Search for posts by JoannaBowie1
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Ceramic-Imaging-Services
from JoannaBowie1 on 02/22/2023 04:58 AMCeramics are essentially a fusion of smaller, simpler crystalline elements into a bulk material. As a result, the microstructure and crystalline properties of ceramics are critical. In order to accurately evaluate the reliability and defects of ceramic materials, electron microscopy (EM) is an indispensable tool. Ceramic-Imaging-Services https://iem.creative-biostructure.com/ceramic-characterization-using-the-iem-platform.html
Materials-Analysis
from JoannaBowie1 on 02/22/2023 04:58 AMMaterials, such as polymers, alloys, and composites, play essential roles in a wide range of industries, including human health, energy storage and transportation, industrial devices, and so on. Materials science is a complex field of study, specifically the application of substances of different properties to various fields of science and engineering. To propel continued innovation, researchers can deepen the understanding of the physical and chemical properties of materials from the nanoscale to the macroscale. Materials-Analysis https://iem.creative-biostructure.com/materials-science.html
HTS-assay-development-in-drug
from JoannaBowie1 on 02/22/2023 04:55 AMHigh-throughput screening (HTS) remains the key approach for finding hits and leads in the field of drug discovery. As the number of compounds available for screening has increased dramatically, industrialization and automation of the process have improved the ability to deal with larger numbers of compounds. Creative Biostructure provides high-quality custom MagHelix™ HTS assay development services for the pharmaceutical and biotechnological industries. We can start from a specific target/cell line or assist an ongoing lead discovery programs based on the requirements of our customers. HTS-assay-development-in-drug https://drug-discovery.creative-biostructure.com/maghelix-hts-assay-development-p30
protein-peptide-docking
from JoannaBowie1 on 02/22/2023 04:46 AMCreative Biostructure provides a variety of experimental structural biology approaches to help elucidate the interaction mechanisms between proteins and other molecules (such as proteins, nucleic acids, small molecule compounds, peptides, etc.). At the same time, we can also use computer-based molecular docking methods to predict the three-dimensional (3D) structures of these interacting partners. We exploit computational docking techniques for various purposes, such as protein-ligand docking, protein-protein docking, protein-nucleic acid docking, antigen-antibody docking, and protein-peptide docking. protein-peptide-docking https://drug-discovery.creative-biostructure.com/molecular-docking-p39
COVID-19-crystal-structure-determination
from JoannaBowie1 on 02/22/2023 04:45 AMA new highly pathogenic coronavirus (SARS-CoV-2, provisionally named 2019-nCoV) has swept the world since December 2019. The key to responding to this outbreak is to understand the pathogenic mechanism of the virus. Our understanding of the viral infection process at the molecular and atomic levels depends on the ability to map the structural details of individual biological macromolecules and their interactions with each other and with small molecules. The determination of the three-dimensional (3D) structures of proteins is essential for understanding these interactions and their structure-function relationships, which is beneficial for scientists to develop more effective preventive or therapeutic drugs more quickly. With advanced facilities and years of experience in crystallization and structure determination, Creative Biostructure provides flexible X-ray crystallography services covering all technical stages from gene synthesis to structural analysis to support coronavirus-related research. COVID-19-crystal-structure-determination https://www.creative-biostructure.com/coronavirus/x-ray-crystallography-services-for-coronavirus-research-p13.htm
COVID-19-VLP-vaccine-development
from JoannaBowie1 on 02/22/2023 04:45 AMVirus-like particle (VLP) is a polymeric nanostructure assembled from natural viral structural proteins, but do not contain any genetic material. The VLP consists of high-density displays of viral surface proteins and is therefore a highly adaptable tool for a variety of applications, such as delivery system, antibody development, and membrane protein expression. During the coronavirus pandemic, Creative Biostructure rapidly integrated VLP-based vaccine development technologies and various in-house coronavirus-related VLP products to facilitate the development of methods for the prevention of this emerging infectious disease. COVID-19-VLP-vaccine-development https://www.creative-biostructure.com/coronavirus/vlp-based-vaccine-development-p33.htm
VLP-Construction-service
from JoannaBowie1 on 02/22/2023 04:44 AMCreative Biostructure is specialized in providing cost-effective contract services to both academia and biotech/pharmaceutical industries in the field of structural biology and membrane protein technologies. We have developed all-in-one, gene-to-structure pipelines for the structure determination of macromolecules of your interest. With a team of experienced professionals, Creative Biostructure is able to solve the structure of many challenging proteins including GPCRs, ion channels, transporters, enzymes and viral targets. We also provide a comprehensive list of products and other related services to facilitate your research in structural biology. VLP-Construction-service https://www.creative-biostructure.com/vlp-construction-40.htm
VLP-production-services
from JoannaBowie1 on 02/22/2023 04:44 AMCreative Biostructure is specialized in providing cost-effective contract services to both academia and biotech/pharmaceutical industries in the field of structural biology and membrane protein technologies. We have developed all-in-one, gene-to-structure pipelines for the structure determination of macromolecules of your interest. With a team of experienced professionals, Creative Biostructure is able to solve the structure of many challenging proteins including GPCRs, ion channels, transporters, enzymes and viral targets. We also provide a comprehensive list of products and other related services to facilitate your research in structural biology. VLP-production-services https://www.creative-biostructure.com/virus-like-particle-vlp-services.htm

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