Category Archives: Biochemistry

Biochemistry

Chemistry and Biochemistry Department Adapts to Distanced Learning – The Bates Student

COVID-19 has necessitated a drastic change in how educational models are constructed in order to stop its spread; various departments have been forced to come up with new and creative ways to deliver on the significant material of the class, while keeping all parties safe from an outbreak. This has hit STEM departments with difficult problems, as much of the work is based in group collaboration and in-person interaction with the material.

Prof. Matthew J. Ct, the Chair of the Chemistry and Biochemistry Department, affirms this process of rethinking how this subject matter could be taught given the current global pandemic. The Bates Student emailed Prof. Ct to ask how the Department has formulated syllabi for this module. He noted that the Chemistry and Biochemistry Department is learning to adapt to changes that have occurred during module A, making the class structures and material discussed flexible to adapt to any necessary changes.

As a department were sharing our experiences with each other so we can zero in on some approaches that work well for our discipline, he wrote. Ct noted that, with the socially distant classroom models, the spaces that the department traditionally inhabits are not being used. This results in an unfamiliar classroom environment for both the students and the professors.

Dana Chemistry Hall, home to the Chemistry and Biochemistry Department, is closed due to a wider project to renovate the science buildings on campus, along with the construction of the Bonney Science Center. Because of this, the planners for module A and B knew that this year would look dramatically different.

Ct wrote, We took that into account when designing our approach for 2020-2021, in the hope that we can apply some of this years COVID-adaptation to next years building move adaptation.

Because of the tumultuous summer that required tireless efforts to plan how Bates will function as an in-person institution, the usual summer research program in the Chemistry and Biochemistry Department did not run. Instead, folks involved in running that program spent months planning the fall semester.

Staff who would normally have a couple of months off during the summer worked hard to prepare for this year as well. Ct adds, everyone is working creatively to teach during this academic year, but our successes so far have been made possible by their unselfish and diligent efforts last summer.

See original here:
Chemistry and Biochemistry Department Adapts to Distanced Learning - The Bates Student

Biochemistry

Yale faculty and alum recognized as inspiring Hispanic/Latinx scientists – Yale Daily News

Courtesy of Yale News

Two Yale faculty members Daniel Coln-Ramos, professor of neuroscience and cell biology, and Enrique De La Cruz, chair and professor of molecular biophysics and biochemistry and head of Branford College and Yale alum Robert Fernandez GRD 15 20 have been recognized in a list of 100 inspiring Hispanic/Latinx scientists in the U.S. by Cell Mentor. Cell Mentor is an online resource provided by Cell Press and Cell Signaling Technology with blog-style resources for early-career scientists.

In addition to strong scientific research, Coln-Ramos, De La Cruz and Fernandez have all made extensive scientific outreach efforts through their work in making science more accessible to the Hispanic/Latinx community.

[Coln-Ramos] is a fantastic mentor and does a lot to make science more accessible not just science accessible to people who dont have opportunities, but also science accessible to the lay public so that they understand the value of science, Sreeganga Chandra, deputy chair and associate professor of neuroscience, said.

In his lab, Coln-Ramos studies the synapse the connection between neurons. He examines how synapses are formed and how they are modified when a memory is created. Coln-Ramos lab studies C. elegans, a nematode worm with a simple nervous system of only 302 neurons humans have billions and about 5,000 chemical synapses. According to the labs website, Coln-Ramos has 49 publications with the lab.

According to Sterling Professor of Cell Biology James Rothman, Coln-Ramos work regarding synapse formation and self-assembly mechanisms that spatially couple energy production to energy utilization is receiving the international attention that it deserves.

Beyond research, Coln-Ramos co-founded Ciencia Puerto Rico, a network of Hispanic scientists which works to promote scientific advancement, education and careers in Puerto Rico. According to Coln-Ramos, it currently has close to 40,000 members.

I have collaborated with many colleagues in establishing mentoring programs, in arguing for the democratization of access to science, in arguing that all societies should benefit from science, that science shouldnt be structured as an enterprise that implicitly or explicitly excludes certain demographics or groups from participating or benefiting from the scientific enterprise, Coln-Ramos said. Its a fundamental humanistic request thats part of our culture.

De La Cruzs lab uses kinetics and thermodynamics to understand how mechanical forces affect chemical interactions and reactions of biological molecules. He also examined processes that were previously thought to be incomplete, such as how regulatory proteins break actin filaments or how helicases use ATP to rearrange RNA.

In addition to his work in the lab, De La Cruz serves as a mentor to underrepresented communities as well as his graduate students, according to Mark Hochstrasser professor of molecular biophysics and biochemistry. Hochstrasser said this success is something that members of his department are all proud of.

Nandan Pandit GRD 16 20, a postdoctoral associate in De La Cruzs lab, elaborated on the guidance that De La Cruz gives to his students.

Enrique always is looking out for the students and really prioritizing their success while still balancing the success of the lab overall I think he really deserves this award, Pandit said.

The third honoree, Fernandez, is currently working on postdoctoral research at Columbia University. Fernandez is studying how transcription factors regulate neuronal identity in C. elegans.

Fernandez also co-founded an initiative called Cientfico Latino, which aims to help underrepresented minority students navigate higher education. The site includes resources such as a database for fellowships, research programs, post-baccalaureate programs and diversity preview events.

The site also features a blog with stories and advice from underrepresented minority students and STEM faculty. Additionally, the website contains webinars aimed at preparing students for graduate school, fellowship and doctorate applications. De La Cruz also serves as a faculty adviser for this program.

One of our biggest initiatives is our [Graduate Student] Mentorship Initiative, where we pair you with a mentor to look over your graduate application, Fernandez said. Its open to any underrepresented students, not just based on ethnicity, but low-income, first-generation, sexual orientation, disability.

The program was piloted last year with 86 scholars participating, helping 76 get accepted into graduate school programs. This year the program is serving around 300 people.

All three scientists emphasized the importance of diversity in the laboratory. According to De La Cruz, a lack of diversity in the laboratory not only creates situations that cry injustice but also cause labs to miss out on tremendous talent.

I never learned in my biology class about any Latinx scientists, so if we dont see ourselves in science, starting off in elementary, middle school and high school, how exactly are we going to believe that we can get there? Fernandez said. What I love about my lab right now at Columbia [is that] its super diverse, and you get all of these different viewpoints, and thats what makes science great, learning from each other, different cultures, different backgrounds. Science is not just one way of thinking. Its a multidisciplinary way of thinking and different viewpoints help you.

The full list of inspiring Hispanic/Latinx scientists can be found on Cell Mentors website.

Adam Levine | a.levine@yale.edu

Read the rest here:
Yale faculty and alum recognized as inspiring Hispanic/Latinx scientists - Yale Daily News

Biochemistry

iBio Enters into Agreement with Safi Biosolutions to Develop Growth Factors and Cytokines Using the FastPharming System – GlobeNewswire

- Project Focused on Proteins used in the Production of Blood Cells -

NEW YORK, Oct. 02, 2020 (GLOBE NEWSWIRE) -- iBio, Inc. (NYSE AMERICAN:IBIO) (iBio or the Company), a biotech innovator and biologics contract manufacturing organization, today announced that it has entered into a Master Services Agreement (MSA) with Boston-based Safi Biosolutions, Inc. (Safi) to evaluate iBios FastPharming System for the expression of key proteins to be used in the bioprocessing of Safi blood cell therapy products.

Safi is an early stage biotech company working as the cell therapy commercialization partner for a five-year government program aiming to produce blood on-demand, a national priority. Initial development efforts for manufactured blood cell therapies include red blood cells for trauma, tailored red blood cells for specific transfusion indications and a neutrophil progenitor cell therapy for the treatment of chemotherapy-induced neutropenia. To achieve the quality and cost-of-goods objectives for the program, Safi turned to iBios plant-based protein expression system.

iBios process development, biochemistry and pharmaceutical development teams plan to engage with Safi to evaluate options to use iBios FastPharming System to generate cGMP growth factors and cytokines.

iBio is pleased to partner with Safi as we leverage our capabilities and know-how for this innovative cell therapy program, said Tom Isett, Chairman & CEO of iBio. This opportunity is a natural fit for our new portfolio of Research & Bioprocess products, in which we are developing animal-free solutions for cell culture and 3D-bioprinting applications, amongst others.

Pursuant to the MSA, iBio will manufacture ten proteins to be evaluated in the production of Safis cell therapies as part of the first Statement of Work. Safi will have the option to designate certain proteins as proprietary to their bioprocess, but iBio will have the right to commercialize all other products.

DougMcConnell, co-founder and CEO of Safi Biosolutions, commented, Safi Biosolutions believes iBios plant-based expression system has the potential to provide both quality improvement and cost reduction for many of the important cytokines and media used in our cell culture and growth process, and we are excited to initiate this strategic partnership.

Additionally, iBio has agreed to invest $1.5 million in Safi in the form of a convertible promissory note (the "Note"). The Note will bear interest at a rate of 5% per annum and will be fully convertible into common shares of Safi, at the option of iBio under certain circumstances. The Note will have a maturity date of three years from the date of issuance and is due in full if not converted at or before the three-year term.

About Safi Biosolutions, Inc.

Safi Biosolutions is developing blood cell products and therapeutics through novel and proprietary cell manufacturing and source expansion techniques. The co-founders and leadership team at Safi Biosolutions bring experience in ex vivo human blood cell development, biologic and pharmaceutical manufacturing, pre-clinical and clinical development, and regulatory submissions.

About iBio, Inc.

iBio is a global leader in plant-based biologics manufacturing. Its FastPharming System combines vertical farming, automated hydroponics, and glycan engineering technologies to rapidly deliver high-quality monoclonal antibodies, vaccines, bioinks and other proteins. The Companys subsidiary, iBio CDMO LLC, provides FastPharming Contract Development and Manufacturing Services. iBios Glycaneering Development Service includes an array of new glycosylation technologies for engineering high-performance recombinant proteins. Additionally, iBio is developing proprietary products, which include IBIO-100 for the treatment of fibrotic diseases, and vaccines for COVID-19 disease. For more information, visit http://www.ibioinc.com.

FORWARD-LOOKING STATEMENTSCertain statements in this press release constitute "forward-looking statements" within the meaning of the federal securities laws. Words such as "may," "might," "will," "should," "believe," "expect," "anticipate," "estimate," "continue," "predict," "forecast," "project," "plan," "intend" or similar expressions, or statements regarding intent, belief, or current expectations, are forward-looking statements. These forward-looking statements are based upon current estimates and assumptions and include statements regarding iBios cell culture, biochemistry and pharmaceutical development teams plans to engage with Safi Bio to accelerate the program and iBios plant-based expression system having the potential to provide both quality improvement and cost reduction for many of the important cytokines and other media used in cell culture and growth processing. While the Company believes these forward-looking statements are reasonable, undue reliance should not be placed on any such forward-looking statements, which are based on information available to us on the date of this release. These forward-looking statements are subject to various risks and uncertainties, many of which are difficult to predict that could cause actual results to differ materially from current expectations and assumptions from those set forth or implied by any forward-looking statements. Important factors that could cause actual results to differ materially from current expectations include, among others, the ability of iBios plant-based expression system to provide both quality improvement and cost reduction for many of the important cytokines and other media used in cell culture and growth processing, the Companys ability to obtain regulatory approvals for commercialization of its product candidates, including its COVID-19 vaccines, or to comply with ongoing regulatory requirements, regulatory limitations relating to its ability to promote or commercialize its product candidates for specific indications, acceptance of its product candidates in the marketplace and the successful development, marketing or sale of products, its ability to maintain its license agreements, the continued maintenance and growth of its patent estate, its ability to establish and maintain collaborations, its ability to obtain or maintain the capital or grants necessary to fund its research and development activities, competition, its ability to retain its key employees or maintain its NYSE American listing, and the other factors discussed in the Companys Annual Report on Form 10-K for the year ended June 30, 2019 and the Companys subsequent filings with the SEC, including subsequent periodic reports on Forms 10-Q and 8-K. The information in this release is provided only as of the date of this release, and we undertake no obligation to update any forward-looking statements contained in this release on account of new information, future events, or otherwise, except as required by law.

Contacts:

Stephen KilmeriBio, Inc.Investor Relations(646) 274-3580 skilmer@ibioinc.com

Go here to see the original:
iBio Enters into Agreement with Safi Biosolutions to Develop Growth Factors and Cytokines Using the FastPharming System - GlobeNewswire

Biochemistry

Biochemistry Analyzers Market Key Players, Trends, Emerging Growth Factors and Regional Forecasts to 2026, Analysis and In-depth Research on Market…

The Biochemistry Analyzers Market report defines and briefs readers about its products, applications, and specifications. The research lists key companies operating in the market and also highlights the key changing course adopted by the companies to maintain their strength. By using SWOT analysis and Porters five force analysis tools, the strengths, weaknesses, opportunities, and commination of key companies are altogether referenced in the report. Every single leading player in this global market are profiled with details such as product types, business overview, sales, manufacturing base, contestant, applications, and specifications.

Biochemistry Analyzers Market has witnessed continuous growth within the past few years and is projected to grow even more throughout the forecast. The analysis presents a whole assessment of the market and contains Future trends, Current Growth Factors, attentive opinions, facts, historical information, and statistically supported and trade valid market information.

Free Sample Report + All Related Graphs & Charts: @ https://www.coherentmarketinsights.com/insight/request-sample/1873

Manufacturer Detail: Abbott, Danaher Corporation, F.Hoffman-La Roche Ltd., Siemens AG, Thermo Fisher Scientific, Inc., Randox Laboratories Ltd., Meril, Hologic Inc., Beckman Coulter Inc., and Horiba Medical.

This Biochemistry Analyzers research report includes a close on these trends, share, size which will facilitate the companies in operation within the trade to work out the market and strategize for his or her business development consequently. The analysis report analyses the expansion, market size, key segments, trade share, application, and key drivers.

Regional Analysis ForBiochemistry Analyzers Market

North America(the 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.)The Middle East and Africa(Saudi Arabia, UAE, Egypt, Nigeria, and South Africa)

Biochemistry Analyzers Market Research Methodology :

This study estimates it provides a detailed qualitative and quantitative analysis of the Biochemistry Analyzers market. Primary sources, such as experts from related industries and suppliers of Biochemistry Analyzers were interviewed to obtain and verify critical information and assess prospects of the Biochemistry Analyzers market

Key players within the Biochemistry Analyzers market are known through secondary analysis, and their market shares are determined through primary and secondary analysis. All activity shares split, and breakdowns are resolute victimization secondary sources and verified primary sources. The Biochemistry Analyzers Market report begins with a basic summary of the trade lifecycle, definitions, classifications, applications, and trade chain structure and every one these along can facilitate leading players to perceive the scope of the Market, what characteristics it offers and the way itll fulfill customers needs.

Get Discount on This Premium Report : https://www.coherentmarketinsights.com/insight/request-discount/1873

By Company Profile, Product Image and Specification, Product Application Analysis, Production Capability, Price Cost, Production Value, Contact Data is Include in this research report.

What Biochemistry Analyzers Market report offers:

The Report Answers the Following Questions:

Get Full Report Description, TOC, Table of Figures, Chart, etc. @ Biochemistry Analyzers Market

The complete profile of the companies is mentioned. And the capacity, production, price, revenue, cost, gross, gross margin, sales volume, sales revenue, consumption, growth rate, import, export, supply, future strategies, and the technological developments that they are making are also included within the report. In the end Biochemistry Analyzers Market Report delivers a conclusion which includes Breakdown and Data Triangulation, Consumer Needs/Customer Preference Change, Research Findings, Market Size Estimation, Data Source. These factors will increase the business overall.

Thanks for reading this article; you can also get individual chapter wise section or region wise report version like Asia, United States, Europe.

Continue reading here:
Biochemistry Analyzers Market Key Players, Trends, Emerging Growth Factors and Regional Forecasts to 2026, Analysis and In-depth Research on Market...

Biochemistry

The Brandeis alum whose research may lead to a COVID-19 vaccine – Brandeis University

Scientist Drew Weissman's research is the basis for several vaccines being developed to fight the pandemic.

It is no exaggeration to say that Drew Weissman '81, MS '81, is among a handful of scientists whose research may save the world from COVID-19.

Now his findings and the system he developed for delivering mRNA into cells underpin two of the most promising candidates for a coronavirus vaccine, one being developed by Pfizer and BioNTech and the other by Moderna.

Drew Weissman

Weissman, a professor of medicine at the Perelman School of Medicine at the University of Pennsylvania, is also working with the government of Thailand on a COVID-19 vaccine for the developing world. It is expected to be more affordable and easier-to-produce than the vaccines being created by drug companies.

A biochemistry major at Brandeis, Weissman worked in professor Gerald Fasmans lab.

"He definitely gave me insights on how to develop hypotheses how to think about them, how to develop new lines of research," said Weissman, who wrote his master's thesis on acetylation of DNA, part of the process of gene regulation.

Messenger molecules, mRNA transport instructions from DNA to the ribosomes in our cells for the production of proteins.

In a traditional chickenpox, polio, flu or rabies vaccine, a weakened or killed version of the virus is injected, fooling the immune system into fighting the disease.

But manufacturing a virus is a lot more expensive than synthesizing mRNA. And it isnt necessary to create an entirely new vaccine for each disease using mRNA since the mRNA can be reprogrammed to fight the target illness.

Many researchers gave up on mRNA, but Weissman and Karik persisted. "We were getting interesting results, so they just kept leading us on," Weissman said.

They replaced one of mRNAs four chemical building blocks, a nucleoside called uridine, with a slightly modified nucleoside called pseudouridine. This enabled the mRNA to skirt the body's immune system.

In the late 2010s came several more major breakthroughs. The researchers used mRNA to immunize mice against genital herpes (which is caused by the herpes simplex virus), influenza, Zika and HIV.

If it works, a COVID-19 mRNA vaccine will spur human cells to produce the spike-shaped protein found on SARS-CoV-2, the virus that causes the illness, and will trigger the immune system to produce protective antibodies.

Weissman is now focusing on an even more ambitious project developing a vaccine for all coronaviruses. Besides SARS-CoV-2, two other lethal varieties of coronavirus SARS and MERS have spread among humans in recent years.

Go here to see the original:
The Brandeis alum whose research may lead to a COVID-19 vaccine - Brandeis University

Biochemistry

COVID-19 Impact on Methylidenesuccinic Acid Market Top Manufacturers, Types and Application 2020| Kehai Biochemistry, Alpha Chemika, Guoguang…

Global Methylidenesuccinic Acid Industry Amid Global COVID-19 Crisis: Report Hive Viewpoint

Chicago, United States: Global Methylidenesuccinic Acid Market report offers a detailed Outlook and future prospects of the Industry. The Methylidenesuccinic Acid Market report includes various topics like market size & share, Product types, applications, key market drivers & restraints, challenges, growth opportunities, key players, competitive landscape.

The global Methylidenesuccinic Acid market is expected to reach xxx Million USD by 2025, with a CAGR of xx% from 2020 to 2025.

Top Players of Methylidenesuccinic Acid Market are Studied: Kehai Biochemistry, Alpha Chemika, Guoguang Biochemistry, Huaming Biochemistry, Zhongshun Science & Technology, ,

>>> Get PDF Sample Copy of the Report to understand the structure of the complete report (Including Full TOC, List of Tables & Figures, Chart) @ https://www.reporthive.com/request_sample/2353826

The report incorporates significant sections, for example, type and end user and a variety of segments that decide the prospects of global Methylidenesuccinic Acid market. Each type provide data with respect to the business esteem during the conjecture time frame. The application area likewise gives information by volume and consumption during the estimate time frame. The comprehension of this segment direct the readers in perceiving the significance of variables that shape the market development.

Global Methylidenesuccinic Acid Market Segment By Type: Synthesis, Fermentation, ,

Global Methylidenesuccinic Acid Market Segment By Application: Plasticizer, Lubricating Oil Additive, Others, ,

The Essential Content Covered in the Global Methylidenesuccinic Acid Market Report:

* Top Key Company Profiles.

* Main Business and Rival Information

* SWOT Analysis and PESTEL Analysis

* Production, Sales, Revenue, Price and Gross Margin

* Market Share and Size

Regional Coverage: 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)

>>>Get Full Customize report or for any Special Discount [emailprotected] https://www.reporthive.com/request_customization/2353826

Table of Content:

Market Overview: The report starts with this segment in which product evaluate and highlights of product and alertness segments of the worldwide Methylidenesuccinic Acid Market are provided. Highlights of the segmentation include price, sales, income, sales growth rate, and market share by product.

Competition by using Company: Here, the competition in the Worldwide Methylidenesuccinic Acid Market is analyzed, By price, sales, income, and market share with the aid of company, market rate, competitive situations Landscape, and present day trends, merger, expansion, acquisition, and market stocks of pinnacle companies.

Company Proreports and Sales Data: As the name suggests, this segment offers the sales facts of key players of the global Methylidenesuccinic Acid Market as well as a few useful facts on their commercial enterprise. It talks approximately the gross margin, price, revenue, products, and their specifications, type, applications, competitors, manufacturing base, and the principle commercial enterprise of key players operating within the global Methylidenesuccinic Acid Market.

Market Status and Outlook via Region: In this segment, the report discusses about gross margin, sales, production, market share, CAGR, and market size with the aid of region. Here, the global Methylidenesuccinic Acid Market is deeply analyzed on the idea of areas and countries together with North America, Europe, China, India, Japan, and the MEA.

Application or End User: This phase of the studies shows how one of a kind end-user/application segments make contributions to the worldwide Methylidenesuccinic Acid Market.

Market Forecast: Here, the report gives a entire forecast of the global Methylidenesuccinic Acid Market by means of product, application, and region. It additionally offers global income and sales forecast for all years of the forecast period.

Research Findings and Conclusion: This is certainly one of the last sections of the report in which the findings of the analysts and the conclusion of the research observe are provided.

Why Report Hive Research:

Report Hive Research delivers strategic market research reports, statistical surveys, industry analysis and forecast data on products and services, markets and companies. Our clientele ranges mix of global business leaders, government organizations, SMEs, individuals and Start-ups, top management consulting firms, universities, etc. Our library of 700,000 + reports targets high growth emerging markets in the USA, Europe Middle East, Africa, Asia Pacific covering industries like IT, Telecom, Semiconductor, Chemical, Healthcare, Pharmaceutical, Energy and Power, Manufacturing, Automotive and Transportation, Food and Beverages, etc.

Contact Us:

Report Hive Research

500, North Michigan Avenue,

Suite 6014,

Chicago, IL 60611,

United States

Website: https://www.reporthive.com

Email: [emailprotected]

Phone: +1 312-604-7084

Read this article:
COVID-19 Impact on Methylidenesuccinic Acid Market Top Manufacturers, Types and Application 2020| Kehai Biochemistry, Alpha Chemika, Guoguang...

Biochemistry

Methylene Succinic Acid Market By Coronavirus-Covid19 Impact Analysis With Top Companies and Regions by Forecast to 2026| Itaconix Corporation,…

Global Methylene Succinic Acid Industry Amid Global COVID-19 Crisis: Report Hive Viewpoint

Chicago, United States: Global Methylene Succinic Acid Market Report offers detailed research and analysis of key aspects of the global Methylene Succinic Acid market. The market analysts authoring this report have provided in-depth information on leading growth drivers, restraints, challenges, trends, and opportunities to offer a complete analysis of the global Methylene Succinic Acid market. Market participants can use the analysis on market dynamics to plan effective growth strategies and prepare for future challenges beforehand. Each trend of the global Methylene Succinic Acid market is carefully analyzed and researched about by the market analysts. The market analysts and researchers have done extensive analysis of the global Methylene Succinic Acid market with the help of research methodologies such as PESTLE and Porters Five Forces analysis.

Methylene Succinic Acid Market provided accurate and reliable market data and useful recommendations with an aim to help the players gain an insight into the overall present and future market scenario. The Methylene Succinic Acid report comprises in-depth study of the potential segments including product type, application, and end user and their contribution to the overall market size.

Key Companies/Manufacturers operating in the global Methylene Succinic Acid market include: Itaconix Corporation, Aekyung Petrochemical Co. Ltd., Jinan Huaming Biochemistry Co. Ltd., Qingdao Langyatai Group Co., Ltd., Shandong Kaison Biochemical Co., Ltd., Zhejiang Guoguang Biochemistry Co., Ltd., Ronas Chemicals Ind. Co., Ltd., Alpha Chemika, Iwata Chemical Co., Ltd., Chengdu Jinkai Biology Engineering Co., Ltd., Ultimate Chem India Pvt. Ltd., Shandong Shunda, Nanjing Huajin Healthcare Biologicals Co. Ltd., Citrus Food Additives Co., Ltd, Shandong Zhongshun Science & Technology Development Co., Ltd., ,

Get PDF Sample Copy of the Report to understand the structure of the complete report: (Including Full TOC, List of Tables & Figures, Chart): https://www.reporthive.com/request_sample/2353513

Methylene Succinic Acid Market is split by Type and by Application. For the period 2015-2025, the growth among segments provide accurate calculations and forecasts for sales by Type and by Application in terms of volume and value. This analysis can help you expand your business by targeting qualified niche markets.

Methylene Succinic Acid Market Segment by Type covers: Styrene Butadiene Itaconic Acid, Methyl Methacrylate, Polyitaconic Acid, Others, ,

Methylene Succinic Acid Market Segment by Applications can be divided into: SBR Latex, Synthetic Latex, Chillant Dispersant Agent, Superabsorbent Polymers, Others, ,

Regional analysis covers:

>>>Get Full Customize report or for any Special Discount [emailprotected] https://www.reporthive.com/request_customization/2353513

Key questions answered in the report:

* What is the growth potential of the Methylene Succinic Acid market?

* Which product segment will grab a lions share?

* Which regional market will emerge as a frontrunner in the coming years?

* Which application segment will grow at a robust rate?

* What are the growth opportunities that may emerge in the Methylene Succinic Acid industry in the years to come?

* What are the key challenges that the global Methylene Succinic Acid market may face in the future?

* Which are the leading companies in the global Methylene Succinic Acid market?

* Which are the key trends positively impacting the market growth?

* Which are the growth strategies considered by the players to sustain hold in the global Methylene Succinic Acid market

Why Report Hive Research:

Report Hive Research delivers strategic market research reports, statistical surveys, industry analysis and forecast data on products and services, markets and companies. Our clientele ranges mix of global business leaders, government organizations, SMEs, individuals and Start-ups, top management consulting firms, universities, etc. Our library of 700,000 + reports targets high growth emerging markets in the USA, Europe Middle East, Africa, Asia Pacific covering industries like IT, Telecom, Semiconductor, Chemical, Healthcare, Pharmaceutical, Energy and Power, Manufacturing, Automotive and Transportation, Food and Beverages, etc.

Contact Us:

Report Hive Research

500, North Michigan Avenue,

Suite 6014,

Chicago, IL 60611,

United States

Website: https://www.reporthive.com

Email: [emailprotected]

Phone: +1 312-604-7084

View post:
Methylene Succinic Acid Market By Coronavirus-Covid19 Impact Analysis With Top Companies and Regions by Forecast to 2026| Itaconix Corporation,...

Biochemistry

Automated Biochemistry Analyzers Market | Global Industry Analysis By Trends, Size, Share, Company Overview, Growth And Forecast By 2026 – The Daily…

The Global Automated Biochemistry Analyzers Market analysis report published on Upmarketresearch.com is a detailed study of market size, share and dynamics covered in XX pages and is an illustrative sample demonstrating market trends. This is a latest report, covering the current COVID-19 impact on the market. The pandemic of Coronavirus (COVID-19) has affected every aspect of life globally. This has brought along several changes in market conditions. The rapidly changing market scenario and initial and future assessment of the impact is covered in the report. It covers the entire market with an in-depth study on revenue growth and profitability. The report also delivers on key players along with strategic standpoint pertaining to price and promotion.

Get FREE Exclusive PDF Sample Copy of This Report: https://www.upmarketresearch.com/home/requested_sample/75878

The Global Automated Biochemistry Analyzers Market report entails a comprehensive database on future market estimation based on historical data analysis. It enables the clients with quantified data for current market perusal. It is a professional and a detailed report focusing on primary and secondary drivers, market share, leading segments and regional analysis. Listed out are key players, major collaborations, merger & acquisitions along with upcoming and trending innovation. Business policies are reviewed from the techno-commercial perspective demonstrating better results. The report contains granular information & analysis pertaining to the Global Automated Biochemistry Analyzers Market size, share, growth, trends, segment and forecasts from 2020-2026.

With an all-round approach for data accumulation, the market scenarios comprise major players, cost and pricing operating in the specific geography/ies. Statistical surveying used are SWOT analysis, PESTLE analysis, predictive analysis, and real-time analytics. Graphs are clearly used to support the data format for clear understanding of facts and figures.

Customize Report and Inquiry for The Automated Biochemistry Analyzers Market Report: https://www.upmarketresearch.com/home/enquiry_before_buying/75878

Get in touch with our sales team, who will guarantee you to get a report that suits your necessities.

Primary research, interviews, news sources and information booths have made the report precise having valuable data. Secondary research techniques add more in clear and concise understanding with regards to placing of data in the report.

The report segments the Global Automated Biochemistry Analyzers Market as:Global Automated Biochemistry Analyzers Market Size & Share, by Regions

Global Automated Biochemistry Analyzers Market Size & Share, by ProductsStationary Biochemistry AnalyzersPortable Biochemistry Analyzers

Global Automated Biochemistry Analyzers Market Size & Share, ApplicationsHospital and Diagnostic LaboratoriesHome Care and AcademicResearch Institutes

Key PlayersAbbottDanaherHitachiRocheSiemensThermo Fisher Scientific

Avail the Discount on this Report @ https://www.upmarketresearch.com/home/request_for_discount/75878

UpMarketResearch offers attractive discounts on customization of reports as per your need. This report can be personalized to meet your requirements. Get in touch with our sales team, who will guarantee you to get a report that suits your necessities.

About UpMarketResearch:UpMarketResearch (https://www.upmarketresearch.com) is a leading distributor of market research report with more than 800+ global clients. As a market research company, we take pride in equipping our clients with insights and data that holds the power to truly make a difference to their business. Our mission is singular and well-defined we want to help our clients envisage their business environment so that they are able to make informed, strategic and therefore successful decisions for themselves.Contact Info UpMarketResearchName Alex MathewsEmail [emailprotected]Website https://www.upmarketresearch.comAddress 500 East E Street, Ontario, CA 91764, United States.

Read more:
Automated Biochemistry Analyzers Market | Global Industry Analysis By Trends, Size, Share, Company Overview, Growth And Forecast By 2026 - The Daily...

Biochemistry

Latest News:: Biochemical Diagnostic Reagent Market is expected to witness an exponential growth over forecast year 2020-2025| Roche, Siemens…

Global Biochemical Diagnostic Reagent Market Report 2020 by Key Players, Types, Applications, Countries, Market Size, Forecast to 2026 (Based on 2020 COVID-19 Worldwide Spread)

Global Biochemical Diagnostic Reagent Market Report offers an entire study of the Impact of COVID-19 on Biochemical Diagnostic Reagent Market, Industry Outlook, Opportunities in Market, and Expansion By 2025 and also taking into consideration key factors like drivers, challenges, recent trends, opportunities, advancements, and competitive landscape. This report offers a clear understanding of this also as a future scenario of the worldwide Biochemical Diagnostic Reagent industry. Research techniques like PESTLE and SWOT analysis are deployed by the researchers. They need also provided accurate data on Biochemical Diagnostic Reagent production, capacity, price, cost, margin, and revenue to help the players gain a clear understanding of the general existing and future market situation.

>>> Get Free Sample PDF (including COVID19 Impact Analysis, full TOC, Tables and Figures) of Biochemical Diagnostic Reagent Market:

Biochemical Diagnostic Reagent Market competition by top manufacturers/Key player Profiled:Roche, Siemens Healthineers, Beckman Coulter, Randox, BioSino, Beijing Leadman Biochemistry, FosunPharma, Beijing Strong Biotechnologies, Dojindo Laboratories, Sysmex, KAINOS Laboratories, DAAN Gene

The study objectives of Biochemical Diagnostic Reagent Market report are: 1.To identify opportunities and challenges for Global Biochemical Diagnostic Reagent .2.To provide insights about factors affecting market growth. To analyze the Biochemical Diagnostic Reagent market based on various factors- price analysis, supply chain analysis, SWOT analysis, etc.3.To identify and analyze the profile of leading players involved within the manufacturing of worldwide Biochemical Diagnostic Reagent .4.To provide country-level analysis of the market regarding the present Biochemical Diagnostic Reagent market size and future prospective.5.To examine competitive developments like expansions, new product launches, mergers & acquisitions, etc., in Global Biochemical Diagnostic Reagent .6.To provide a detailed analysis of the market structure alongside forecast of the varied segments and sub-segments of the worldwide Biochemical Diagnostic Reagent market.

By Types, the Biochemical Diagnostic Reagent Market can be Splits into:

Liquid Double ReagentDry Powder Double Reagent

By Applications, the Biochemical Diagnostic Reagent Market can be Splits into:

HospitalClinicLaboratory

Global Biochemical Diagnostic Reagent Market is estimated to reach xxx million USD in 2020 and projected to grow at the CAGR of xx% during the 2021-2026. The report analyses the global Biochemical Diagnostic Reagent market, the market size and growth, as well as the major market participants.

The analysis includes market size, upstream situation, market segmentation, market segmentation, price & cost and industry environment. In addition, the report outlines the factors driving industry growth and the description of market channels.The report begins from overview of industrial chain structure, and describes the upstream. Besides, the report analyses market size and forecast in different geographies, type and end-use segment, in addition, the report introduces market competition overview among the

Click Here For Best Discount: https://www.reporthive.com/request_customization/2303112

Regions Covered in these Report:

Asia Pacific (China, Japan, India, and Rest of Asia Pacific)Europe (Germany, the UK, France, and Rest of Europe)North America (the US, Mexico, and Canada)Latin America (Brazil and Rest of Latin America)Middle East & Africa (GCC Countries and Rest of Middle East & Africa)

Global Biochemical Diagnostic Reagent Market is highly fragmented and the major players have used various strategies such as new product launches, expansions, agreements, joint ventures, partnerships, acquisitions, and others to increase their footprints in this market. The report includes market shares of Biochemical Diagnostic Reagent Market for Global, Europe, North America, Asia-Pacific, South America and Middle East & Africa.

Reasons To Buy: Make strategic business decisions using in-depth historic and forecast market data associated with the Biochemical Diagnostic Reagent market, and every category within it.Extensive price charts draw particular pricing trends within recent yearsPosition yourself to realize the most advantage of the Biochemical Diagnostic Reagent markets growth potentialTo understand the latest trends of the Biochemical Diagnostic Reagent marketTo understand the impactful developments of key players within the market, their strategic initiatives and comprehensively study their core competencies

For Customised Template PDF Report:https://www.reporthive.com/request_customization/2303112

Table of Contents

Report Overview:It includes major players of the global Biochemical Diagnostic Reagent Market covered in the research study, research scope, and Market segments by type, market segments by application, years considered for the research study, and objectives of the report.

Global Growth Trends:This section focuses on industry trends where market drivers and top market trends are shed light upon. It also provides growth rates of key producers operating in the global Biochemical Diagnostic Reagent Market. Furthermore, it offers production and capacity analysis where marketing pricing trends, capacity, production, and production value of the global Biochemical Diagnostic Reagent Market are discussed.

Market Share by Manufacturers:Here, the report provides details about revenue by manufacturers, production and capacity by manufacturers, price by manufacturers, expansion plans, mergers and acquisitions, and products, market entry dates, distribution, and market areas of key manufacturers.

Market Size by Type:This section concentrates on product type segments where production value market share, price, and production market share by product type are discussed.

Market Size by Application:Besides an overview of the global Biochemical Diagnostic Reagent Market by application, it gives a study on the consumption in the global Biochemical Diagnostic Reagent Market by application.

Production by Region:Here, the production value growth rate, production growth rate, import and export, and key players of each regional market are provided.

Consumption by Region:This section provides information on the consumption in each regional market studied in the report. The consumption is discussed on the basis of country, application, and product type.

Company Profiles:Almost all leading players of the global Biochemical Diagnostic Reagent Market are profiled in this section. The analysts have provided information about their recent developments in the global Biochemical Diagnostic Reagent Market, products, revenue, production, business, and company.

Market Forecast by Production:The production and production value forecasts included in this section are for the global Biochemical Diagnostic Reagent Market as well as for key regional markets.

Market Forecast by Consumption:The consumption and consumption value forecasts included in this section are for the global Biochemical Diagnostic Reagent Market as well as for key regional markets.

Value Chain and Sales Analysis:It deeply analyzes customers, distributors, sales channels, and value chain of the global Biochemical Diagnostic Reagent Market.

Key Findings: This section gives a quick look at important findings of the research study.

About Us:Report Hive Research delivers strategic market research reports, statistical surveys, industry analysis and forecast data on products and services, markets and companies. Our clientele ranges mix of global business leaders, government organizations, SMEs, individuals and Start-ups, top management consulting firms, universities, etc. Our library of 700,000 + reports targets high growth emerging markets in the USA, Europe Middle East, Africa, Asia Pacific covering industries like IT, Telecom, Semiconductor, Chemical, Healthcare, Pharmaceutical, Energy and Power, Manufacturing, Automotive and Transportation, Food and Beverages, etc. This large collection of insightful reports assists clients to stay ahead of time and competition. We help in business decision-making on aspects such as market entry strategies, market sizing, market share analysis, sales and revenue, technology trends, competitive analysis, product portfolio, and application analysis, etc.

Contact Us:

Report Hive Research

500, North Michigan Avenue,

Suite 6014,

Chicago, IL 60611,

United States

Website: https://www.reporthive.com

Email: [emailprotected]

Phone: +1 312-604-7084

Continue reading here:
Latest News:: Biochemical Diagnostic Reagent Market is expected to witness an exponential growth over forecast year 2020-2025| Roche, Siemens...

Biochemistry

These tiny tattoos change color when you need to put on sunscreen – Fast Company

In Neal Stephensons sci-fi novel The Diamond Age, body art has evolved into constantly shifting mediatronic tattoosin-skin displays powered by nanotech robopigments. In the 25 years since the novel was published, nanotechnology has had time to catch up, and the sci-fi vision of dynamic tattoos is starting to become a reality.

The first examples of color-changing nanotech tattoos have been developed over the past few years, and theyre not just for body art. They have a biomedical purpose. Imagine a tattoo that alerts you to a health problem signaled by a change in your biochemistry, or to radiation exposure that could be dangerous to your health.

You cant walk into a doctors office and get a dynamic tattoo yet, but they are on the way. Early proof-of-concept studies provide convincing evidence that tattoos can be engineered, not only to change color, but to sense and convey biomedical information, including the onset of cancer.

In 2017, researchers tattooed pigskin, which had been removed from the pig, with molecular biosensors that use color to indicate sodium, glucose, or pH levels in the skins fluids.

In 2019, a team of researchers expanded on that study to include protein sensing and developed smartphone readouts for the tattoos. This year, they also showed that electrolyte levels could be detected with fluorescent tattoo sensors.

In 2018, a team of biologists developed a tattoo made of engineered skin cells that darken when they sense an imbalance of calcium caused by certain cancers. They demonstrated the cancer-detecting tattoo in living mice.

My lab is looking at tech tattoos from a different angle. We are interested in sensing external harms, such as ultraviolet radiation. UV exposure in sunlight and tanning beds is the main risk factor for all types of skin cancer. Nonmelanoma skin cancers are the most common malignancies in the U.S., Australia, and Europe.

UV-activated tattoo ink is invisible until exposed to UV light. [Image: Jesse Butterfield/The Laboratory for Emergent Nanomaterials, University of Colorado Boulder]To help address this problem, we developed an invisible tattoo ink that turns blue only in UV light, alerting you when your skin needs protection. The tattoo ink contains a UV-activated dye inside of a plastic nanocapsule less than a micron in diameteror thousandth of a millimeterabout the same size as an ordinary tattoo pigment.

The nanocapsule is needed to make the color-changing tattoo particles large enough. If tattoo pigments are too small, the immune system rapidly clears them from the skin and the tattoo disappears. They are implanted using tattoo machines in the same way as regular tattoos, but they last for only several months before they start to degrade from UV exposure and other natural processes and fade, requiring a booster tattoo.

I served as the first human test subject for these tattoos. I created solar freckles on my forearminvisible spots that turned blue under UV exposure and reminded me when to wear sunscreen. My lab is also working on invisible UV-protective tattoos that would absorb UV light penetrating through the skin, like a long-lasting sunscreen just below the surface. Were also working on thermometer tattoos using temperature-sensitive inks. Ultimately, we believe tattoo inks could be used to prevent and diagnose disease.

Temporary transfer tattoos are also undergoing a high-tech revolution. Wearable electronic tattoos that can sense electrophysiological signals like heart rate and brain activity or monitor hydration and glucose levels from sweat are under development. They can even be used for controlling mobile devices, for example shuffling a music playlist at the touch of a tattoo, or for luminescent body art that lights up the skin.

The advantage of these wearable tattoos is that they can use battery-powered electronics. The disadvantage is that they are much less permanent and comfortable than traditional tattoos. Likewise, electronic devices that go underneath the skin are being developed by scientists, designers, and biohackers alike, but they require invasive surgical procedures for implantation.

Tattoos injected into the skin offer the best of both worlds: minimally invasive, yet permanent and comfortable. New needle-free tattooing methods that fire microscopic ink droplets into the skin are now in development. Once perfected, they will make tattooing quicker and less painful.

The color-changing tattoos in development are also going to open the door to a new kind of dynamic body art. Now that tattoo colors can be changed by an electromagnetic signal, youll soon be able to program your tattoos design, or switch it on and off. You can proudly display your neck tattoo at the motorcycle rally and still have clear skin in the courtroom.

As researchers develop dynamic tattoos, theyll need to study the safety of the high-tech inks. As it is, little is known about the safety of the more than 100 different pigments used in normal tattoo inks. The U.S. Food and Drug Administration has not exercised regulatory authority over tattoo pigments, citing other competing public health priorities and a lack of evidence of safety problems with the pigments. So U.S. manufacturers can put whatever they want in tattoo inks and sell them without FDA approval.

So far, there is no evidence that tattoos cause cancer, and one study even found that black tattoos protect against UV-induced skin cancer. Still, many tattoo inks contain or degrade into substances that are known to be hazardous, and health complications including infection, allergy, and granuloma have been found in about 2% of tattoos. More research is needed to understand the long-term effects of nano- and microimplants in the skin in general.

A wave of high-tech tattoos is slowly upwelling, and it will probably keep rising for the foreseeable future. When it arrives, you can decide to surf or watch from the beach. If you do climb on board, youll be able to check your body temperature or UV exposure by simply glancing at one of your tattoos.

Carson J Bruns is an assistant professor at the University of Colorado Boulder. This article is republished from The Conversation under a Creative Commons license. Read the original article.

Visit link:
These tiny tattoos change color when you need to put on sunscreen - Fast Company