Home > Resources > Articles > Maine Takes Big Step Towards Reducing Carbon Footprint and Creating Green Jobs

Maine Takes Big Step Towards Reducing Carbon Footprint and Creating Green Jobs

JOSH FALZONE | June 26, 2019 | 71 views

In case you missed it, the Maine State Senate last week unanimously passed legislation that will help foster the production of environmentally-friendly innovations like plant-based plastics, renewable chemicals, and biofuels as well as speed up Maine’s transformation to a 21st-century, bio-based economy that generates green products and jobs. The bill establishes a tax credit for creating renewable products from forest, farm, sea, or solid waste biomass and brings back another tax credit for the commercial production and use of biofuels. It now heads to the desk of Governor Janet Mills to be signed into law.

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Natera

Natera is a San Carlos, CA-based company that is driven by a passion for elevating the science and utility of prenatal testing.

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MEDTECH

Top 10 biotech IPOs in 2019

Article | October 7, 2022

The big question at the start of 2019 was whether the IPO window would stay open for biotech companies, particularly those seeking to pull off ever-larger IPOs at increasingly earlier stages of development. The short answer is yes—kind of. Here’s the long answer: In the words of Renaissance Capital, the IPO market had “a mostly good year.” The total number of deals fell to 159 from 192 the year before, but technology and healthcare companies were standout performers. The latter—which include biotech, medtech and diagnostics companies—led the pack, making up 43% of all IPOs in 2019. By Renaissance’s count, seven companies went public at valuations exceeding $1 billion, up from five the year before

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MEDTECH

Cell Out? Lysate-Based Expression an Option for Personalized Meds

Article | July 12, 2022

Cell-free expression (CFE) is the practice of making a protein without using a living cell. In contrast with cell line-based methods, production is achieved using a fluid containing biological components extracted from a cell, i.e., a lysate. CFE offers potential advantages for biopharma according to Philip Probert, PhD, a senior scientist at the Centre for Process Innovation in the U.K.

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RESEARCH

Closing bacterial genomes from the human gut microbiome using long-read sequencing

Article | July 11, 2022

In our lab, we focus on the impact of the gut microbiome on human health and disease. To evaluate this relationship, it’s important to understand the particular functions that different bacteria have. As bacteria are able to exchange, duplicate, and rearrange their genes in ways that directly affect their phenotypes, complete bacterial genomes assembled directly from human samples are essential to understand the strain variation and potential functions of the bacteria we host. Advances in the microbiome space have allowed for the de novo assembly of microbial genomes directly from metagenomes via short-read sequencing, assembly of reads into contigs, and binning of contigs into putative genome drafts. This is advantageous because it allows us to discover microbes without culturing them, directly from human samples and without reference databases. In the past year, there have been a number of tour de force efforts to broadly characterize the human gut microbiota through the creation of such metagenome-assembled genomes (MAGs)[1–4]. These works have produced hundreds of thousands of microbial genomes that vastly increase our understanding of the human gut. However, challenges in the assembly of short reads has limited our ability to correctly assemble repeated genomic elements and place them into genomic context. Thus, existing MAGs are often fragmented and do not include mobile genetic elements, 16S rRNA sequences, and other elements that are repeated or have high identity within and across bacterial genomes.

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Selexis Cell Line Development Strategies

Article | February 11, 2020

In today’s biotechnology landscape, to be competitive, meet regulations, and achieve market demands, “we must apply Bioprocessing 4.0,” said Igor Fisch, PhD, CEO, Selexis. In fact, in the last decade, “Selexis has evolved from cloning by limiting dilution to automated cell selection to nanofluidic chips and from monoclonality assessment by statistical calculation to proprietary bioinformatic analysis,” he added. Single-use processing systems are an expanding part of the biomanufacturing world; as such, they are a major component of Bioprocessing 4.0. “At Selexis, we use single use throughout our cell line development workflow. Currently, we have incorporated single-use automated bioprocessing systems such as ambr® and the Beacon® optofluidic platform for accelerated cell line development. By using these systems and optimizing our parameters, we were able to achieve high titers in shake flasks. Additionally, the Beacon systems integrate miniaturized cell culture with high-throughput liquid handling automation and cell imaging. This allows us to control, adjust, and monitor programs at the same time,” noted Fisch.

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MEDTECH

How to Choose a Reliable Biotech Clinical Trial Management System?

Article | October 7, 2022

The big question at the start of 2019 was whether the IPO window would stay open for biotech companies, particularly those seeking to pull off ever-larger IPOs at increasingly earlier stages of development. The short answer is yes—kind of. Here’s the long answer: In the words of Renaissance Capital, the IPO market had “a mostly good year.” The total number of deals fell to 159 from 192 the year before, but technology and healthcare companies were standout performers. The latter—which include biotech, medtech and diagnostics companies—led the pack, making up 43% of all IPOs in 2019. By Renaissance’s count, seven companies went public at valuations exceeding $1 billion, up from five the year before

Read More
MEDTECH

Expansion of BioPharma: Opportunities and Investments

Article | July 12, 2022

Cell-free expression (CFE) is the practice of making a protein without using a living cell. In contrast with cell line-based methods, production is achieved using a fluid containing biological components extracted from a cell, i.e., a lysate. CFE offers potential advantages for biopharma according to Philip Probert, PhD, a senior scientist at the Centre for Process Innovation in the U.K.

Read More
RESEARCH

2022 U.S. Market Research Report with COVID-19 Forecasts2

Article | July 11, 2022

In our lab, we focus on the impact of the gut microbiome on human health and disease. To evaluate this relationship, it’s important to understand the particular functions that different bacteria have. As bacteria are able to exchange, duplicate, and rearrange their genes in ways that directly affect their phenotypes, complete bacterial genomes assembled directly from human samples are essential to understand the strain variation and potential functions of the bacteria we host. Advances in the microbiome space have allowed for the de novo assembly of microbial genomes directly from metagenomes via short-read sequencing, assembly of reads into contigs, and binning of contigs into putative genome drafts. This is advantageous because it allows us to discover microbes without culturing them, directly from human samples and without reference databases. In the past year, there have been a number of tour de force efforts to broadly characterize the human gut microbiota through the creation of such metagenome-assembled genomes (MAGs)[1–4]. These works have produced hundreds of thousands of microbial genomes that vastly increase our understanding of the human gut. However, challenges in the assembly of short reads has limited our ability to correctly assemble repeated genomic elements and place them into genomic context. Thus, existing MAGs are often fragmented and do not include mobile genetic elements, 16S rRNA sequences, and other elements that are repeated or have high identity within and across bacterial genomes.

Read More

Selexis Cell Line Development Strategies

Article | February 11, 2020

In today’s biotechnology landscape, to be competitive, meet regulations, and achieve market demands, “we must apply Bioprocessing 4.0,” said Igor Fisch, PhD, CEO, Selexis. In fact, in the last decade, “Selexis has evolved from cloning by limiting dilution to automated cell selection to nanofluidic chips and from monoclonality assessment by statistical calculation to proprietary bioinformatic analysis,” he added. Single-use processing systems are an expanding part of the biomanufacturing world; as such, they are a major component of Bioprocessing 4.0. “At Selexis, we use single use throughout our cell line development workflow. Currently, we have incorporated single-use automated bioprocessing systems such as ambr® and the Beacon® optofluidic platform for accelerated cell line development. By using these systems and optimizing our parameters, we were able to achieve high titers in shake flasks. Additionally, the Beacon systems integrate miniaturized cell culture with high-throughput liquid handling automation and cell imaging. This allows us to control, adjust, and monitor programs at the same time,” noted Fisch.

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Spotlight

Natera

Natera is a San Carlos, CA-based company that is driven by a passion for elevating the science and utility of prenatal testing.

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INDUSTRIAL IMPACT, DIAGNOSTICS

Vaxxinity Announces First Subjects Dosed in Phase 1 Clinical Trial of VXX-401, Investigational Anti-PCSK9 Vaccine to Treat Hypercholesterolemia

Vaxxinity, Inc. | March 21, 2023

Vaxxinity, Inc. a U.S. company pioneering the development of a new class of immunotherapeutic vaccines, announced that the first subjects have been dosed in a randomized, double-blind, placebo-controlled Phase 1 clinical trial of VXX-401, an investigational vaccine designed to lower low-density lipoprotein (LDL) cholesterol, a known factor contributing to heart disease, by targeting proprotein convertase subtilisin/kexin type 9 serine protease (PCSK9). Heart disease remains the leading cause of death globally, claiming over 18 million lives per year, despite the existence of approved treatments that lower LDL. “This is an exciting milestone for VXX-401 and Vaxxinity in our pursuit to vaccinate the world against heart disease with a preventative option that is convenient and accessible, addressing an unmet need to combat the leading global cause of death,” said Mei Mei Hu, Chief Executive Officer of Vaxxinity. “PCSK9 antibody therapies are well-tolerated and effective, but huge unmet patient need remains. In order to solve the problem of heart disease, the world needs a scalable, accessible technology that can reach the hundreds of millions, if not billions of people at risk. With an LDL-lowering vaccine we can potentially offer an option that’s cost-effective, safe, convenient, long-acting, and deployable.” The multicenter Phase 1 dose-escalation trial aims to enroll 48 subjects aged 18 to 75 years, with LDL cholesterol between 2.59 and 4.89 mmol/L. The objectives of the trial are to evaluate safety, tolerability and immunogenicity (as measured by serum anti-PCSK9 antibody titers). Pharmacodynamics of the immune response will be measured by LDL cholesterol levels, an established model of PCSK9 inhibition in hypercholesterolemia. “We’re excited to get this first-in-human trial of VXX-401 started. The concept of a vaccine for cholesterol could be a game-changer in cardiovascular health due to its potentially very broad reach and impact on human health,” said Professor Stephen Nicholls of Monash University and Victorian Heart Hospital in Australia. “Targeting PCSK9 with a monoclonal antibody is a proven and effective approach for lowering cholesterol and reducing the risk of heart attack and stroke. Despite the availability of statins and the approval of PCSK9-targeting medicines, there is still a need for new therapies. VXX-401 has the potential to extend the use of PCSK9 inhibition to the full population who could benefit.” Earlier this month, Vaxxinity presented pre-clinical data at the American College of Cardiology/World Congress of Cardiology Annual Scientific Session demonstrating that VXX-401 induced robust anti-PCSK9 antibodies and durable LDL cholesterol lowering without affecting high-density lipoprotein (HDL) cholesterol levels, indicating that VXX-401 has the potential to be a safe and effective LDL lowering therapy. Data in non-human primate studies show that VXX-401 was well tolerated and provided durable and significant LDL reduction of 30% to 50% change from baseline. The data also demonstrate VXX-401’s immunogenicity: purified antibodies from immunized animals bound to human PCSK9 with high affinity, and exhibited a dose-dependent functional inhibition of PCSK9 in vitro. Additionally, Peripheral Blood Mononuclear Cells (PBMCs) collected prior to immunization did not release cytokines upon stimulation with various components of the vaccine, suggesting that VXX-401 may safely overcome immune tolerance. About VXX-401 VXX-401 was designed using Vaxxinity’s proprietary synthetic peptide vaccine platform and is being developed for the treatment of hypercholesterolemia. The platform is designed to harness the immune system to convert the body into its own natural “drug factory,” stimulating the production of antibodies. VXX-401 is designed to induce robust, long-acting antibodies against PCSK9 in order to lower LDL cholesterol. About Vaxxinity Vaxxinity, Inc. is a purpose-driven biotechnology company committed to democratizing healthcare across the globe. The company is pioneering a new class of synthetic, peptide-based immunotherapeutic vaccines aimed at disrupting the existing treatment paradigm for chronic disease, increasingly dominated by monoclonal antibodies, which suffer from prohibitive costs and cumbersome administration. The company’s proprietary technology platform has enabled the innovation of novel pipeline candidates designed to bring the efficiency of vaccines to the treatment of chronic diseases, including Alzheimer’s, Parkinson’s, migraine, and hypercholesterolemia. The technology is also implemented as part of a COVID-19 vaccine program. Vaxxinity has optimized its pipeline to achieve a potentially historic, global impact on human health.

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CELL AND GENE THERAPY, INDUSTRIAL IMPACT

Bio-Techne Announces Completion of and Gene Therapy Catapult Analytical Technology (PAT) Consortium

Bio-Techne Corporation | March 20, 2023

Bio-Techne Corporation announced it has completed its participation in the Cell and Gene Therapy Catapult Process Analytical Technology (Catapult PAT) consortium, a multi-year collaboration involving 24 partner companies, technology providers, therapy developers, and charities. The Catapult PAT consortium is the first initiative of this scale and functional expertise with member companies and organizations collaborating to develop cell and gene therapy-specific process analytical technologies. The PAT initiative began in January 2021 with a series of experiments designed to monitor process parameters of an exemplar 8-day T-cell expansion bioprocess using primary T-cells. Data were gathered from five independent analyses to generate an extensive, world-first dataset. An analysis of multiple cytokine targets was conducted using high-plex Luminex® immunoassays and the precision multiplexing Ella™ platform from Bio-Techne. The automated workflow of the Ella platform proved to be particularly amenable to the efficiency, accuracy, and throughput demands inherent in a bioprocess manufacturing environment. With its robust performance in this project, the Cell and Gene Therapy Catapult plans to incorporate Ella™ into an existing CGT Catapult facility to further support scientists in the UK. "As a leader in the forefront of innovative tools to measure cytokines, we are honored to be a part of the Catapult PAT initiative to help advance cell and gene therapy development," said Will Geist, President of Bio-Techne's Protein Sciences Segment. "Bio-Techne remains excited about the potential of these advanced therapies to improve patient outcomes and treat a wide range of diseases that currently have very poor or ineffective treatments." Established by Innovate UK, the Cell and Gene Therapy Catapult fosters collaborations between academia, industry, and healthcare providers to develop new technology and drive innovation. Catapult experts cover all aspects of advanced therapies, from research and development to clinical adoption and every step in between. About Bio-Techne Bio-Techne Corporation is a global life sciences company providing innovative tools and bioactive reagents for the research and clinical diagnostic communities. Bio-Techne products assist scientific investigations into biological processes and the nature and progress of specific diseases. They aid in drug discovery efforts and provide the means for accurate clinical tests and diagnoses. With thousands of products in its portfolio, Bio-Techne generated approximately $1.1 billion in net sales in fiscal 2022 and has approximately 3,000employees worldwide.

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INDUSTRIAL IMPACT, MEDICAL

Synthego Introduces CRISPR Discovery Partners to Streamline CRISPR-Driven Drug Discovery Research

Synthego | March 17, 2023

Synthego Corp., a leading genome engineering solutions provider, announced today the launch of its service partner ecosystem, CRISPR Discovery Partners, designed to accelerate drug discovery by providing a seamless research workflow from CRISPR editing to phenotypic data and downstream services. The ecosystem brings together high-value partners including Arctoris, BrainXell, Curia, PhenoVista, and Pluristyx to offer a coordinated solution for CRISPR-driven drug discovery. The CRISPR Discovery Partner ecosystem creates an integrated workflow starting with Synthego's CRISPR Engineered Cells through functional readouts, providing researchers with a faster, more efficient, and more reliable way to move their discoveries forward. Researchers can access the full range of genome engineering services through Synthego, as well as downstream services including small molecule screening, cell-based assays, high content imaging, iPSC differentiation, and multi-omics through partners. The result is a streamlined drug discovery process that can help accelerate the development of life-saving treatments. Synthego's CRISPR Discovery Partners include Arctoris, a tech-enabled drug discovery service company, combines wet lab automation and machine learning with a world-class team of experienced drug discovery researchers to enable the accelerated development of small molecule, biologics, and cell therapy assets. BrainXell provides differentiation services to generate high-purity, iPSC-derived human neurons, astrocytes, and microglia for research use with a focus on drug discovery. BrainXell also offers fibroblast reprogramming and select downstream assay services. Curia, a global contract research, development and manufacturing organization (CDMO), offers products and services from discovery through manufacturing to help customers transform R&D results into real-world impact. PhenoVista, a San Diego-based CRO, specializes in modern, human, cell-based in vitro assay development and analysis. Internationally recognized for developing and implementing both fully bespoke projects and pre-validated Ready-2-Go assay services, this award-winning research partner leverages high-content imaging to enable life scientists to accelerate their discovery of novel therapeutics and improve global health. Pluristyx offers expertise and tools to support and accelerate the development and commercialization of revolutionary therapeutics to treat serious human diseases by providing unique products, consulting, and contract services, including cell line expansion and banking. About Synthego Synthego is a genome engineering company that enables the acceleration of life science research and development in the pursuit of improved human health. The company leverages machine learning, automation, and gene editing to build platforms and products for science at scale. With its foundations in engineering disciplines, the company's platform technologies vertically integrate proprietary hardware, software, bioinformatics, chemistries, and molecular biology to advance basic research, target validation, and clinical trials. With its technologies cited in hundreds of peer-reviewed publications and utilized by thousands of commercial and academic researchers and therapeutic drug developers, Synthego is at the forefront of innovation enabling the next generation of medicines by delivering genome editing at an unprecedented scale.

Read More

INDUSTRIAL IMPACT, DIAGNOSTICS

Vaxxinity Announces First Subjects Dosed in Phase 1 Clinical Trial of VXX-401, Investigational Anti-PCSK9 Vaccine to Treat Hypercholesterolemia

Vaxxinity, Inc. | March 21, 2023

Vaxxinity, Inc. a U.S. company pioneering the development of a new class of immunotherapeutic vaccines, announced that the first subjects have been dosed in a randomized, double-blind, placebo-controlled Phase 1 clinical trial of VXX-401, an investigational vaccine designed to lower low-density lipoprotein (LDL) cholesterol, a known factor contributing to heart disease, by targeting proprotein convertase subtilisin/kexin type 9 serine protease (PCSK9). Heart disease remains the leading cause of death globally, claiming over 18 million lives per year, despite the existence of approved treatments that lower LDL. “This is an exciting milestone for VXX-401 and Vaxxinity in our pursuit to vaccinate the world against heart disease with a preventative option that is convenient and accessible, addressing an unmet need to combat the leading global cause of death,” said Mei Mei Hu, Chief Executive Officer of Vaxxinity. “PCSK9 antibody therapies are well-tolerated and effective, but huge unmet patient need remains. In order to solve the problem of heart disease, the world needs a scalable, accessible technology that can reach the hundreds of millions, if not billions of people at risk. With an LDL-lowering vaccine we can potentially offer an option that’s cost-effective, safe, convenient, long-acting, and deployable.” The multicenter Phase 1 dose-escalation trial aims to enroll 48 subjects aged 18 to 75 years, with LDL cholesterol between 2.59 and 4.89 mmol/L. The objectives of the trial are to evaluate safety, tolerability and immunogenicity (as measured by serum anti-PCSK9 antibody titers). Pharmacodynamics of the immune response will be measured by LDL cholesterol levels, an established model of PCSK9 inhibition in hypercholesterolemia. “We’re excited to get this first-in-human trial of VXX-401 started. The concept of a vaccine for cholesterol could be a game-changer in cardiovascular health due to its potentially very broad reach and impact on human health,” said Professor Stephen Nicholls of Monash University and Victorian Heart Hospital in Australia. “Targeting PCSK9 with a monoclonal antibody is a proven and effective approach for lowering cholesterol and reducing the risk of heart attack and stroke. Despite the availability of statins and the approval of PCSK9-targeting medicines, there is still a need for new therapies. VXX-401 has the potential to extend the use of PCSK9 inhibition to the full population who could benefit.” Earlier this month, Vaxxinity presented pre-clinical data at the American College of Cardiology/World Congress of Cardiology Annual Scientific Session demonstrating that VXX-401 induced robust anti-PCSK9 antibodies and durable LDL cholesterol lowering without affecting high-density lipoprotein (HDL) cholesterol levels, indicating that VXX-401 has the potential to be a safe and effective LDL lowering therapy. Data in non-human primate studies show that VXX-401 was well tolerated and provided durable and significant LDL reduction of 30% to 50% change from baseline. The data also demonstrate VXX-401’s immunogenicity: purified antibodies from immunized animals bound to human PCSK9 with high affinity, and exhibited a dose-dependent functional inhibition of PCSK9 in vitro. Additionally, Peripheral Blood Mononuclear Cells (PBMCs) collected prior to immunization did not release cytokines upon stimulation with various components of the vaccine, suggesting that VXX-401 may safely overcome immune tolerance. About VXX-401 VXX-401 was designed using Vaxxinity’s proprietary synthetic peptide vaccine platform and is being developed for the treatment of hypercholesterolemia. The platform is designed to harness the immune system to convert the body into its own natural “drug factory,” stimulating the production of antibodies. VXX-401 is designed to induce robust, long-acting antibodies against PCSK9 in order to lower LDL cholesterol. About Vaxxinity Vaxxinity, Inc. is a purpose-driven biotechnology company committed to democratizing healthcare across the globe. The company is pioneering a new class of synthetic, peptide-based immunotherapeutic vaccines aimed at disrupting the existing treatment paradigm for chronic disease, increasingly dominated by monoclonal antibodies, which suffer from prohibitive costs and cumbersome administration. The company’s proprietary technology platform has enabled the innovation of novel pipeline candidates designed to bring the efficiency of vaccines to the treatment of chronic diseases, including Alzheimer’s, Parkinson’s, migraine, and hypercholesterolemia. The technology is also implemented as part of a COVID-19 vaccine program. Vaxxinity has optimized its pipeline to achieve a potentially historic, global impact on human health.

Read More

CELL AND GENE THERAPY, INDUSTRIAL IMPACT

Bio-Techne Announces Completion of and Gene Therapy Catapult Analytical Technology (PAT) Consortium

Bio-Techne Corporation | March 20, 2023

Bio-Techne Corporation announced it has completed its participation in the Cell and Gene Therapy Catapult Process Analytical Technology (Catapult PAT) consortium, a multi-year collaboration involving 24 partner companies, technology providers, therapy developers, and charities. The Catapult PAT consortium is the first initiative of this scale and functional expertise with member companies and organizations collaborating to develop cell and gene therapy-specific process analytical technologies. The PAT initiative began in January 2021 with a series of experiments designed to monitor process parameters of an exemplar 8-day T-cell expansion bioprocess using primary T-cells. Data were gathered from five independent analyses to generate an extensive, world-first dataset. An analysis of multiple cytokine targets was conducted using high-plex Luminex® immunoassays and the precision multiplexing Ella™ platform from Bio-Techne. The automated workflow of the Ella platform proved to be particularly amenable to the efficiency, accuracy, and throughput demands inherent in a bioprocess manufacturing environment. With its robust performance in this project, the Cell and Gene Therapy Catapult plans to incorporate Ella™ into an existing CGT Catapult facility to further support scientists in the UK. "As a leader in the forefront of innovative tools to measure cytokines, we are honored to be a part of the Catapult PAT initiative to help advance cell and gene therapy development," said Will Geist, President of Bio-Techne's Protein Sciences Segment. "Bio-Techne remains excited about the potential of these advanced therapies to improve patient outcomes and treat a wide range of diseases that currently have very poor or ineffective treatments." Established by Innovate UK, the Cell and Gene Therapy Catapult fosters collaborations between academia, industry, and healthcare providers to develop new technology and drive innovation. Catapult experts cover all aspects of advanced therapies, from research and development to clinical adoption and every step in between. About Bio-Techne Bio-Techne Corporation is a global life sciences company providing innovative tools and bioactive reagents for the research and clinical diagnostic communities. Bio-Techne products assist scientific investigations into biological processes and the nature and progress of specific diseases. They aid in drug discovery efforts and provide the means for accurate clinical tests and diagnoses. With thousands of products in its portfolio, Bio-Techne generated approximately $1.1 billion in net sales in fiscal 2022 and has approximately 3,000employees worldwide.

Read More

INDUSTRIAL IMPACT, MEDICAL

Synthego Introduces CRISPR Discovery Partners to Streamline CRISPR-Driven Drug Discovery Research

Synthego | March 17, 2023

Synthego Corp., a leading genome engineering solutions provider, announced today the launch of its service partner ecosystem, CRISPR Discovery Partners, designed to accelerate drug discovery by providing a seamless research workflow from CRISPR editing to phenotypic data and downstream services. The ecosystem brings together high-value partners including Arctoris, BrainXell, Curia, PhenoVista, and Pluristyx to offer a coordinated solution for CRISPR-driven drug discovery. The CRISPR Discovery Partner ecosystem creates an integrated workflow starting with Synthego's CRISPR Engineered Cells through functional readouts, providing researchers with a faster, more efficient, and more reliable way to move their discoveries forward. Researchers can access the full range of genome engineering services through Synthego, as well as downstream services including small molecule screening, cell-based assays, high content imaging, iPSC differentiation, and multi-omics through partners. The result is a streamlined drug discovery process that can help accelerate the development of life-saving treatments. Synthego's CRISPR Discovery Partners include Arctoris, a tech-enabled drug discovery service company, combines wet lab automation and machine learning with a world-class team of experienced drug discovery researchers to enable the accelerated development of small molecule, biologics, and cell therapy assets. BrainXell provides differentiation services to generate high-purity, iPSC-derived human neurons, astrocytes, and microglia for research use with a focus on drug discovery. BrainXell also offers fibroblast reprogramming and select downstream assay services. Curia, a global contract research, development and manufacturing organization (CDMO), offers products and services from discovery through manufacturing to help customers transform R&D results into real-world impact. PhenoVista, a San Diego-based CRO, specializes in modern, human, cell-based in vitro assay development and analysis. Internationally recognized for developing and implementing both fully bespoke projects and pre-validated Ready-2-Go assay services, this award-winning research partner leverages high-content imaging to enable life scientists to accelerate their discovery of novel therapeutics and improve global health. Pluristyx offers expertise and tools to support and accelerate the development and commercialization of revolutionary therapeutics to treat serious human diseases by providing unique products, consulting, and contract services, including cell line expansion and banking. About Synthego Synthego is a genome engineering company that enables the acceleration of life science research and development in the pursuit of improved human health. The company leverages machine learning, automation, and gene editing to build platforms and products for science at scale. With its foundations in engineering disciplines, the company's platform technologies vertically integrate proprietary hardware, software, bioinformatics, chemistries, and molecular biology to advance basic research, target validation, and clinical trials. With its technologies cited in hundreds of peer-reviewed publications and utilized by thousands of commercial and academic researchers and therapeutic drug developers, Synthego is at the forefront of innovation enabling the next generation of medicines by delivering genome editing at an unprecedented scale.

Read More

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