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Cell Isolation Articles & Analysis
73 articles found
Viability is the critical output metric for sorted cell populations. Cells that survive sorting must remain functional for downstream applications such as culture, stimulation assays, single cell sequencing, or manufacturing. For fragile cell types, the sorting method can distinguish a viable dataset from a stressed, unusable ...
ByCytena
The limitation is resolution: MACS does not provide single-cell isolation, and purity can plateau depending on marker quality, bead binding, and sample complexity.Image-based single-cell isolation: where documentation mattersIf a single cell per well with documented proof is required—for example for clonal line ...
ByCytena
Single cell isolation is essential for reproducibility and regulatory compliance in modern life science workflows, including stable cell line development, gene editing, and single-cell omics. Precise isolation of individual cells enables the capture of functional heterogeneity and supports ...
ByCytena
Lithium’s Predictive Edge Lithium-ion batteries incorporate sophisticated Battery Management Systems (BMS) that continuously track individual cell voltages, temperature, and state-of-charge (SOC). Connected via telematics, these BMS platforms feed real-time data into fleet-management dashboards, enabling: Predictive Maintenance: Algorithms detect early signs of ...
The Importance of Spatial Context Proteins are the workhorses of the cell, responsible for a myriad of functions such as catalyzing biochemical reactions, providing structural support, and regulating cellular processes. Understanding the spatial distribution of proteins within tissues and cells is crucial for deciphering their roles and interactions. Traditional ...
They can be produced in microbial systems such as yeast or bacteria, which reduce the complexity and cost associated with mammalian cell culture. Reduced Immunogenicity: Due to their smaller size and unique structure, single-domain antibodies tend to elicit a lower immune response in humans, making them safer for therapeutic applications. ...
The combination of these elements allows for the maintenance and propagation of large DNA inserts within host cells. Construction Process The process of constructing a fosmid library begins with the isolation of genomic DNA from the organism of interest. ...
Unlike cell lines, which are established from immortalized cells or tissues, primary cells are directly isolated from living organisms. ...
Cellular models primarily involve the use of hepatocyte cell lines or primary hepatocytes isolated from animal sources. Such models allow for controlled studies in vitro, facilitating the examination of cellular mechanisms, lipid metabolism, and the effects of specific compounds on liver cells. ...
Human mesenchymal stem cells (hMSCs) are a remarkable type of stem cell found in various tissues, such as bone marrow, adipose tissue, and umbilical cord. ...
Introduction to Single-Cell RNA Sequencing Single-cell RNA sequencing (scRNA-seq) represents a groundbreaking advancement in genomic techniques, allowing researchers to detect and quantify messenger RNA (mRNA) molecules at the single-cell level. ...
Fluorescence-activated cell sorting is used to isolate cell types in brain tissue from single-cell suspensions based on cell surface immunophenotype. ...
Antibody drugs are a type of biological product, commonly used in the treatment of various complex diseases, including autoimmune diseases, inflammatory diseases, and cancer. These drugs are produced in cell culture systems through complex biotechnology, usually involving mammalian cell lines, such as CHO (Chinese Hamster Ovary) cells. ...
In the process of biological pharmaceutical production, especially when using mammalian cells as hosts to prepare recombinant protein drugs, mycoplasma contamination is an important issue, because the presence of mycoplasma may affect the quality and safety of the drug. Therefore, mycoplasma testing of recombinant protein drugs is a necessary quality control step.Common methods ...
However, the detailed protocols for obtaining high-quality, mature dendritic cells are anything but simple. The process of dendritic cell culture comprises several critical stages: progenitor cell isolation, differentiation, maturation, and recovery. Each stage requires carefully optimized environments, the right factors, and ...
Mitochondria are a unique type of organelle present within cells, serving as the primary source of energy within living organisms. ...
Cell Analysis for Brain Tumors Cell analysis, particularly at the single-cell level, provides deep insights into the cellular heterogeneity within brain tumors. ...
The T cell antigen receptor (TCR) is a characteristic marker of T cells, playing a crucial role in the immune system. Each T cell typically expresses a specific TCR, which has a unique structure and sequence that can recognize different antigens, including bacteria, viruses, tumor cells, and other pathogens. ...
The Latest Technological Advances in Antibody Discovery1. Single B Cell Isolation and SequencingThe isolation and sequencing of single B cells can help us gain a deeper understanding of the diversity and specificity of B cells. ...
Sample PreparationProteins are extracted from biological samples. This can be achieved through cell culture, tissue isolation, or other methods. The extracted proteins are then purified and separated through electrophoresis, liquid chromatography, or other separation methods to obtain a single protein sample.2. ...