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Manchester, United States
1-10 Employees
2019
A bioinformatics consulting company offering state of the art transcriptomics analyses, bioinformatics support and educational materials for your lab or business. LCN Bioinformatics is dedicated to implementing the most innovative bioinformatic approaches for your RNA-Seq analysis needs.
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LCN Bioinformatics
... A bioinformatics consulting company offering state of the art transcriptomics analyses, bioinformatics support and educational materials for your lab or business. ...
Cape Town, South Africa
251-500 Employees
2020
Our services are developed and validated using world class datasets and state-of-the-art technology to ensure the highest level of qual. Our services are developed and validated using world class datasets and state-of-the-art technology and approaches to ensure the highest level of quality. Our services combine cutting-edge, information-rich omics technologies with data sciences and bio-computational applications to convert digital big omics data into scientific knowledge alongside clinical and pharmaceutical applications. Of course, we are also pleased to help you with the interpretation and reporting of the results. We provide the clients our automate state-of-the-art app for an affordable personalized athletic performance prediction and track. We provide variants analysis including high-quality mapping of short and long read data, biological annotation, Protein-Protein Interaction analysis, in silico mutation prioritization and summarizing SNPs, InDels, and CNVs in your sample. Omics Data Solutions is an expert organization offering comprehensive solutions in all aspects of digital ‘omics’ data science to help transform omics data into knowledge. Biomedical data and “Omics” provide an awesome opportunity to improve understanding of the mechanisms of disease and ultimately to improve human health care.
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Bioinformatics Programming With Python
... Bioinformatics Programming With Python – Omics Data ...
Aarhus, Denmark
1-10 Employees
2018
We deliver flexible solutions to your specific demands. We provide you with easy and accessible results that are interpretable and publication-ready. The duo quickly gained a reputation as the experts in NGS technology. This resulted in the two of them together founding omiics in 2018. NGS service provider with a focus on customer needs. We have spent many years building expertise in every detail of RNA sequencing - from laboratory design to tailoring the bioinformatic analysis - so that you can focus on the bigger picture, ensuring the success of your project. What sets us apart is that we deliver the highest quality at every step - from meticulous sample preparation to expert bioinformatics. We specialize in low input samples and have a large breadth of expertise.
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BIOINFORMATIC ANALYSIS
... Bioinformatic Analysis | omiics. ...
Orlando, United States
11-50 Employees
2018
We are an all-remote bioinformatics contract research organization, which allows us to source top bioinformaticians from around the globe. We assemble transient project teams, consisting of proven subject-matter experts, to execute projects efficiently, using best practices. The Bioinformatics CRO represents a new breed of contract research organization that offers quality customized bioinformatics services to biotechnology companies worldwide. We offer a variety of computational services that help you achieve your research goals. The Bioinformatics CRO is a fully distributed contract research company that serves the computational biology needs of biotechnology companies, with a focus on genomics. We offer project-based contract research, consulting, and a flexible “bioinformatics department for hire” service. Excedr’s laboratory support program provides scientists with affordable leasing solutions that get equipment into the lab quickly.
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The Bioinformatics CRO - contract research and consulting
... The Bioinformatics CRO is a contract research organization and consultancy for computational biology, genomics, and bioinformatics. ...
Mannheim, Germany
1-10 Employees
2017
SciBerg is a private research company located near the city of Heidelberg, a center of European bioinformatics and life sciences. By using our services, your expenses for the data analysis will constitute only a fraction out of total price incurred for the NGS library preparation and sequencing itself. We are glad to consider highly experienced bioinformaticians and molecular biologists for joining our experts' network. We integrate a group of PhD-holding molecular biologists and bioinformaticians from the world's leading research institutions with profound wet-lab expertise and long experience with analysis of various high-throughput sequencing data. Along with standard options, we offer fully customized bioinformatics services specifically tailored for your project. We apply only up-to-date and highly reliable software as well as the most recent versions of reference genomes and transcriptomes. We offer comprehensive bioinformatics support for Next Generation Sequencing (NGS) projects including DNA-seq (WGS, WES, AmpliSeq), RNA-seq (WTS, mRNA-seq, small RNA-seq, single-cell RNA-seq), Bisulfite-seq (WGBS, RRBS), ChIP-seq (Histones & TFs-bound DNA-seq, ATAC-seq), MeDIP-seq/DIP-seq and metagenomics. Our experts' network includes the main developers of several popular library preparation techniques for NGS as well as widely used data analysis packages.
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Bioinformatics Support
... SciBerg: Bioinformatics and Data Analysis ...
Santiago, Chile
1-10 Employees
2012
Delivering world-class data driven solutions for life sciences. Beagle Bioinformatics is a life sciences data-driven company based in Chile and Brazil offering custom solutions for life science projects since 2012. On fast-paced productive environment, we are reinventing how science is done. We’re a young and talented group of entrepreneurs and scientists, working to provide smart solutions for companies of all sizes and pride ourselves on our unparalleled, dedicated service. At Beagle, we believe that the right understanding and technological edge can lead companies towards a successful future.
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Data Analysis Services | Beagle Bioinformatics | Providencia
... Beagle Bioinformatics is a Data Science company based in Chile and Brazil offering custom data analysis service for life science research since 2014. ...
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Spinor Research Labs Private Limited
... Artificial Intelligence/ML/NLP, Quantum Computing, Satellites, Bioinformatics, Medical Research We are a scientific research and consulting company engaged in basic sciences, engineering, agriculture and medical research. ...
Reading, United Kingdom
11-50 Employees
2004
We are experts in supporting research outside of the typical drug discovery sphere of human genome centric research. GB is a private company based in the UK. It was founded in 2004 by Dr Liz Reynolds who identified the need for specialists who could deliver expert bioinformatics services to a diverse audience. From its inception, GB has provided custom services which are not tied to particular products but instead focus on the challenge of making sense of scientific data according to each client’s specific requirements and organisation. By having our people joined in one close team we can deliver fantastic solutions quickly in a wide variety of customer contexts. Stephanie runs the customer facing deliveries of GB services including analysis support to science, and design of applications and data for scientists. Chris is a senior development engineer at GB. Mike provides curation and analysis of integrated biological data to support research, encompassing managing large sequence data sets and the annotation of sequencing data such as genomes.
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General Bioinformatics - Enabling discovery through connecting data with science
... We provide bioinformatics services that bring science and bioinformatics together using best in industry tools. Our work is responsive to particular customer needs, utilises a broad range of skills and resources and is delivered in close working relationships with your experts. ...
Jena, Germany
1-10 Employees
2020
We are an experienced team of bioinformaticians and biologists with more then 10 years experience in academia and industry. We love to hear more about your research and how we are able to help you! Alva Genomics is a freelance bioinformatics company with more than 10 years’ experience in epigenetic, single cell and RNA-Sequencing data analysis. The main focus is to offer custom bioinformatics support beyond standard analysis for our clients.
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Custom bioinformatics support beyond standard analysis
... Bioinformatics Company – costum bioinformatics support beyond standard ...
Santa Fe, United States
11-50 Employees
1994
For 25 years NCGR has been at the forefront of studying DNA with computers. NCGR occupies a purpose built 32,000 square foot facility completed in 2000. The focus of NCGR’s research has changed over the years but our overall goals have remained consistent, which is to do independent research and to provide community software support for the study of genes and genomes in all domains of life, including genomic medicine and agricultural science. From 2008-2018 NCGR operated the New Mexico Genome Center. NCGR has ongoing scientific impact in Genomic Data Science related to agricultural and forestry organisms, model systems, human biology, ecologically important organisms, and in the rapidly-developing field of the microbiome. We deliver value through expertise in experimental design, software, computation, data integration and training a skilled workforce. We or our service providers may also collect web surfing data related to your use of our services (e.g., information regarding which of our web pages you access, the frequency of such access, and your product and service preferences). We are not responsible for removing your personal information from the lists of any third-party services or other third party who has previously been provided your information in accordance with this notice.
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Bioinformatics Services
... Bioinformatics ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Bioinformatics
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 359 |
| Amount of suitable service providers | 398 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1994 |
| Youngest suiting company | 2020 |
Bioinformatics is an interdisciplinary field that utilizes computational tools and techniques for analyzing, interpreting, and understanding the biological data generated by a wide array of technologies, including genomics, proteomics, and metabolomics. At its core, bioinformatics combines elements from biology, computer science, mathematics, and statistical methodologies to process and analyze complex biological information, particularly DNA, RNA, and protein sequences. The primary goal of bioinformatics is to enhance the understanding of biological processes, facilitating significant advancements in areas such as personalized medicine, drug discovery, and evolutionary studies. It plays a crucial role in annotating genomes, understanding gene and protein functions, comparing genetic and genomic data, and modeling evolutionary relationships. Bioinformatics has revolutionized the biological sciences by enabling the storage, retrieval, and analysis of large volumes of data, thus accelerating scientific research and discovery. Its impact is profound, as it allows for the identification of genetic markers of disease, the development of new therapeutic strategies, and the creation of more precise and personalized medical treatments. By bridging the gap between computational techniques and biological data, bioinformatics has become an indispensable tool in the modern biological and medical research landscape, paving the way for significant breakthroughs and innovations in the life sciences.
1. Enhanced Data Analysis and Interpretation
Bioinformatics offers powerful tools for analyzing and interpreting vast datasets that traditional manual methods cannot handle efficiently. This computational approach enables scientists to sift through genomic and proteomic data quickly, identifying patterns and anomalies that could lead to breakthroughs in understanding diseases and developing new therapies.
2. Cost and Time Efficiency
The use of bioinformatics significantly reduces both the time and financial resources required for research. By leveraging computational analysis, researchers can simulate experiments or analyze real-world data in a fraction of the time it would take through conventional laboratory methods. This efficiency accelerates the pace of scientific discovery and the development of new medicines.
3. Facilitation of Personalized Medicine
Bioinformatics plays a crucial role in the advancement of personalized medicine, where treatments are tailored to the genetic makeup of individual patients. Through the analysis of genetic data, bioinformatics helps in identifying the genetic markers of disease and predicting how patients will respond to specific treatments, thereby enhancing the effectiveness and reducing the side effects of medications.
4. Interdisciplinary Collaboration
The field of bioinformatics fosters collaboration across various scientific disciplines, including biology, computer science, mathematics, and statistics. This interdisciplinary approach encourages the sharing of knowledge and techniques, leading to innovative solutions to complex biological problems that might not be solvable through traditional means.
While evaluating the different suppliers make sure to check the following criteria:
1. Technical Expertise and Specialization
Ensure the supplier has a strong background in bioinformatics, with expertise in genomics, proteomics, or specific areas relevant to your project needs.
2. Data Security and Confidentiality
The supplier must have stringent data security measures and confidentiality agreements to protect sensitive research data.
3. Software and Tools Compatibility
Check for compatibility with existing bioinformatics tools and software in your workflow, including support for custom or proprietary platforms.
4. Scalability and Flexibility
The supplier should offer scalable solutions that can adapt to your project’s evolving needs and complexity.
5. Customer Support and Training
Look for suppliers offering robust customer support, including training resources and technical assistance for their products and services.
6. Industry Reputation and Reviews
Research their reputation within the bioinformatics community, including peer reviews and testimonials from previous clients.
7. Cost-Effectiveness
Evaluate their pricing structure to ensure it aligns with your budget and the value they provide, including any hidden costs or fees.
Bioinformatics plays a crucial role in pharmaceutical and biotech industries, primarily through drug discovery and development. By analyzing biological data, companies can identify new drug targets and understand disease mechanisms at a molecular level. This significantly reduces the time and cost associated with developing new medications, streamlining the path from research to market. In agriculture, bioinformatics is employed to enhance crop yield and resistance to pests and diseases. Through the analysis of genetic sequences, companies can engineer crops that are more resilient to environmental challenges, improving food security and sustainability. This application not only supports the agricultural sector but also has a profound impact on global food supply chains. Genomics and personalized medicine represent another significant use case, where bioinformatics is used to tailor medical treatments to individual genetic profiles. By analyzing patient DNA, companies can predict how individuals will respond to certain medications, reducing trial and error in treatment plans. This not only improves patient outcomes but also optimizes healthcare resources. Lastly, in environmental conservation, bioinformatics assists in biodiversity preservation and ecosystem management. Through the analysis of genetic data from various species, organizations can monitor biodiversity, assess the health of ecosystems, and devise strategies for conservation. This application highlights the role of bioinformatics in promoting sustainable environmental practices.
Bioinformatics, a crucial interdisciplinary field merging biology, computer science, and information technology to analyze and interpret biological data, notably DNA sequences, has transcended various stages of technological maturity, currently operating at a high Technology Readiness Level (TRL), typically between 8 and 9. This advanced TRL reflects the field's transition from theoretical models and simulations to the widespread application and integration in real-world settings, such as personalized medicine, genomics, and epidemiology. The technical reasons underpinning this high TRL include the development and validation of sophisticated algorithms and computational models capable of handling vast datasets, the standardization of bioinformatics tools and protocols ensuring reliability and reproducibility across studies, and the successful demonstration of these tools in operational environments. Notably, the scalability of bioinformatics applications, bolstered by advancements in cloud computing and machine learning, has significantly enhanced their efficacy in processing and analyzing genomic data at an unprecedented pace and accuracy. Moreover, the collaborative efforts within the scientific community have led to the open access of bioinformatic databases and software, further accelerating research and development. These technical achievements underscore the maturity of bioinformatics, enabling its seamless integration into various biological and medical research domains, thereby solidifying its high TRL status.
In the short-term, bioinformatics is set to experience significant advancements in the integration of artificial intelligence (AI) and machine learning (ML) algorithms. These technologies will enhance the precision and speed of data analysis, allowing researchers to process and interpret vast amounts of genomic data more efficiently. This phase will also see the development of more user-friendly bioinformatics tools and platforms, making the technology more accessible to a broader range of scientists and researchers. Mid-term developments will likely focus on the fusion of bioinformatics with other disciplines, such as synthetic biology and personalized medicine. This will lead to the creation of more sophisticated models for understanding complex biological systems and predicting disease progression. Additionally, the mid-term phase will witness the improvement of computational power and storage capacities, enabling the handling of ever-increasing data volumes and the execution of more complex simulations and analyses. Looking into the long-term, bioinformatics is expected to revolutionize our approach to healthcare and disease prevention. Advancements will enable the design of highly personalized treatments and drugs by leveraging individual genetic information, drastically reducing the time and cost associated with drug development. Furthermore, we will see the emergence of global bioinformatics networks that facilitate the sharing of genetic data across borders, enhancing our ability to track and respond to global health threats. This era will be characterized by the seamless integration of bioinformatics into everyday healthcare, transforming the landscape of medicine and public health.
