加快研发步伐
利用Corning® 细胞培养产品、微孔板、试剂和筛选技术提升分析开发能力及性能。康宁的每一款产品均遵循严格的生产标准、流程控制和合规性检测,以确保稳定性和可重复性,包括:
- 促进细胞生长的细胞培养器皿和培养基
- 适用于细胞和生化分析的微孔板
- 用于筛选分析的自动化吸头
- 支持ADME/Tox检测研究的试剂
- 高内涵筛选技术
Assay Development and Target Identification
Assay Development and Target Identification
Choosing the right microplate is a key step to developing a successful assay. Corning microplates offer compatibility with a wide range of laboratory instruments, including microplate readers, microplate washers, liquid handling instruments, automation accessories, and robotic systems. Corning offers a complete line of solutions for all your cell-based and biochemical assay development needs.
- 96- and 384-well microplates for assay development.
- Cell-based assay microplates offer an in vitro, biologically relevant solution to predict drug responses.
- Biochemical assay microplates successfully detect, quantify, and study the binding or activity of a biological molecule.
- High content screening microplates uncover biologically relevant information from cells and compounds in drug discovery research.
- Corning Elplasia® plates enable high-density, scaffold-free, self-assembly spheroid formation, culture and analysis.
- Spheroid microplates are ideal for generating and analyzing 3D spheroids.
- To support testing demand, Corning, a leader in high quality, high-performance ELISA 1 x 8 strips and microplates has boosted our availability to support a wide range of critical laboratory serological testing workflows.
- 96- and 384-well microplates for assay development.
- Cell-based assay microplates offer an in vitro, biologically relevant solution to predict drug responses.
- Biochemical assay microplates successfully detect, quantify, and study the binding or activity of a biological molecule.
- High content screening microplates uncover biologically relevant information from cells and compounds in drug discovery research.
- Corning Elplasia® plates enable high-density, scaffold-free, self-assembly spheroid formation, culture and analysis.
- Spheroid microplates are ideal for generating and analyzing 3D spheroids.
To support testing demand, Corning, a leader in high quality, high-performance ELISA 1 x 8 strips and microplates has boosted our availability to support a wide range of critical laboratory serological testing workflows.
- Microcentrifuge tubes, pipette tips and pipettors and pipettes and pipette controllers for cell dispensing and assay development.
- Vessels, including Corning HYPERFlask® vessels, for quality and consistency in cell growth.
- Media, sera, and reagents to maximize cell yield.
- Reservoirs and sealing tape/film
- Microcentrifuge tubes, pipette tips and pipettors and pipettes and pipette controllers for cell dispensing and assay development.
- Vessels, including Corning HYPERFlask® vessels, for quality and consistency in cell growth.
- Media, sera, and reagents to maximize cell yield.
- Reservoirs and sealing tapes for film.
Screening
Screening
Corning offers an extensive selection of products used in high throughput screening, automation, and label-free technology in drug discovery.
- 96- and 384-well microplates for cell dispensing and assay development.
- 1536-well microplates for drug screening.
- Cell-based assay microplates offer an in vitro, biologically relevant solution to predict drug responses.
- Biochemical assay microplates successfully detect, quantify, and study the binding or activity of a biological molecule.
- High content screening microplates uncover biologically relevant information from cells and compounds in drug discovery research.
- Corning Elplasia plates enable high-density, scaffold-free, self-assembly spheroid formation, culture and analysis.
- Spheroid microplates are ideal for generating and analyzing 3D spheroids.
- Bar coded microplates, available off the shelf or custom made.
- 96- and 384-well microplates for cell dispensing and assay development.
- 1536-well microplates for drug screening.
- Cell-based assay microplates offer an in vitro, biologically relevant solution to predict drug responses.
- Biochemical assay microplates successfully detect, quantify, and study the binding or activity of a biological molecule.
- High content screening microplates uncover biologically relevant information from cells and compounds in drug discovery research.
- Corning Elplasia plates enable high-density, scaffold-free, self-assembly spheroid formation, culture and analysis.
- Spheroid microplates are ideal for generating and analyzing 3D spheroids.
- Bar coded microplates, available off the shelf or custom made.
- Automation pipette tips for sample preparation.
- Automation reservoirs
- Microcentrifuge tubes, pipette tips and pipettors and pipettes and pipette controllers for cell dispensing and assay development.
- Vessels, including Corning CellSTACK chambers and HYPERStack® cell culture vessels, for quality and consistency in cell growth.
- Media, sera, and reagents to maximize cell yield.
- Automation pipette tips for sample preparation.
- Automation reservoirs
- Microcentrifuge tubes, pipette tips and pipettors and pipettes and pipette controllers for cell dispensing and assay development.
- Vessels, including Corning CellSTACK chambers and HYPERStack® cell culture vessels, for quality and consistency in cell growth.
- Media, sera, and reagents to maximize cell yield.
- Ultra-High-Throughput Screening (uHTS): How Scientists at Scripps Research Target Global Medical Breakthroughs
- Comparative Cell-Based Analysis of Various 1536 Well Microplate Surfaces
- Understanding the Relationship between Automation/Instrumentation and Microplates
- High-throughput, Three-Dimensional Assay Development with Corning 1536-well Spheroid Microplates and INTEGRA Biosciences’ VIAFLO 384 and VIAFILL Liquid Handlers
- What Is High Throughput Screening and How Is It Evolving?
- Ultra-High-Throughput Screening (uHTS): How Scientists at Scripps Research Target Global Medical Breakthroughs
- Comparative Cell-Based Analysis of Various 1536 Well Microplate Surfaces
- Understanding the Relationship between Automation/Instrumentation and Microplates
- High-throughput, Three-Dimensional Assay Development with Corning 1536-well Spheroid Microplates and INTEGRA Biosciences’ VIAFLO 384 and VIAFILL Liquid Handlers
- What Is High Throughput Screening and How Is It Evolving?
药物研发
创新从未停止
应用中的解决方案
康宁的客户构建出更多3D预测模型
使用患者来源的胰腺类器官提供个性化治疗
使用患者来源的胰腺类器官提供个性化治疗
圣地亚哥加利福尼亚大学 (UC) 的Hervé Tiriac博士探讨了如何创建胰腺类器官库,预测患者可能对癌症治疗的反应。
圣地亚哥加利福尼亚大学 (UC) 的Hervé Tiriac博士探讨了如何创建胰腺类器官库,预测患者可能对癌症治疗的反应。
斯克里普斯研究所的科学家探索取得全球医学突破的机会
斯克里普斯研究所的科学家探索取得全球医学突破的机会
从启动开始分析开发到剂量反应和药物化学,探索用于识别具有临床应用潜力的小分子的最前沿技术。
从启动开始分析开发到剂量反应和药物化学,探索用于识别具有临床应用潜力的小分子的最前沿技术。
3D人球体细胞球体作为药物研发的预测模型
3D人球体细胞球体作为药物研发的预测模型
StemoniX的Ryan Gordon博士探讨了类器官在药物研发早期的应用,并详细阐述在制药应用中影响数据可重复性的因素。
StemoniX的Ryan Gordon博士探讨了类器官在药物研发早期的应用,并详细阐述在制药应用中影响数据可重复性的因素。
技术文件
药物研发应用支持
1536孔板表面
1536孔板表面对比分析
本文以康宁1536孔低边框容量微孔板为例,对不同的1536孔微孔板表面进行了对比
本文以康宁1536孔低边框容量微孔板为例,对不同的1536孔微孔板表面进行了对比
了解更多
非结合微孔板
非结合微孔板的性能优势
康宁非结合微孔板具有惰性、非离子、亲水性表面,可最大程度减少分子间的相互作用,从而使得这项专有技术对于某类高通量筛选分析至关重要。
康宁非结合微孔板具有惰性、非离子、亲水性表面,可最大程度减少分子间的相互作用,从而使得这项专有技术对于某类高通量筛选分析至关重要。
了解更多
免标记检测
化合物聚集的免标记检测
小分子化合物聚集是初步筛选分析中遇到的主要难题。通过整合光学生物传感器,Epic技术可用于检测分子间相互作用。
小分子化合物聚集是初步筛选分析中遇到的主要难题。通过整合光学生物传感器,Epic技术可用于检测分子间相互作用。
了解更多支持
