This year is no exception.

On a daily basis, Dr. Lee is breaking down biases and stereotypes, transforming the views and potential of students, Provost Diane Stearns writes in her nomination letterthe nomination that would earn Lee the much-deserved honor of the 2020 Emerging Scholars Award.

Selected based on research, educational background, publishing record, teaching record, competitiveness of field of study and uniqueness of field of study, Lee is one of 15, hand-picked from hundreds of nominations, joining the 2020 cohort of Emerging Scholars. These professors have distinguished themselves in their various academic disciplines and have had broad impact in their universities and beyond.

I didnt even know I was nominated! Lee said. In fact, I almost ignored the email since I thought it might be spam. However, once I read it, I was completely shocked and honored.

Gabe Montao, professor and department chair in the Applied Physics and Materials Science department, spearheaded Lees nomination, and Stearns submitted the letter, highlighting her accomplishments and the impact she has on the university, NAU students, fellow faculty and surrounding communities.

In addition to being an emerging scientific leader, Dr. Lee is an education beacon, mentor and role model, Stearns writes.

Of Native American descent, Lee, who was highly recruited by several prestigious institutions in 2018, chose NAU because of its diversity and the opportunity the university provided to have the greatest impact on Native American students. One of the NAUs five strategic goals is to become the nations leading university serving Native Americans; currently, more than 1,500 Indigenous students from more than 115 tribal nations throughout the country attend.Lees dedication to Native Americansboth in research and mentoringwill only help the university further that mission.

I once heard someone say, Research is supposed to be culturally neutral, but someones culture is always influencing it, Lee said. As a Native researcher, it is my duty to serve my community in order to ensure ethical and relevant research is conducted.

Trained in chemistry, biochemistry, virology, molecular biology, ethics, epidemiology and public health, her laboratory is student-focused with students coming from all disciplines and representing diverse backgrounds, ethnicity and gender. She also is designing culturally relevant chemistry curriculum to engage early Native American and other underrepresented scholars in addition to developing research training programs aimed at reducing the attrition rates in high school and college.

She is quickly becoming one of the most highly sought-after science faculty at NAU with students requesting to work with her on a continual basis. She has already mentored 23 students at the current early stage of her career path, Stearns said. She is creating a deep and diverse student research experience that will launch many future STEM careers.

Lees research focuses on novel vaccine development. She also focuses her work on improving the health care of Indigenous populations through health disparities research and STEM education.

Scientifically, I aim to be the first Native researcher that designs a vaccine specifically for Native communities, she said. While my work may be beneficial to the general population, I strive to look at research questions through an Indigenous lens. For example, I am collaborating with colleagues at the University of New Mexico on a vaccine against opioids. We see the impact the opioid epidemic is having on a national level. However, my interest in the project was because of the impact opioids are having across our Native American communities. I want to use my skills to make healthier and happier communities.

Throughout her career, Lee has been published multiple times, including a study in the Journal of Infectious Diseases of the Oxford University Press that found American Indian and Alaska Native women are at greater risk of HPV and cervical cancer than their white counterparts; given nearly two dozen talks and presentations; and has received more than $800,000 in research funding. She also is active duty in the National Guard with multiple awards to her name, including the Army Achievement Medal.

As a Native American female scientist and a highly decorated Army captain who devotes her time to advancing opportunities for all students, particularly underrepresented minorities in STEM, Dr. Lee is outstanding and truly deserving of this award, Stearns said.

Lee was recognized in the Jan. 23 Emerging Scholars edition of Diverse: Issues In Higher Education.

Carly Banks | NAU Communications(928) 523-582 | Carly.Banks@nau.edu

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NAU professor, researcher named 2020 Emerging Scholar for dedication to helping Native Americans in and outside the lab-room - NAU News