Alternatives to Discngine Assay

All-in-One LIMS, ELN, QMS, and DMS Platform Xybion LIMS is an all-inclusive Digital Laboratory system including LIMS, ELN, QMS, and DMS that creates optimized workflows for the unique business needs of all regulated laboratories including research, diagnostics, quality control, stability studies, and more. Xybion LIMS instills consistency, improves data quality, and supports regulatory compliance with a complete laboratory management solution that connects with your operating systems with powerful laboratory information management and analytics.

SYNTHIA™ Retrosynthesis software, developed by computer scientists and coded by chemists, allows scientists to quickly and easily navigate novel and innovative pathways for novel and previously published target molecules. You can quickly and efficiently scan hundreds pathways to identify the best options for your needs. Discover the most cost-effective route to your target molecule with the latest visualization and filtering features. You can easily customize the search parameters to eliminate or highlight reactions, reagents, or classes of molecules. Explore innovative and unique syntheses to build your desired molecule. Easy to generate a list for starting materials that are commercially available for your synthesis. ISO/IEC 27001 Information Security Certification will guarantee the confidentiality, integrity and protection of your data.

Eidogen-Sertanty's Target Informatics Platform (TIP) stands out as the pioneering structural informatics system and knowledgebase that empowers researchers to explore the druggable genome through a structural lens. By harnessing the burgeoning wealth of experimental protein structure data, TIP revolutionizes structure-based drug discovery, shifting it from a limited, low-throughput field to a dynamic and data-rich scientific discipline. It is specifically designed to connect the realms of bioinformatics and cheminformatics, providing drug discovery scientists with a repository of insights that are not only unique but also highly synergistic with the information available from traditional bio- and cheminformatics tools. The platform's innovative combination of structural data management with advanced target-to-lead calculation and analytical capabilities significantly enhances every phase of the drug discovery process. With TIP, researchers are better equipped to navigate the complexities of drug development and make informed decisions.

To expedite innovative breakthroughs and swiftly bring products to market, research and development alongside manufacturing facilities must adapt and modify their processes in real time. Data management should never become a hindrance in this dynamic landscape. The Thermo Scientific™ Nautilus LIMS™ for Dynamic Discovery and R&D Environments, co-developed with clients operating in rapid R&D contexts, offers a highly adaptable and user-friendly system that enhances workflow efficiency, increases throughput, and ensures data accuracy while streamlining administrative tasks, sample tracking, and adherence to regulatory standards. Its automated management of intricate boards and specialized graphics tools simplifies data oversight, allowing even less experienced users to easily identify and monitor processes. Clients are empowered to design workflows, track the life cycles of samples, and automate interactions across various platforms while seamlessly incorporating regulated protocols that conform to good laboratory practices and the 21 CFR Part 11 regulations. This innovative approach not only fosters a more efficient research environment but also encourages collaboration and creativity among teams.

Chemia is an innovative ELN platform that operates in the cloud and via browsers, specifically tailored by scientists for their peers. This platform facilitates the management, assignment, monitoring, and documentation of all research and development endeavors from a single intuitive dashboard. It transforms your R&D processes into entirely paperless operations, drastically improving efficiency by saving approximately one hour per scientist through enhanced cross-functional collaboration. Additionally, Chemia ensures that your lab remains audit-ready and manages data with utmost precision. The platform allows for quick retrieval, efficient searching, comparative studies, and reconfigurability, which in turn supports faster and more informed decision-making. Furthermore, Chemia includes an inventory management system that systematically organizes, maintains, and schedules essential information regarding chemicals and equipment utilized in the laboratory. It also offers detailed logs for equipment usage, maintenance, and calibration, which contribute to optimal lab management and productivity. Lastly, the system provides established protocols to ensure compliance with regulatory standards, thereby reinforcing operational integrity.

Scitara DLX™ provides a swift connectivity framework suitable for any instrument found within life science laboratories, all while operating on a cloud-based platform that is both compliant and auditable. As a versatile digital data infrastructure, Scitara DLX™ facilitates connections between various instruments, resources, applications, and software utilized in the lab. The comprehensive cloud system ensures that all data sources are interconnected, promoting seamless data movement across numerous endpoints. Consequently, researchers can concentrate on their scientific endeavors instead of being bogged down by data-related challenges. Moreover, DLX intelligently curates and corrects data as it is processed, fostering the creation of accurate and well-organized data models that are essential for enhancing AI and ML systems. This robust approach plays a vital role in advancing digital transformation strategies within the pharmaceutical and biopharmaceutical sectors. By unlocking valuable insights from scientific data, the platform accelerates decision-making processes in drug discovery and development, ultimately aiding in the expedited launch of new medications into the market. Additionally, the integration of such a sophisticated infrastructure not only streamlines workflows but also enhances collaboration among researchers, paving the way for innovative solutions in the life sciences field.

Genedata Biologics® enhances the development of biotherapeutics, including bispecifics, ADCs, TCRs, CAR-Ts, and AAVs, providing a comprehensive solution for the industry. Recognized as the leading platform in the field, it seamlessly unifies all discovery workflows, allowing researchers to prioritize genuine innovation. By utilizing a pioneering platform that was purposefully created to digitalize the biotherapeutic discovery process, research can be accelerated significantly. The platform simplifies intricate R&D tasks by facilitating the design, tracking, testing, and evaluation of novel biotherapeutic drugs. It is compatible with various formats, such as antibodies, bi- or multi-specifics, ADCs, innovative scaffolds, and therapeutic proteins, as well as engineered therapeutic cell lines like TCRs and CAR-T cells. Functioning as a comprehensive end-to-end data backbone, Genedata Biologics connects all R&D processes, including library design, immunization, selection and panning, molecular biology, screening, protein engineering, expression, purification, and protein analytics, ultimately leading to thorough assessments of candidate developability and manufacturability. This holistic integration ensures that researchers can make informed decisions and push the boundaries of biotherapeutic innovation effectively.

Revolutionize the fields of drug discovery and materials research through cutting-edge molecular modeling techniques. Our computational platform, grounded in physics, combines unique solutions for predictive modeling, data analysis, and collaboration, facilitating swift navigation of chemical space. This innovative platform is employed by leading industries globally, serving both drug discovery initiatives and materials science applications across various sectors including aerospace, energy, semiconductors, and electronic displays. It drives our internal drug discovery projects, overseeing processes from target identification through hit discovery and lead optimization. Additionally, it enhances our collaborative research efforts aimed at creating groundbreaking medicines to address significant public health challenges. With a dedicated team of over 150 Ph.D. scientists, we commit substantial resources to research and development. Our contributions to the scientific community include more than 400 peer-reviewed publications that validate the efficacy of our physics-based methodologies, and we remain at the forefront of advancing computational modeling techniques. We are steadfast in our mission to innovate and expand the possibilities within our field.

Our innovative AI engine is revolutionizing the drug discovery process, enabling the creation of superior medications at an accelerated pace. The breakthroughs we achieve contribute to the development of medicines more efficiently and effectively. Our portfolio of AI-driven discoveries encompasses entirely owned and collaboratively developed pipeline assets, supported by leading investors in the industry. Atomwise has engineered a cutting-edge machine-learning discovery platform that merges the capabilities of convolutional neural networks with extensive chemical libraries to identify new small-molecule treatments. The key to transforming drug discovery through AI lies in our talented team. We are committed to enhancing our AI platform and leveraging it to revolutionize the discovery of small molecule drugs. It is essential that we confront the most daunting and seemingly insurmountable targets, streamlining the entire drug discovery process to provide developers with increased opportunities for success. Enhanced computational efficiency allows us to screen trillions of compounds virtually, significantly boosting the chances of finding viable solutions. Our impressive model accuracy has successfully addressed the persistent issue of false positives, underscoring the reliability of our approach. Ultimately, our dedication to innovation and excellence sets us apart in the quest for breakthrough therapies.

Signals VitroVivo integrates various assay developments, ranging from low throughput to ultra-high-throughput production assays, High Content Screening, and in vivo research, allowing users to access all assay and screening information through a single, comprehensive platform. This system is not only adaptable for individual assay tasks during the development phase, but it is also robust enough to accommodate more complex studies and a wide array of techniques, making it scalable to manage extensive data volumes. Scientists can utilize a consistent and repeatable approach for both data collection and processing protocols, facilitating swift and straightforward structure-activity relationship evaluations for both small and large molecules. Designed to meet specific needs in managing studies, treatments, and samples, this platform enhances the overall efficiency and effectiveness of scientific research, ultimately leading to more innovative discoveries.

3decision® serves as a cloud-based repository for protein structures, focusing on efficient management of structural data and offering sophisticated analytics to support teams involved in the discovery of small molecules and biologics, thereby expediting the process of structure-based drug design. The platform consolidates and standardizes both experimental and computational protein structures sourced from publicly available databases such as RCSB PDB and AlphaFoldDB, in addition to proprietary datasets, and accommodates formats like PDBx/mmCIF and ModelCIF. This comprehensive approach guarantees seamless access to a variety of structural formats including X-Ray, NMR, cryo-EM, and modeled structures, thereby promoting collaboration and bolstering research initiatives. In addition to its storage capabilities, 3decision® enhances each entry with valuable metadata and sequence information, which encompasses details on protein-ligand interactions, antibody annotations, and specifics about binding sites. Equipped with advanced analytical instruments, the platform is capable of pinpointing druggable sites, evaluating off-target risks, and facilitating comparisons of binding sites, which collectively transform extensive structural datasets into practical insights that can drive research forward. Furthermore, its cloud-based architecture fosters enhanced collaboration among research teams, making it easier for scientists to share findings and insights, ultimately leading to more innovative approaches in drug discovery and development.

DNAnexus Apollo™ enhances the efficiency of precision drug discovery by fostering collaboration that extracts valuable insights from omics data. The process of precision drug discovery involves the aggregation and examination of vast amounts of omics and clinical information. These extensive datasets serve as valuable assets; however, many traditional and custom-built informatics tools struggle to manage their intricacies and scale. Additionally, the effectiveness of precision medicine initiatives can be hindered by fragmented data sources, inadequate collaboration tools, and the challenges posed by complex, evolving regulatory and security demands. By enabling scientists and clinicians to jointly investigate and interpret omics and clinical data within a unified framework, DNAnexus Apollo™ bolsters precision drug discovery efforts. This platform, which is powered by a resilient and scalable cloud infrastructure, facilitates the seamless and secure sharing of data, tools, and analyses among peers and collaborators, regardless of whether they are nearby or across the globe. Ultimately, Apollo not only streamlines the data-sharing process but also enhances the overall collaborative experience in the pursuit of innovative drug discoveries.

Founded in 2000, VeraChem LLC aims to enhance the field of computer-aided drug discovery and molecular design by creating advanced computational chemistry techniques that merge innovative basic science with practical applications in research. A key aspect of the company's strategy for product development lies in delivering efficient, high-performance software solutions along with extensive user support. Among the current capabilities of VeraChem's software are predictions for protein-ligand and host-guest binding affinities, rapid and precise calculations of partial atomic charges for drug-like molecules, and the computation of energies and forces utilizing widely-used empirical force fields. Additionally, the software features automatic generation of alternate resonance forms for drug-like compounds, a robust conformational search enabled by the Tork algorithm, and the automatic identification of topological and three-dimensional molecular symmetries. The modular code base of VeraChem’s software packages allows for flexibility and adaptability in meeting diverse research needs, ensuring that users can leverage these tools effectively for their specific applications.

We are a biotechnology firm in the clinical stage, dedicated to unraveling biological complexities through the integration of cutting-edge innovations spanning biology, chemistry, automation, machine learning, and engineering, all aimed at revolutionizing drug discovery. Our approach allows for enhanced precision in biological manipulation with advanced techniques like CRISPR genome editing and synthetic biology. We also achieve reliable automation for intricate laboratory processes at an unprecedented scale through the use of sophisticated robotics. By employing neural network architectures, we conduct iterative analyses and draw insights from extensive, intricate datasets generated in-house. Furthermore, we are boosting the adaptability of high-performance computing capabilities through cloud-based solutions. Our initiative harnesses new technologies to foster continuous learning cycles around our datasets, establishing us as a next-generation biopharmaceutical enterprise. This is achieved through a harmonious integration of hardware, software, and data, all dedicated to the industrialization of drug discovery. We are transforming the conventional drug discovery pipeline and boast one of the most extensive, diverse, and in-depth pipelines among technology-driven drug discovery companies. Ultimately, our mission is to enhance the efficiency and effectiveness of drug development, paving the way for breakthrough therapies.

BC platforms harnesses cutting-edge scientific advancements, innovative technological capabilities, and strategic alliances to transform drug discovery and tailor healthcare solutions. Our platform is modular and highly adaptable, designed for integrating healthcare data effectively. With an open analytics framework, we seamlessly merge the most recent innovative methods and technology advancements into a single, cohesive platform. We prioritize security, holding ISO 27001 certification alongside compliance with GDPR and HIPAA regulations. Our comprehensive product suite empowers a contemporary healthcare system to fully adopt personalized medicine approaches. Our scalable deployment options support everything from initial setups to expansive healthcare operations. By offering a unique end-to-end toolbox, we facilitate the expedited application of research findings in clinical settings. Moreover, we strive to minimize your risks, enhance the value of your pipeline, and advance your enterprise data strategy by overcoming data access challenges and enabling swift insights. In doing so, we aim to foster a health ecosystem that is both responsive and forward-thinking.

NoviSight 3D cell analysis software enhances your research by delivering statistical insights for spheroids and various 3D structures in microplate experiments. This software allows for the quantification of cellular activity in three dimensions, facilitating the capture of infrequent cellular occurrences, providing precise cell counts, and boosting detection sensitivity. Featuring an intuitive user interface, NoviSight equips you with essential tools for recognition, analysis, and statistical evaluation. Its True 3D technology simplifies the assessment of sample morphology, allowing for the measurement of various parameters such as volume and sphericity of spheroids or cell nuclei. Additionally, it enables the examination of physiologically relevant 3D cell models, thereby accelerating your research processes. The software is capable of analyzing objects of interest to yield morphology and spatiotemporal parameters within a 3D context. Furthermore, it can detect a range of entities, from entire structures to subcellular components, and assess changes occurring in spheroids, ultimately contributing to a deeper understanding of cellular dynamics. This comprehensive analysis ultimately supports researchers in their quest to uncover critical biological insights.

StarDrop™, a comprehensive suite of integrated software, delivers the best in silico technology within a highly visual interface. StarDrop™, which allows seamless flow between the latest data, predictive modeling, and decision-making regarding the next round or synthesis, improves the speed, efficiency and productivity of the discovery process. A balance of different properties is essential for successful compounds. StarDrop™, which guides you through the multi-parameter optimization challenge, helps you target compounds with the highest chance of success. It also saves you time and resources by allowing you to synthesize fewer compounds and test them less often.

Dotmatics is the global leader in R&D scientific software that connects science, data, and decision-making. More than 2 million scientists and 10,000 customers trust Dotmatics to accelerate research and help make the world a healthier, cleaner, and safer place to live.

The foundational aspect of our immunotherapy approach lies in our comprehension of antigens and neoantigens, particularly in identifying which variations will be transcribed, translated, processed, and subsequently displayed on the surface of cells via Human leukocyte antigen (HLA) molecules, thus making them recognizable to T cells. We achieve this by employing Gritstone EDGETM, a unique platform powered by machine learning. Creating cancer immunotherapies that incorporate tumor-specific neoantigens proves challenging, mainly because tumors consist of numerous mutations, yet only a fraction of these lead to genuine tumor-specific neoantigens. To tackle this complexity, we have developed EDGE's cutting-edge integrated neural network model, trained with millions of data points gathered from a diverse range of tumor and normal tissue samples across various patient ancestries. This extensive training allows us to enhance the accuracy of neoantigen identification and improve the effectiveness of our immunotherapy strategies.

The biopharmaceutical sector today is characterized by its intricacy, driven by increasing demands for enhanced specificity and safety, the emergence of new treatment classes, and the complexity of disease mechanisms. To navigate this intricate landscape, a profound comprehension of therapeutic dynamics is essential. Advanced modeling and simulation techniques offer a distinctive approach to investigate biological and physicochemical phenomena at the atomic scale. This methodology not only informs physical experimentation but also expedites the drug discovery and development phases. BIOVIA Discovery Studio integrates more than three decades of peer-reviewed research with cutting-edge in silico methodologies, including molecular mechanics, free energy assessments, and biotherapeutics developability, all within a unified framework. By equipping researchers with a comprehensive suite of tools, it facilitates a deeper examination of protein chemistry, thereby accelerating the discovery of both small and large molecule therapeutics, from Target Identification all the way through to Lead Optimization. Ultimately, this synergy of research and technology underscores the vital role of innovative tools in transforming biopharmaceutical advancements.

Harness the capabilities of artificial intelligence to accelerate the transition from laboratory research and experimental findings to the introduction of transformative therapies. Achieve a remarkable increase in research efficiency, potentially improving productivity by as much as 90% by cutting down your literature review time from several months to mere minutes. Eliminate distractions and enhance your search capabilities with a precise and accurate tool that simplifies the navigation of the expanding landscape of scientific publications. This approach not only saves time but also minimizes bias and enhances the likelihood of discovering groundbreaking insights. Delve deeply into the intricacies of disease biology and engage in sophisticated target identification. Causaly's advanced knowledge graph integrates data from countless publications, enabling thorough and objective scientific investigations. Effortlessly explore the intricate biological cause-and-effect dynamics without requiring extensive expertise. Access a comprehensive array of scientific documents and reveal previously overlooked connections. Causaly’s robust AI system processes millions of biomedical articles, facilitating improved decision-making and enhancing research outcomes, ultimately leading to a more informed and innovative scientific community. By utilizing such tools, researchers can significantly transform their methodologies and enhance their contributions to medicine.

LiveDesign serves as an integrated informatics solution that empowers teams to accelerate their drug discovery initiatives through collaborative design, experimentation, analysis, tracking, and reporting on a unified platform. It allows for the collection of innovative ideas alongside experimental and modeling data seamlessly. Users can develop and archive new virtual compounds within a centralized repository, assess them with sophisticated models, and prioritize the most promising designs. By merging biological data and model outputs from various corporate databases, the platform leverages advanced cheminformatics to provide a comprehensive analysis of all information simultaneously, facilitating quicker compound development. The platform employs cutting-edge physics-based methodologies along with machine learning to enhance prediction accuracy significantly. Teams can collaborate in real-time, regardless of location, enabling them to share concepts, conduct tests, make revisions, and progress chemical series while maintaining a clear record of their work. This not only fosters innovation but also ensures that projects remain organized and efficient throughout the drug discovery process.

We have established ourselves as frontrunners in the fields of ADMET property prediction, physiologically-based pharmacokinetics (PBPK) modeling, pharmacometrics, and quantitative systems pharmacology/toxicology, a status achieved through the achievements our clients have experienced while partnering with us. Leveraging over two decades of expertise, our skilled team excels at transforming complex scientific concepts into accessible software solutions, while also offering specialized consulting services that bolster drug discovery, clinical development research, and regulatory submission processes. Our dedication to client success drives our continuous improvement and innovation in these critical areas.

Rare diseases often lack comprehensive research, resulting in insufficient knowledge about essential elements for an effective drug discovery initiative. Our innovative AI platform, Healnet, addresses these issues by scrutinizing vast amounts of drug and disease data to uncover new connections that may lead to potential treatments. Utilizing cutting-edge technologies throughout the discovery and development process allows us to operate multiple phases simultaneously and on a large scale. The conventional approach of focusing on a single disease, target, and drug is overly simplistic, yet it remains the standard for most pharmaceutical companies. The future of drug discovery is driven by AI, characterized by parallel processes and an absence of rigid hypotheses, fundamentally integrating the three core paradigms of drug discovery into a cohesive strategy. This new paradigm not only enhances efficiency but also fosters creativity in developing solutions for complex health challenges.

Preclinical information is found in many laboratories. It can be stored in multiple systems within the laboratory and with several external partners. Team members are unable to have clear and informed decisions without a unified solution because they lack transparency in core business data. Pristima, a fully integrated digital laboratory execution platform, features intelligent workflows, task automation, and data and information management throughout the entire preclinical process. Xybion's preclinical platform provides a central data repository as well as a standard archive platform. This platform can help you increase productivity and lower costs. With complete transparency across all platforms, gain visibility into the information that is there and take actions based on your current business needs. Effective data management can reduce the time it takes to submit final SENDs from end-of-study.

AIDDISON™ is an innovative drug discovery software that harnesses the capabilities of artificial intelligence (AI), machine learning (ML), and advanced 3D computer-aided drug design (CADD) techniques, serving as an essential resource for medicinal chemistry applications. This comprehensive platform streamlines both ligand-based and structure-based drug design, effectively merging all components necessary for virtual screening while also facilitating in-silico lead discovery and optimization processes. By leveraging these cutting-edge technologies, AIDDISON™ significantly enhances the efficiency and effectiveness of the drug development pipeline.

Since its inception in 1985, ChemDraw® solutions have delivered exceptional features and integrations that allow users to swiftly convert their concepts and sketches into impressive publications. ChemOffice+ Cloud serves as a comprehensive suite for chemistry communication, transforming chemical illustrations into valuable knowledge by streamlining the management, reporting, and presentation of chemistry research. This powerful suite is specifically designed to enhance and expedite communication within the field of chemistry. Building upon the foundation of ChemDraw Professional, ChemOffice+ Cloud offers a wide range of advanced tools that support scientific inquiry and collaboration. The once tedious process of drafting reports for chemical research is now significantly more efficient thanks to ChemOffice+ Cloud. With its robust capabilities for searching, reusing, selecting, and organizing chemical structures and data, chemists can effortlessly create polished PowerPoint presentations and manuscripts, making their work more accessible and impactful. This transformation not only saves time but also elevates the overall quality of research dissemination in the scientific community.

Cytel stands out as a prominent global innovator in software for clinical trial design, biometrics, and advanced analytics, focusing on maximizing the efficiency of clinical trials while aiding pharmaceutical companies in harnessing the full scope of both clinical and real-world data. Established in 1987 by renowned statisticians Cyrus Mehta and Nitin Patel, Cytel has consistently been a leader in adaptive clinical trial technology and the field of biostatistics. Its software solutions, notably the East Horizon platform, facilitate accurate trial design and simulation, employing adaptive and Bayesian methodologies to enhance protocols and expedite the drug development process. The East Horizon platform serves as a comprehensive integration of Cytel's reliable software offerings, featuring R integration that significantly improves trial design functions. Furthermore, Cytel provides the Xact software suite, which is an all-encompassing toolkit designed for statistical analysis of small datasets, including those with sparse and missing data. By continuously innovating and expanding its product offerings, Cytel remains committed to providing cutting-edge solutions that meet the evolving needs of clinical research.

When utilizing LC-MS/MS for either research purposes or routine tasks, you anticipate obtaining results that are not only swift but also precise and definitive. The SCIEX software suite enhances the functionality of your high-performance LC-MS/MS system by providing tailored workflow and application modules to complement your operating system. Consequently, your mass spectrometer operates with an optimized software mix that aligns with your specific requirements. These components represent the fundamental engines behind SCIEX's nominal mass and accurate mass LC-MS/MS systems, facilitating quick and dependable data collection, processing, and reporting, all while ensuring compliance readiness. By integrating high performance with user-friendly features and additional modules, you can refine both quantitative and qualitative workflows. Furthermore, the implementation of application-specific software modules allows for a more rapid transformation of your data into definitive results, streamlining your research process significantly. This combination of efficiency and adaptability in software applications is crucial for advancing your analytical capabilities.

Genedata Imagence® provides a platform for training deep neural networks that classify cellular phenotypes in high-content screening (HCS) images, ensuring that the results are both unbiased and of superior quality. By automating the analysis process, it enables assay biologists to harness the capabilities of deep learning algorithms effectively. With Genedata Imagence, biologists can analyze HCS imaging data in real-time using advanced deep learning methods, all without requiring extensive knowledge of the underlying algorithms. This eliminates the complexity often associated with data analysis, as the user-friendly interface of Genedata Imagence facilitates quality control and data exploration throughout the entire workflow. As a result, researchers can focus on deriving insights rather than getting lost in intricate coding.

Discover valuable insights within your data by utilizing the Cortellis™ suite of life science intelligence tools, enabling you to make more informed decisions throughout the entire R&D process. We have alleviated the burden of gathering, integrating, and analyzing data, allowing you to concentrate on the essential choices necessary for expediting your products' market entry. With a unique combination of extensive, high-quality data, fortified by profound domain knowledge, industry insight, and therapeutic expertise, Cortellis reveals crucial insights that facilitate data-driven decisions, ultimately speeding up innovation. Access tailored, actionable responses to your specific inquiries throughout the R&D lifecycle, drawing from the most comprehensive and in-depth intelligence sources available. By incorporating Cortellis into your daily routine, you can significantly enhance the pace of innovation and streamline your workflow. This makes Cortellis not just a tool, but a vital partner in your path to success.

Uncover biological markers, generate insights into the mechanisms of disease, identify novel pharmaceuticals, or detect variations in protein concentrations through a meticulously structured series of experiments. We have simplified the process of harnessing the potential of mass spectrometry and proteomics, enabling you to concentrate on the intricacies of biology and advance toward groundbreaking discoveries. Our automated and consistent workflow facilitates faster initiation and completion of experiments, granting you the authority and adaptability to make timely decisions. By prioritizing biological insights and fostering collaborative efforts, our scalable proteomics data processing system is designed for repeated use. We have delegated intensive and repetitive tasks to the cloud, ensuring a smooth and satisfying experience. Our sophisticated proteomics workflow effectively integrates numerous complex elements, allowing for the efficient analysis and processing of larger-scale experiments, ultimately enhancing the research journey. Thus, with our innovative approach, researchers can now delve deeper into the molecular landscape and achieve more significant breakthroughs than ever before.

Harnessing RNA sequencing (RNA-seq) data alongside Artificial Intelligence presents both a crucial necessity and a significant opportunity for creating therapies aimed at correcting splicing errors. By leveraging machine learning, we can uncover novel splicing errors and swiftly formulate therapeutic compounds to address them. Our AI platform, SpliceCore, is specifically designed for discovering RNA therapeutics. This cutting-edge technology focuses on analyzing RNA sequencing data with unparalleled efficiency. It can swiftly identify, evaluate, and validate potential drug targets, outpacing traditional methodologies. Central to SpliceCore is our unique repository containing over 5 million potential RNA splicing errors, making it the largest of its kind globally and instrumental for testing any RNA sequencing dataset submitted for analysis. The integration of scalable cloud computing allows us to handle vast quantities of RNA sequencing data in a way that is not only efficient but also cost-effective, significantly speeding up the pace of therapeutic advancements. This innovative approach promises to revolutionize the landscape of RNA therapeutics.

Pharmaceutical companies require extensive genomic data to effectively implement precision medicine initiatives; however, they frequently rely on merely 10% of the available information for their decisions. Genomenon provides access to the complete dataset. Their Prodigy™ Patient Landscapes offer a streamlined and economical solution for natural history research, aiding the creation of therapies for rare diseases by deepening understanding of both retrospective and prospective health data. Utilizing an advanced AI-driven methodology, Genomenon conducts a thorough evaluation of each patient documented in the medical literature in a significantly reduced timeframe. Ensure you capture all relevant insights by exploring every genomic biomarker featured in published studies. Each scientific claim is substantiated by concrete evidence drawn from the medical literature, allowing researchers to uncover all genetic drivers and identify variants recognized as pathogenic in accordance with ACMG clinical standards, thereby enhancing the development process of targeted therapies. By leveraging this comprehensive approach, pharma companies can enhance their research effectiveness and ultimately improve patient outcomes.

The process of introducing a new medication to the market, starting from initial development to the final launch, is both time-intensive and heavily regulated, often spanning over a decade or more. Achieving success in this endeavor hinges on the timely availability of precise analytical data, which is essential for making informed decisions during the early stages of development and reducing the likelihood of setbacks later on. Modern drug development primarily follows a systematic approach, with the crucial first step usually being the identification of a biological target to concentrate efforts on. This target identification demands a comprehensive understanding of the characteristics of the candidates, enabling swift and reliable identification of the most promising options. After establishing a biological target, the next significant hurdle is identifying the most advantageous lead molecules, which entails discovering potential drug candidates—these may include small organic compounds or biological constructs with therapeutic capabilities. Thus, the entire journey from concept to market is a complex interplay of scientific insight and strategic decision-making.

Leverage the capabilities of biomedical data through the Polly Platform, which is designed to enhance the scalability of batch jobs, workflows, coding environments, and visualization tools. By facilitating resource pooling, Polly optimally allocates resources according to your specific usage needs and leverages spot instances whenever feasible. This functionality contributes to increased optimization, improved efficiency, quicker response times, and reduced costs associated with resource utilization. Additionally, Polly provides a real-time dashboard for monitoring resource consumption and expenses, effectively reducing the burden of resource management on your IT department. An essential aspect of Polly's framework is its commitment to version control, ensuring that your workflows and analyses maintain consistency through a strategic combination of dockers and interactive notebooks. Furthermore, we've implemented a system that enables seamless co-existence of data, code, and the computing environment, enhancing collaboration and reproducibility. With cloud-based data storage and project sharing capabilities, Polly guarantees that every analysis you conduct can be reliably reproduced and verified. Thus, Polly not only optimizes your workflow but also fosters a collaborative environment for continuous improvement and innovation.

Predict absorption distribution metabolism and excretion properties from chemical structure. This collection of high-quality calculations for pharmacokinetic properties can be used to support high-throughput screening of libraries. It also provides insight into pharmacological effects and can help ensure that products are safe for humans.

BIOiSIMTM represents a groundbreaking 'virtual drug development engine' that significantly enhances the drug development sector by effectively identifying drug compounds that are most likely to provide meaningful therapeutic benefits for various diseases or conditions. We provide an array of translational solutions that are tailored to meet the specific needs of your pre-clinical and clinical initiatives. Central to our offerings is the highly validated BIOiSIMTM platform, which supports the development of small molecules, large molecules, and viruses. This innovative platform is underpinned by extensive data derived from thousands of compounds across seven different species, resulting in a level of robustness that is uncommon in the field. Emphasizing human health outcomes, the heart of the platform features a translatability engine that seamlessly converts insights gained from different species. Importantly, the BIOiSIMTM platform can be deployed prior to the initiation of preclinical animal trials, facilitating earlier insights and potentially reducing the costs associated with outsourced experimentation. By integrating these advanced capabilities, we aim to streamline the drug development process and accelerate the journey from discovery to market.

adWATCH - AE is a solution designed to aid pharmaceutical companies in handling and documenting adverse events that arise during clinical trials. It provides a quick and efficient way for reporters at clinics, hospitals, or investigative sites to create and oversee Adverse Event Reports (AERs), ensuring proper reporting to regulatory bodies and government organizations. An adverse effect refers to a harmful or undesirable reaction experienced by a patient due to medications or medical devices. The process of documenting adverse events necessitates thorough tracking of all medical complaint case details, which culminates in the creation of MedWatch reports, CIOMS reports, and other management documentation. With adWATCH - AE, researchers, physician investigators, Contract Research Organizations (CROs), clinical trial experts, and various health professionals can easily generate and submit AERs in compliance with FDA requirements, adhering to both MedWatch and CIOMS formats. This streamlined process not only enhances regulatory compliance but also improves patient safety oversight during clinical trials.

InSilicoTrials.com is an online platform that offers a user-friendly environment for computational modeling and simulation, featuring a range of integrated, easy-to-navigate in silico tools. It primarily serves professionals in the medical device and pharmaceutical industries. The in silico tools designed for medical devices facilitate computational testing across various biomedical fields, including radiology, orthopedics, and cardiovascular health, during the stages of product design, development, and validation. For the pharmaceutical industry, the platform grants access to in silico tools that support all phases of drug discovery and development across diverse therapeutic areas. We have developed a unique cloud-based platform grounded in crowdscience principles, allowing users to efficiently utilize validated models and reduce their R&D expenses. Additionally, users can explore a continuously expanding catalog of models available for use on a pay-per-use basis, ensuring flexibility and accessibility for their research needs.

CDD Vault allows you to intuitively organize chemical structures, biological study data, as well as collaborate with external or internal partners via a simple web interface. Start a free trial to see how easy it can be to manage drug discovery data. Tailored for You Affordable Scales with your project team Activity & Registration * Electronic Lab Notebook * Visualization * Inventory * APIs

AI-powered drug discovery is a proven technology. Cerella extracts hidden insights from your drug discovery data to reveal the best compounds and most valuable experiment for your project. It can make confident predictions by accurately filling in the missing values. This is especially useful for expensive downstream experiments, which are impossible to predict using other methods. This allows you to do more with sparse and limited data sets.

Amazon Neptune is an efficient and dependable graph database service that is fully managed, facilitating the development and operation of applications that handle intricate, interconnected datasets. At its heart, Amazon Neptune features a specialized, high-performance database engine tailored for the storage of billions of relationships while enabling rapid querying with latency measured in milliseconds. It accommodates widely-used graph models, including Property Graph and W3C's RDF, along with their associated query languages, Apache TinkerPop Gremlin and SPARQL, which simplifies the process of crafting queries for navigating complex datasets. This service supports various graph-based applications, including recommendation systems, fraud detection mechanisms, knowledge graphs, drug discovery initiatives, and enhanced network security protocols. With a proactive approach, it enables the detection and analysis of IT infrastructure threats through a multi-layered security framework. Furthermore, it allows users to visualize their entire infrastructure to effectively plan, forecast, and address potential risks, while also enabling the creation of graph queries for the near-real-time identification of fraudulent patterns in financial and purchasing activities, thereby enhancing overall security and efficiency.

Experience seamless collaboration and knowledge sharing across your organization with a comprehensive platform that integrates all essential tools, allowing for secure workflows and the use of Phoenix-based applications alongside third-party software. With more than 6,000 researchers relying on Phoenix WinNonlin for non-compartmental analysis (NCA), toxicokinetic modeling, and pharmacokinetic and pharmacodynamic (PK/PD) modeling, it has become the preferred choice among biopharmaceutical companies, academic institutions, and 11 international regulatory bodies, including the US FDA, EMA, and PMDA. Additionally, the Phoenix Platform offers advanced features like population PK/PD (popPK) modeling through Phoenix NLME and Level A correlation capabilities provided by the Phoenix IVIVC Toolkit, while its Validation Suites enable rapid software validation in less than half an hour, ensuring efficiency and compliance. This powerful suite not only enhances research productivity but also fosters innovation by enabling users to streamline their workflows effectively.

BioNeMo is a cloud service and framework for drug discovery that leverages AI, built on NVIDIA NeMo Megatron, which enables the training and deployment of large-scale biomolecular transformer models. This service features pre-trained large language models (LLMs) and offers comprehensive support for standard file formats related to proteins, DNA, RNA, and chemistry, including data loaders for SMILES molecular structures and FASTA sequences for amino acids and nucleotides. Additionally, users can download the BioNeMo framework for use on their own systems. Among the tools provided are ESM-1 and ProtT5, both transformer-based protein language models that facilitate the generation of learned embeddings for predicting protein structures and properties. Furthermore, the BioNeMo service will include OpenFold, an advanced deep learning model designed for predicting the 3D structures of novel protein sequences, enhancing its utility for researchers in the field. This comprehensive offering positions BioNeMo as a pivotal resource in modern drug discovery efforts.