1.999赔率彩票网 CLS™ 系统帮助您探索常规实验与复杂创新实验中的生物学信息。通过一系列创新技术的有机结合，1.999赔率彩票网 CLS™ 同时满足精细细胞细节成像对高速、高灵敏度、高分辨率检测多方面的需求。同时，凭借功能强大的Harmony 4.5版软件，1.999赔率彩票网 CLS™ 可帮助您手机版并定量细微的细胞表型改变。
1.999赔率彩票网 CLS™ 系统同时兼具高速、高灵敏度的数据采集能力，以及广受赞誉的功能强大，界面友好的数据分析解读功能。为了进一步助力您的研究工作，我们提供了从全套高内涵筛选的解决方案，从高内涵仪器到成像使用标准多孔板到自动化液体工作站以及后续丰富的信息学数据处理解决方案。Perkinelmer为你提供一站式的无缝连接服务，帮助您搭建全面专业高内涵筛选平台。完善的平台搭建服务与界面友好且功能强大的高内涵分析软件harmony ,帮您扫除高内涵筛选路上的后顾之忧。与您一路同行，快速高效的开始您的高内涵筛选工作。
1.999赔率彩票网 CLS™ 满足您实验中的多种实验需求。您可根据您的实验需求定制不同模块的高内涵系统。推荐配置包括：
1.999赔率彩票网 CLS™ Quattro
1.999赔率彩票网 CLS™ FLEX
1.999赔率彩票网 CLS™ LIVE
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Discover how image-based screening can be performed directly in primary material, enabling more clinically translatable drug screening, and ultimately, functional precision medicine.
Download our brochure to learn how our solutions help you to grow, detect, and analyze 3D cell
Download our booklet to learn about how the third dimension affects cell behavior, the similarities and differences between 2-D and 3-D culture, common 3-D culture models, and how to image and analyze 3-D culture models.
While 3D cell culture provides unprecedented opportunities for both increased physiological relevance and analysis using a high-content approach, it is also more complex than traditional 2D cell culture. This booklet, from Biocompare and PerkinElmer, will unravel some of the complexities often encountered when using 3D cell models for drug discovery and provide insights and solutions that will streamline workflows and facilitate the development of effective therapeutics. Topics covered include: Reagents and instruments for growing, detecting, and analyzing 3D cell models; 3D culture methodologies; the value of high-content screening with 3D cell models and how to improve image acquisition and image analysis with high-content assays.
Extracellular signal-regulated kinase (ERK) is a key component in the regulation of embryogenesis, cell differentiation, cell proliferation, and cell death. The ERK signaling pathway is altered in various cancer types and is frequently investigated as a target for therapeutic intervention. This application note describes how a live cell FRET assay to study ERK signaling was performed on the 1.999赔率彩票网 CLS™ high-content analysis system. The optimized design of the FRET-based biosensor, the high-quality imaging of the 1.999赔率彩票网 CLS system and the easy-to-use image analysis tools of the Harmony® software contribute to the robustness of the high-content assay.
In this application note, we describe a high-content screening application for analyzing the migration of non-small cell lung cancer cells in a live cell assay. Using the 1.999赔率彩票网® high-content imaging system and digital phase contrast imaging, we tracked migrating cancer cells using automated single cell tracking in the Harmony® high-content imaging and analysis software.
Learn how a phenotypic screening assay to study time-dependent effects of endothelin-1-induced hypertrophy was set up using human induced pluripotent stem cell (hiPSC)-derived cardiomyocytes. Learn how: The Opera Phenix system has been applied in the field of neurodegenerative diseases. In this assay, the Opera Phenix system is 4 times faster than the previous Opera® system. Primary neuron morphology is analyzed in a straightforward approach using Harmony software. Careful assay optimization can increase throughput, and minimize the data burden, without compromising assay performance.
High-content assays using 3D objects such as cysts or organoids can be challenging from the perspectives of both image acquisition and image analysis. In this technical note we describe how to image and analyze epithelial Madin-Darby canine kidney (MDCK) cysts in 3D on the 1.999赔率彩票网 CLS™ high-content analysis system.
Download our technical note to find out how you can overcome some of the challenges associated with long-term live cell imaging. Learn how you can perform successful five-day live cell imaging on 1.999赔率彩票网 CLS™ and Opera Phenix™ high-content systems, avoid phototoxicity with gentle digital phase contrast imaging, and analyze cell growth and morphology on a single cell level without fluorescence staining.
Balancing the key factors in HCS imaging - sensitivity, resolution and speed - can be challenging since they cannot be optimized independently: changing one impacts the others. Nevertheless, there is a way to overcome some of the obstacles and here we explain why the choice of the objective lens is critical.
Whether you’re familiar with high-content screening, or a newcomer, you’ll need the right tools and strategies to overcome the challenges of using complex 3D cell models in such an assay. For example, growing consistent, reproducible 3D cultures can be problematic and imaging large, thick cell samples can be challenging, while managing the huge volumes of data generated is perhaps the most demanding aspect of all. In this article, we provide our top tips for running a successful high-content screening assay using a 3D cell model. Learn how you can: Generate uniform 3D cell models, Get the best quality images, Minimize imaging time and volume of data, Get deeper insights from your 3D cell model and Avoid unnecessary data transfer steps.
Whether you’re familiar with high-content screening and are looking to exploit the increased physiological relevance of complex 3D cell models, or you want to take your analysis of 3D cell models to the next level, migrating from simple plate-reader assays to a high-content approach, you’ll need the right tools and strategies to overcome the challenges these models present.
Human induced pluripotent stem cells (iPSCs) offer tremendous opportunities for disease modeling and discovery of novel therapeutics. The UK-based Human Induced Pluripotent Stem Cell Initiative (HipSci) aims to advance iPSC technology and pave the way to discovering how genomic variation impacts cellular phenotype by offering the scientific community access to a vast panel of cell lines with thorough characterization and data analysis tools. This case study details a phenotypic screen used to characterize human iPSCs on diverse extracellular matrix substrates, and a method for the capture of specific phenotypes emerging upon cell-to-cell contact.
One of the greatest challenges in multiple sclerosis (MS) therapy is the halting or reversal of the failure of remyelination in the brain in order to reverse disabilities in MS patients. This case study highlights the recent work of Dr. Paul Tesar and colleagues at the Case Western Reserve University School of Medicine, which could potentially lead to such novel treatments, as it aims to control the function of stem cells in the body and thereby to help the body repair itself.
Infectious diseases remain a major burden to human health. The increased globalization of modern society that facilitates the spread of infectious diseases, and phenomena such as anti-microbial resistance, underscore the importance of the development of new preventative and therapeutic approaches. In our e-book, learn how high-content imaging and analysis plays a significant role in infectious disease research.