Genetically Modified Crops (GM crops) have generated a lot of controversies over the years. They have sparked debates among farmers and consumers alike with people always particularly paying attention to labeled GM and non-GM commodities on the market.

Some describe it as genetic modification. Some call it genetic engineering. Some call them genetically modified organisms (GMOs). Others describe them as biotechnology products, although biotechnology is a broader term. But all of them refer to the same thing.

A lot of ethical concerns have arisen about GM technology over the years. A very common claim made by some anti-GM activists is that you cannot play God which implies that scientists are defying the natural order of creation. Others are concerned about possible health risks associated with the consumption of GM foods although they have been proven scientifically to be safe, 20 years after their introduction.

In fact, in countries like the USA, Brazil, and South Africa, more than 80% of all soya beans, maize and cotton are GM crops. But there has been no single evidence of any of these crops negatively impacting the health of consumers in those countries. Before GM food is released for consumption, it is subjected to rigorous scrutiny which has zero tolerance for errors.

So, what exactly are GM crops?

In a bid to optimize yield, farmers have been breeding suitable varieties of crops through conventional selection for several centuries. This has made most wild ancestors of crops such as teosinte of maize go into extinction leaving the elite cultivars which look bigger and develop more desirable traits over the generations. This method of breeding is known as selective breeding or artificial selection which is globally accepted but currently inefficient to feed a fast-growing population anticipated to reach 9.6 billion in the next couple of decades. The exponential rise in population is inversely related to available land area hence the need for a more strategic approach to efficiently utilize the limited land resource to feed the growing global population. Also, pests and diseases, climate change, amidst other abiotic factors severely constrain crop production.

Biotechnology (which includes genetic modification) is an applied science that harnesses the natural biological capabilities of microbial, plants and animal cells for the benefit of mankind. It has changed the quality of life through improved medicine, diagnostics, agriculture and waste management, as well as offered opportunities for innovation and discoveries.

Genetic engineering is used to efficiently and precisely modify targeted plants using advanced biotechnological techniques. Advances in molecular biology have helped eliminate certain gaps in breeding such as reducing time to successfully introduce (introgress) a gene of interest into a commercial crop variety through a process called speed breeding and eradicating linkage drags associated with conventional breeding.

The principle is a simple one. To genetically improve or enhance a crop such as sweet potato which is susceptible to nematode attack, another crop such as tomato that is resistant to nematode attack is identified and the gene of interest is isolated. The gene isolated from the tomato is then introduced into the sweet potato. The host plant becomes a transgenic or genetically modified plant which expresses the desired trait (resistance to nematode) in subsequent generations.

Genetic engineering has had several uses such as in biofortification of crops to increase the concentration and availability of nutrients in crops hence solving hidden hunger problem faced by several African countries. The technology has also been used in the enhancement of plant architecture to optimize land usage and increase yield per area of land cultivated; and improved crops with heightened tolerance or resistance to both biotic and abiotic stresses including diseases and weather.

Benefits of GM crops

Some analysis shows that between 1996 and 2015, GM technology increased global production of corn by 357.7 million tons, soybean by 180.3 million tons, cotton fiber by 25.2 million, and canola by 10.6 million tons. GM crops also significantly reduced the use of agricultural land due to this higher productivity.

In 2015 alone, they prevented almost 20 million hectares from being used for agricultural purposes, thus reducing the environmental impact of cultivating forests or wildlands. This is a great environmental benefit derived from higher agricultural yield.

Unfortunately, in Africa, only a few countries including South Africa and South Sudan have allowed for the growth of GM crops and are enjoying these benefits. Ghana has not allowed for the local production of GM crops although parliament passed a law in 2011 to allow for their introduction.

Genetic engineering is a viable way to eradicate hunger and ensure food security in the coming decades hence is pivotal to achieving Sustainable Development Goal (SDG) 2 on eliminating hunger. Yield losses due to changing or fluctuating climate, pests, and diseases, drought, acidic or saline soils and, heat stress can all be remedied by growing genetically modified crops. GM technology is a blessing to mankind and promises a hunger-free future especially in such unsettling times with the COVID-19 pandemic. Lets embrace it.

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Genetically Modified Crops: The Solution To Global Food Insecurity - Modern Ghana

Sunway Universitys Professor Jeff Tan Kuan Onn of the Department of Biological Sciences and Professor Poh Chit Laa from the Centre for Virus and Vaccine Research, along with their research collaborators from Harvard Medical Schools Center for Stem Cell Therapeutics and Imaging (USA) as well as University of Tennessee Health Science Centre (USA) have completed a study that has demonstrated the efficacy of molecular gene therapy as a new strategy for cancer treatment.

The research could potentially contribute to shorter treatment time for cancers, reduce treatment costs and minimize the adverse effects of current chemo-drugs in cancer patients such as susceptibilities toward microbial infections, hair loss, and other side effects of chemo-drugs that drastically affect the quality of life of cancer patients undergoing therapy.

Principal Investigator Professor Jeff Tan explained, Currently, chemo-drugs are relatively ineffective against cancer cells that have developed drug-resistance resulting in the need for high doses of chemo-drugs or a combination of chemo-drugs to be administered to patients with cancer cells. Chemo-drug resistant cancer cells also can spread quickly and that drastically reduce the survival rate of cancer patients.

Our research utilizes molecular gene therapy which is the introduction of genetic materials into cancer cells to promote the sensitivity of cancer cells to chemo-drugs. By genetically engineering the cancer cells, we find that we can induce the cancer cells to produce activated pro-death and tumor suppressor proteins that cause cell death and growth arrests in cancer cells. The weakened cancer cells can then be killed relatively easily by the administration of chemo-drugs in smaller doses. Ultimately, the research could contribute to increasing the survival rates of cancer patients undergoing cancer treatments he added.

Co-Investigator Professor Poh Chit Laa said that the effectiveness of the strategy has been demonstrated in mice implanted with human breast cancer cells. In the mice that were treated with the gene therapy, the tumors obtained from the treated mice showed significant tumor cell death and the tumors were 20 times smaller and 32 times lighter in volume and weight, respectively, when compared to the tumors obtained from the untreated mice. The results indicated that gene therapy was able to shrink the tumors significantly, even without treatment with chemo-drugs. Small doses of market-available anti-cancer drugs could then be used to kill the cancer cells effectively. We hope to see our research contribute to better survival rates of cancer patients, and minimize the side-effects associated with anti-cancer drugs, said Professor Poh.

We are currently working on investigations to optimize the delivery of the gene therapy and anti-cancer drugs to human tumors with hopes that this will result in tangible clinical outcomes, said Professor Jeff Tan.

The research project was recently published in the peer-review Journal of Cancer Research and Clinical Oncology. Collaborators for the research include Lee Yong Hoi, Pang Siew Wai and Samson Eugin Simon from the Department of Biological Sciences, Sunway University; Esther Revai Lechtich and Khalid Shah, of the Center for Stem Cell Therapeutics and Imaging, Brigham and Womens Hospital, Harvard Medical School (USA); Suriyan Ponnusamy and Ramesh Narayanan from the Department of Medicine, Centre of Cancer Drug Discovery, College of Medicine, University of Tennessee Health Science Centre (USA).

The research is a result of a collaboration agreement between Harvard Medical School and Sunway University aimed at developing new cancer therapies targeting drug-resistant cancer cells. In 2016, Professor Jeff Tan visited Harvard University on the Jeffrey Cheah Travel Grant which enabled him to better understand how cancer research projects are conducted as well as examining experimental models used to study cancer biology at Harvard University, Massachusetts General Hospital (MGH), a hospital affiliated with Harvard Medical School, and the Dana-Farber Cancer Institute.

To read the jointly published article: https://link.springer.com/article/10.1007/s00432-020-03231-9

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Joint Study by Sunway University and Harvard Medical School Shows Gene Therapy Can Advance Cancer Treatment - QS WOW News

CRISPR And CRISPR-Associated (Cas) Genes Market Research Report

Los Angeles, United States, July 8th, 2020, The report on the global CRISPR And CRISPR-Associated (Cas) Genes market is comprehensively prepared with main focus on the competitive landscape, geographical growth, segmentation, and market dynamics, including drivers, restraints, and opportunities. It sheds light on key production, revenue, and consumption trends so that players could improve their sales and growth in the Global CRISPR And CRISPR-Associated (Cas) Genes Market. It offers a detailed analysis of the competition and leading companies of the global CRISPR And CRISPR-Associated (Cas) Genes market. Here, it concentrates on the recent developments, sales, market value, production, gross margin, and other important factors of the business of top players operating in the global CRISPR And CRISPR-Associated (Cas) Genes market.

With deep quantitative and qualitative analysis, the report provides encyclopedic and accurate research study on important aspects of the global CRISPR And CRISPR-Associated (Cas) Genes market. It brings to light key factors affecting the growth of different segments and regions in the global CRISPR And CRISPR-Associated (Cas) Genes market. It also offers SWOT, Porters Five Forces, and PESTLE analysis to thoroughly examine the global CRISPR And CRISPR-Associated (Cas) Genes market. It gives a detailed study on manufacturing cost, upstream and downstream buyers, distributors, marketing strategy, and marketing channel development trends of the global CRISPR And CRISPR-Associated (Cas) Genes market. Furthermore, it provides strategic bits of advice and recommendations for players to ensure success in the global CRISPR And CRISPR-Associated (Cas) Genes market.

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.qyresearch.com/sample-form/form/1704011/covid-19-impact-on-global-crispr-and-crispr-associated-cas-genes-market

Some of the Important Key player operating in this Report are: , Caribou Biosciences, Addgene, CRISPR THERAPEUTICS, Merck KGaA, Mirus Bio LLC, Editas Medicine, Takara Bio USA, Thermo Fisher Scientific, Horizon Discovery Group, Intellia Therapeutics, GE Healthcare Dharmacon CRISPR And CRISPR-Associated (Cas) Genes

Segmental Analysis

The report has classified the global CRISPR And CRISPR-Associated (Cas) Genes industry into segments including product type and application. Every segment is evaluated based on growth rate and share. Besides, the analysts have studied the potential regions that may prove rewarding for the CRISPR And CRISPR-Associated (Cas) Genes manufacturers in the coming years. The regional analysis includes reliable predictions on value and volume, thereby helping market players to gain deep insights into the overall Railway Signaling System industry.

CRISPR And CRISPR-Associated (Cas) Genes Segmentation by Product

, Genome Editing, Genetic engineering, gRNA Database/Gene Librar, CRISPR Plasmid, Human Stem Cells, Genetically Modified Organisms/Crops, Cell Line Engineering CRISPR And CRISPR-Associated (Cas) Genes

CRISPR And CRISPR-Associated (Cas) Genes Segmentation by Application

Biotechnology Companies, Pharmaceutical Companies, Academic Institutes, Research and Development Institutes

Regions and Countries

The Middle East and Africa (GCC Countries and Egypt) North America (the United States, Mexico, and Canada) South America (Brazil etc.) Europe (Turkey, Germany, Russia UK, Italy, France, etc.) Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

Key Questions Answered

What is the size and CAGR of the global CRISPR And CRISPR-Associated (Cas) Genes market?

Which are the leading segments of the global CRISPR And CRISPR-Associated (Cas) Genes market?

What are the key driving factors of the most profitable regional market?

What is the nature of competition in the global CRISPR And CRISPR-Associated (Cas) Genes market?

How will the global CRISPR And CRISPR-Associated (Cas) Genes market advance in the coming years?

What are the main strategies adopted in the global CRISPR And CRISPR-Associated (Cas) Genes market?

Enquiry for Customization in the Report @https://www.qyresearch.com/customize-request/form/1704011/covid-19-impact-on-global-crispr-and-crispr-associated-cas-genes-market

Table of Contents

1 Study Coverage1.1 CRISPR And CRISPR-Associated (Cas) Genes Product Introduction1.2 Market Segments1.3 Key CRISPR And CRISPR-Associated (Cas) Genes Manufacturers Covered: Ranking by Revenue1.4 Market by Type1.4.1 Global CRISPR And CRISPR-Associated (Cas) Genes Market Size Growth Rate by Type1.4.2 Genome Editing1.4.3 Genetic engineering1.4.4 gRNA Database/Gene Librar1.4.5 CRISPR Plasmid1.4.6 Human Stem Cells1.4.7 Genetically Modified Organisms/Crops1.4.8 Cell Line Engineering1.5 Market by Application1.5.1 Global CRISPR And CRISPR-Associated (Cas) Genes Market Size Growth Rate by Application1.5.2 Biotechnology Companies1.5.3 Pharmaceutical Companies1.5.4 Academic Institutes1.5.5 Research and Development Institutes1.6 Coronavirus Disease 2019 (Covid-19): CRISPR And CRISPR-Associated (Cas) Genes Industry Impact1.6.1 How the Covid-19 is Affecting the CRISPR And CRISPR-Associated (Cas) Genes Industry

1.6.1.1 CRISPR And CRISPR-Associated (Cas) Genes Business Impact Assessment Covid-19

1.6.1.2 Supply Chain Challenges

1.6.1.3 COVID-19s Impact On Crude Oil and Refined Products1.6.2 Market Trends and CRISPR And CRISPR-Associated (Cas) Genes Potential Opportunities in the COVID-19 Landscape1.6.3 Measures / Proposal against Covid-19

1.6.3.1 Government Measures to Combat Covid-19 Impact

1.6.3.2 Proposal for CRISPR And CRISPR-Associated (Cas) Genes Players to Combat Covid-19 Impact1.7 Study Objectives1.8 Years Considered 2 Executive Summary2.1 Global CRISPR And CRISPR-Associated (Cas) Genes Market Size Estimates and Forecasts2.1.1 Global CRISPR And CRISPR-Associated (Cas) Genes Revenue 2015-20262.1.2 Global CRISPR And CRISPR-Associated (Cas) Genes Sales 2015-20262.2 CRISPR And CRISPR-Associated (Cas) Genes Market Size by Region: 2020 Versus 20262.2.1 Global CRISPR And CRISPR-Associated (Cas) Genes Retrospective Market Scenario in Sales by Region: 2015-20202.2.2 Global CRISPR And CRISPR-Associated (Cas) Genes Retrospective Market Scenario in Revenue by Region: 2015-2020 3 Global CRISPR And CRISPR-Associated (Cas) Genes Competitor Landscape by Players3.1 CRISPR And CRISPR-Associated (Cas) Genes Sales by Manufacturers3.1.1 CRISPR And CRISPR-Associated (Cas) Genes Sales by Manufacturers (2015-2020)3.1.2 CRISPR And CRISPR-Associated (Cas) Genes Sales Market Share by Manufacturers (2015-2020)3.2 CRISPR And CRISPR-Associated (Cas) Genes Revenue by Manufacturers3.2.1 CRISPR And CRISPR-Associated (Cas) Genes Revenue by Manufacturers (2015-2020)3.2.2 CRISPR And CRISPR-Associated (Cas) Genes Revenue Share by Manufacturers (2015-2020)3.2.3 Global CRISPR And CRISPR-Associated (Cas) Genes Market Concentration Ratio (CR5 and HHI) (2015-2020)3.2.4 Global Top 10 and Top 5 Companies by CRISPR And CRISPR-Associated (Cas) Genes Revenue in 20193.2.5 Global CRISPR And CRISPR-Associated (Cas) Genes Market Share by Company Type (Tier 1, Tier 2 and Tier 3)3.3 CRISPR And CRISPR-Associated (Cas) Genes Price by Manufacturers3.4 CRISPR And CRISPR-Associated (Cas) Genes Manufacturing Base Distribution, Product Types3.4.1 CRISPR And CRISPR-Associated (Cas) Genes Manufacturers Manufacturing Base Distribution, Headquarters3.4.2 Manufacturers CRISPR And CRISPR-Associated (Cas) Genes Product Type3.4.3 Date of International Manufacturers Enter into CRISPR And CRISPR-Associated (Cas) Genes Market3.5 Manufacturers Mergers & Acquisitions, Expansion Plans 4 Breakdown Data by Type (2015-2026)4.1 Global CRISPR And CRISPR-Associated (Cas) Genes Market Size by Type (2015-2020)4.1.1 Global CRISPR And CRISPR-Associated (Cas) Genes Sales by Type (2015-2020)4.1.2 Global CRISPR And CRISPR-Associated (Cas) Genes Revenue by Type (2015-2020)4.1.3 CRISPR And CRISPR-Associated (Cas) Genes Average Selling Price (ASP) by Type (2015-2026)4.2 Global CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast by Type (2021-2026)4.2.1 Global CRISPR And CRISPR-Associated (Cas) Genes Sales Forecast by Type (2021-2026)4.2.2 Global CRISPR And CRISPR-Associated (Cas) Genes Revenue Forecast by Type (2021-2026)4.2.3 CRISPR And CRISPR-Associated (Cas) Genes Average Selling Price (ASP) Forecast by Type (2021-2026)4.3 Global CRISPR And CRISPR-Associated (Cas) Genes Market Share by Price Tier (2015-2020): Low-End, Mid-Range and High-End 5 Breakdown Data by Application (2015-2026)5.1 Global CRISPR And CRISPR-Associated (Cas) Genes Market Size by Application (2015-2020)5.1.1 Global CRISPR And CRISPR-Associated (Cas) Genes Sales by Application (2015-2020)5.1.2 Global CRISPR And CRISPR-Associated (Cas) Genes Revenue by Application (2015-2020)5.1.3 CRISPR And CRISPR-Associated (Cas) Genes Price by Application (2015-2020)5.2 CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast by Application (2021-2026)5.2.1 Global CRISPR And CRISPR-Associated (Cas) Genes Sales Forecast by Application (2021-2026)5.2.2 Global CRISPR And CRISPR-Associated (Cas) Genes Revenue Forecast by Application (2021-2026)5.2.3 Global CRISPR And CRISPR-Associated (Cas) Genes Price Forecast by Application (2021-2026) 6 North America6.1 North America CRISPR And CRISPR-Associated (Cas) Genes by Country6.1.1 North America CRISPR And CRISPR-Associated (Cas) Genes Sales by Country6.1.2 North America CRISPR And CRISPR-Associated (Cas) Genes Revenue by Country6.1.3 U.S.6.1.4 Canada6.2 North America CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Type6.3 North America CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Application 7 Europe7.1 Europe CRISPR And CRISPR-Associated (Cas) Genes by Country7.1.1 Europe CRISPR And CRISPR-Associated (Cas) Genes Sales by Country7.1.2 Europe CRISPR And CRISPR-Associated (Cas) Genes Revenue by Country7.1.3 Germany7.1.4 France7.1.5 U.K.7.1.6 Italy7.1.7 Russia7.2 Europe CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Type7.3 Europe CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Application 8 Asia Pacific8.1 Asia Pacific CRISPR And CRISPR-Associated (Cas) Genes by Region8.1.1 Asia Pacific CRISPR And CRISPR-Associated (Cas) Genes Sales by Region8.1.2 Asia Pacific CRISPR And CRISPR-Associated (Cas) Genes Revenue by Region8.1.3 China8.1.4 Japan8.1.5 South Korea8.1.6 India8.1.7 Australia8.1.8 Taiwan8.1.9 Indonesia8.1.10 Thailand8.1.11 Malaysia8.1.12 Philippines8.1.13 Vietnam8.2 Asia Pacific CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Type8.3 Asia Pacific CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Application 9 Latin America9.1 Latin America CRISPR And CRISPR-Associated (Cas) Genes by Country9.1.1 Latin America CRISPR And CRISPR-Associated (Cas) Genes Sales by Country9.1.2 Latin America CRISPR And CRISPR-Associated (Cas) Genes Revenue by Country9.1.3 Mexico9.1.4 Brazil9.1.5 Argentina9.2 Central & South America CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Type9.3 Central & South America CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Application 10 Middle East and Africa10.1 Middle East and Africa CRISPR And CRISPR-Associated (Cas) Genes by Country10.1.1 Middle East and Africa CRISPR And CRISPR-Associated (Cas) Genes Sales by Country10.1.2 Middle East and Africa CRISPR And CRISPR-Associated (Cas) Genes Revenue by Country10.1.3 Turkey10.1.4 Saudi Arabia10.1.5 UAE10.2 Middle East and Africa CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Type10.3 Middle East and Africa CRISPR And CRISPR-Associated (Cas) Genes Market Facts & Figures by Application 11 Company Profiles11.1 Caribou Biosciences11.1.1 Caribou Biosciences Corporation Information11.1.2 Caribou Biosciences Description, Business Overview and Total Revenue11.1.3 Caribou Biosciences Sales, Revenue and Gross Margin (2015-2020)11.1.4 Caribou Biosciences CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.1.5 Caribou Biosciences Recent Development11.2 Addgene11.2.1 Addgene Corporation Information11.2.2 Addgene Description, Business Overview and Total Revenue11.2.3 Addgene Sales, Revenue and Gross Margin (2015-2020)11.2.4 Addgene CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.2.5 Addgene Recent Development11.3 CRISPR THERAPEUTICS11.3.1 CRISPR THERAPEUTICS Corporation Information11.3.2 CRISPR THERAPEUTICS Description, Business Overview and Total Revenue11.3.3 CRISPR THERAPEUTICS Sales, Revenue and Gross Margin (2015-2020)11.3.4 CRISPR THERAPEUTICS CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.3.5 CRISPR THERAPEUTICS Recent Development11.4 Merck KGaA11.4.1 Merck KGaA Corporation Information11.4.2 Merck KGaA Description, Business Overview and Total Revenue11.4.3 Merck KGaA Sales, Revenue and Gross Margin (2015-2020)11.4.4 Merck KGaA CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.4.5 Merck KGaA Recent Development11.5 Mirus Bio LLC11.5.1 Mirus Bio LLC Corporation Information11.5.2 Mirus Bio LLC Description, Business Overview and Total Revenue11.5.3 Mirus Bio LLC Sales, Revenue and Gross Margin (2015-2020)11.5.4 Mirus Bio LLC CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.5.5 Mirus Bio LLC Recent Development11.6 Editas Medicine11.6.1 Editas Medicine Corporation Information11.6.2 Editas Medicine Description, Business Overview and Total Revenue11.6.3 Editas Medicine Sales, Revenue and Gross Margin (2015-2020)11.6.4 Editas Medicine CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.6.5 Editas Medicine Recent Development11.7 Takara Bio USA11.7.1 Takara Bio USA Corporation Information11.7.2 Takara Bio USA Description, Business Overview and Total Revenue11.7.3 Takara Bio USA Sales, Revenue and Gross Margin (2015-2020)11.7.4 Takara Bio USA CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.7.5 Takara Bio USA Recent Development11.8 Thermo Fisher Scientific11.8.1 Thermo Fisher Scientific Corporation Information11.8.2 Thermo Fisher Scientific Description, Business Overview and Total Revenue11.8.3 Thermo Fisher Scientific Sales, Revenue and Gross Margin (2015-2020)11.8.4 Thermo Fisher Scientific CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.8.5 Thermo Fisher Scientific Recent Development11.9 Horizon Discovery Group11.9.1 Horizon Discovery Group Corporation Information11.9.2 Horizon Discovery Group Description, Business Overview and Total Revenue11.9.3 Horizon Discovery Group Sales, Revenue and Gross Margin (2015-2020)11.9.4 Horizon Discovery Group CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.9.5 Horizon Discovery Group Recent Development11.10 Intellia Therapeutics11.10.1 Intellia Therapeutics Corporation Information11.10.2 Intellia Therapeutics Description, Business Overview and Total Revenue11.10.3 Intellia Therapeutics Sales, Revenue and Gross Margin (2015-2020)11.10.4 Intellia Therapeutics CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.10.5 Intellia Therapeutics Recent Development11.1 Caribou Biosciences11.1.1 Caribou Biosciences Corporation Information11.1.2 Caribou Biosciences Description, Business Overview and Total Revenue11.1.3 Caribou Biosciences Sales, Revenue and Gross Margin (2015-2020)11.1.4 Caribou Biosciences CRISPR And CRISPR-Associated (Cas) Genes Products Offered11.1.5 Caribou Biosciences Recent Development 12 Future Forecast by Regions (Countries) (2021-2026)12.1 CRISPR And CRISPR-Associated (Cas) Genes Market Estimates and Projections by Region12.1.1 Global CRISPR And CRISPR-Associated (Cas) Genes Sales Forecast by Regions 2021-202612.1.2 Global CRISPR And CRISPR-Associated (Cas) Genes Revenue Forecast by Regions 2021-202612.2 North America CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast (2021-2026)12.2.1 North America: CRISPR And CRISPR-Associated (Cas) Genes Sales Forecast (2021-2026)12.2.2 North America: CRISPR And CRISPR-Associated (Cas) Genes Revenue Forecast (2021-2026)12.2.3 North America: CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast by Country (2021-2026)12.3 Europe CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast (2021-2026)12.3.1 Europe: CRISPR And CRISPR-Associated (Cas) Genes Sales Forecast (2021-2026)12.3.2 Europe: CRISPR And CRISPR-Associated (Cas) Genes Revenue Forecast (2021-2026)12.3.3 Europe: CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast by Country (2021-2026)12.4 Asia Pacific CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast (2021-2026)12.4.1 Asia Pacific: CRISPR And CRISPR-Associated (Cas) Genes Sales Forecast (2021-2026)12.4.2 Asia Pacific: CRISPR And CRISPR-Associated (Cas) Genes Revenue Forecast (2021-2026)12.4.3 Asia Pacific: CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast by Region (2021-2026)12.5 Latin America CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast (2021-2026)12.5.1 Latin America: CRISPR And CRISPR-Associated (Cas) Genes Sales Forecast (2021-2026)12.5.2 Latin America: CRISPR And CRISPR-Associated (Cas) Genes Revenue Forecast (2021-2026)12.5.3 Latin America: CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast by Country (2021-2026)12.6 Middle East and Africa CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast (2021-2026)12.6.1 Middle East and Africa: CRISPR And CRISPR-Associated (Cas) Genes Sales Forecast (2021-2026)12.6.2 Middle East and Africa: CRISPR And CRISPR-Associated (Cas) Genes Revenue Forecast (2021-2026)12.6.3 Middle East and Africa: CRISPR And CRISPR-Associated (Cas) Genes Market Size Forecast by Country (2021-2026) 13 Market Opportunities, Challenges, Risks and Influences Factors Analysis13.1 Market Opportunities and Drivers13.2 Market Challenges13.3 Market Risks/Restraints13.4 Porters Five Forces Analysis13.5 Primary Interviews with Key CRISPR And CRISPR-Associated (Cas) Genes Players (Opinion Leaders) 14 Value Chain and Sales Channels Analysis14.1 Value Chain Analysis14.2 CRISPR And CRISPR-Associated (Cas) Genes Customers14.3 Sales Channels Analysis14.3.1 Sales Channels14.3.2 Distributors 15 Research Findings and Conclusion 16 Appendix16.1 Research Methodology16.1.1 Methodology/Research Approach16.1.2 Data Source16.2 Author Details

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CRISPR And CRISPR-Associated (Cas) Genes Market Status, Players, Types, Applications, and Forecast 2020-2026|Addgene, CRISPR THERAPEUTICS, Merck KGaA...