CAIL
@CAIL Active 4 days, 12 hours agoMember's groups
-
pH indicators are essential tools for monitoring intracellular pH fluctuations, which influence muscle contraction, nerve impulse transmission, and cell signaling. These indicators help researchers track pH […]
-
The neuronal sparse labeling service is a cutting-edge tool for neuroscience research, enabling high-resolution visualization of individual neurons within complex neural networks. This technique allows researchers […]
-
The neuroprotective agent screening service is designed to identify compounds that safeguard neurons from damage, offering potential therapeutic candidates for neurodegenerative diseases such as Alzheimer’s d […]
-
The neuronal toxicity assay evaluates the potential harmful effects of chemicals, pharmaceuticals, or other agents on the nervous system. These assays utilize primary neuronal cells, neuronal cell lines, and […]
-
The hemolysis assay for solutes is designed for in vitro testing of solute-induced hemolysis, providing a reliable method for evaluating biocompatibility and complement activation. This assay measures the […]
-
The hemolysis assay test kit for biomaterial is designed for in vitro testing of biomaterial-induced hemolysis, providing a reliable method for evaluating biocompatibility and complement activation. This assay […]
-
The AP50 functional test kit is designed to evaluate the activity of the alternative complement pathway using an erythrocyte hemolysis assay. This test measures the ability of serum complement components to lyse […]
-
The CH50 functional test kit is designed to evaluate the activity of the classical complement pathway using an erythrocyte hemolysis assay. This test measures the ability of serum complement components to lyse […]
-
Immune checkpoint binding assays are essential for evaluating interactions between checkpoint proteins and their ligands. These assays help determine binding affinity, specificity, and inhibitory effects, […]
-
Immune checkpoint antibody development focuses on modulating immune responses for cancer therapy. These antibodies target checkpoint molecules like PD-1, CTLA-4, and LAG-3, helping to enhance T-cell activation and […]
-
Immune checkpoint assays are essential for evaluating immune modulation in cancer therapy. These assays help assess binding interactions, functional activity, and potency of immune checkpoint inhibitors. […]
-
Immune checkpoint protein development is crucial for modulating immune responses in cancer immunotherapy. These proteins regulate T-cell activation, preventing excessive immune reactions while enhancing […]
-
Morphological differences in macrophages are critical for understanding their diverse functions and roles in the immune system. Analyzing these variations can provide insights into how macrophages respond to […]
-
Human alveolar macrophages are crucial for respiratory health and immune defense in the lungs. These specialized immune cells reside in the alveoli and play a key role in maintaining lung homeostasis by clearing […]
-
Rat bone marrow-derived macrophages are valuable models for studying immune responses and macrophage biology. These cells are isolated from rat bone marrow and differentiated into functional macrophages, making […]
-
Assay kits for macrophage research are essential tools in immunology and biomedical studies. These kits facilitate the analysis of macrophage function, activation, and response to various stimuli. They allow […]
-
Primary Central Nervous System (CNS) cell-based assays are vital tools in neuroscience research, utilizing neurons and glial cells directly isolated from brain tissue. These assays provide a more physiologically […]
-
Custom cell culture model development is revolutionizing neuroscience research by allowing scientists to create tailored in vitro systems that closely mimic the human nervous system. These models enable the study […]
-
Primary neuron culture isolation is a crucial technique in neuroscience research, allowing scientists to study neurons in a controlled environment outside the brain. By extracting neurons directly from brain […]
-
Organotypic brain slice models are vital tools in neuroscience research, providing a three-dimensional, in vitro system that closely mimics the in vivo brain environment. These models maintain the architecture and […]
