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Human Neural Hindbrain Stem Cell | |||||||
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| Product Name | Human Neural Hindbrain Stem Cell | ||||||
| Price | Get Quote | ||||||
| Cat.No | ABC-H0027X | Species | Human | ||||
| Size/Quantity | 1 vial | Biosafety Level | 1 | ||||
| Shipping Info | Dry Ice | Storage | Liquid Nitrogen | ||||
| Description | Human Neural Hindbrain Stem Cells (hHBSC) are a type of neural stem cell derived from the hindbrain region of the human fetal brain. Neural stem cells are unique cells with the capacity to self-renew and differentiate into various cell types found in the nervous system, such as neurons, astrocytes, and oligodendrocytes.
The hindbrain is a crucial region of the brain that plays a fundamental role in coordinating various essential functions, including motor control, respiratory rhythm, and sensory processing. Understanding the development and functioning of neural cells in the hindbrain is crucial for unraveling the complexities of neurodevelopment, neurological diseases, and potential therapeutic interventions.
Why choose Human Neural Hindbrain Stem Cell from AcceGen? Multipotent Marvels: With multipotency at their core, AcceGen’s hHBSC showcase the ability to give rise to diverse neural lineages, including neurons, astrocytes, and oligodendrocytes. Dive into groundbreaking research on neural function, disease modeling, and regenerative medicine.
Homogeneous and Adherent: Experience the ease of working with a homogeneous and adherent population of human neural stem cells. Achieve reproducibility and reliability in your experiments with a stable, serum-free maintenance and expansion culture system.
Ethically Sourced and Genetically Unmodified: Rest easy knowing that AcceGen’s hHBSC are derived from ethical procurement practices involving voluntary, consented, and unpaid donors. These cells have not undergone any genetic modifications, ensuring the preservation of their natural characteristics.
Optimal Storage Stability: Upon receipt, store AcceGen’s hHBSC vials in the vapor phase of liquid nitrogen and media bottles at -20℃. Benefit from a minimum stability of 24 months, allowing flexibility in your experimental timelines. | ||||||
| Disease | Normal | ||||||
| Source Organ | Brain | ||||||
| Quality Control | All cells test negative for mycoplasma, bacteria, yeast, and fungi. | ||||||
| Recommended Medium And Supplement | ABM-H0027X Human Neural Hindbrain Stem Cell Medium Kit | ||||||
| Citation Guide | When you publish your research, please cite our product as “AcceGen Biotech Cat.# XXX-0000”. In return, we’ll give you a $100 coupon. Simply click here and submit your paper’s PubMed ID (PMID). | ||||||
| Application | FOR RESEARCH USE ONLY AcceGen’s Human Neural Hindbrain Stem Cells (hHBSC) have various applications in scientific research, particularly in the field of neuroscience. Some of the key applications include:
Neurodevelopmental Studies Understanding the processes involved in the development of the hindbrain. Investigating molecular and cellular events that lead to the formation of neural structures in this region.
Disease Modeling Studying neurodevelopmental disorders that may originate from abnormalities in the hindbrain. Modeling and exploring the pathophysiology of diseases affecting hindbrain structures.
Drug Discovery Screening and testing potential therapeutic compounds for neurodegenerative disorders or hindbrain-related conditions.Evaluating the efficacy of drugs targeting specific neural cell types derived from hHBSCs.
Functional Neurobiology Investigating the functional properties of hindbrain neurons and glial cells. Studying neural circuits, synaptic connections, and network activities in the hindbrain.
Cell Replacement Therapies Exploring the potential of hHBSCs for cell replacement therapies in conditions involving hindbrain damage or degeneration. Investigating the differentiation of hHBSCs into specific neural cell types for transplantation studies.
Gene Editing and Genetic Studies Utilizing hHBSCs for genetic studies to understand the role of specific genes in hindbrain development and function. Employing gene editing techniques to modify hHBSCs for functional genomics research.
Neurotoxicity Testing Assessing the impact of environmental toxins or pharmaceutical compounds on hindbrain cells. Evaluating the potential neurotoxic effects of various substances.
Biological and Physiological Studies Conducting experiments to explore the physiological characteristics of hindbrain-derived neural cells.Investigating the response of hHBSCs to different stimuli or environmental conditions. | ||||||
| Growth Conditions | 37 ℃, 5% CO2 | ||||||
| Cell Type | Hindbrain Stem Cell | ||||||
| Growth Mode | Adherent | ||||||
| Product Type | Nervous Cells | ||||||
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