AAV-Syn-mito-RGeco

Product Overview

Tracer Type

Fluorescent labeling

Serotype

AAV2/1; AAV2/2; AAV2/4; AAV2/5; AAV2/6; AAV2/7; AAV2/8; AAV2/9; AAV2/DJ; AAV2/DJ8; AAV2/PHP.B; AAV2/PHP.eB; AAV2/PHP.S; AAV2/PHP.N; AAV2/PHP.V1; AAV2/retro; AAV2/rh10

Virus Type

Adeno-Associated Virus (AAV)

Applications

Neural Tracing

Research Areas

Neural Circuit Mapping

Promoter

Syn

Properites

Shipping

Viral particles are shipped frozen on dry ice. Plasmid DNA (≥ 200ng) will also be included in the shipment.

Handling Advice

The lentivirus is generally referred to as BSL-2. AAV is usually considered BSL-1, but may require BSL-2 handling depending on the insert.

Storage

Store at -80°C. Thaw just before use and keep on ice.

Quality Control

Creative Biolabs ensures high-quality viral vectors by optimizing and standardizing production plans and implementing strict quality control (QC). The specific QC analysis performed for each virus batch is different.

Titer: The precise titer of the sample will be reported on the test tube. The potency you see on this page is the guaranteed minimum potency.

Research Use Only

For research use only.

Publications

Publications (0)

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Scientific Resources

[Brochure]

Neural Circuit Tracing Tools

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[Brochure]

Virus Vector Tools for Neural Cell Manipulation

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[Flyer]

Ready-to-Use AAV Biosensors

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[Knowledge Sharing]

Applications of AAV and LV in Nervous System Research

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Customer Reviews and Q&As

Customer Reviews Average Customer Ratings Overall

5.0

Excellent

It provided valuable insights

The sensor provided high-resolution imaging of mitochondrial activity with excellent signal-to-noise ratio. It's a valuable tool for our studies on neuronal health and neurodegenerative diseases.

Excellent

Observed real-time changes

The AAV-Syn-mito-RGeco system worked exceptionally well in our experiments tracking mitochondrial function in neurons. The fluorescence intensity was consistent, and the data we obtained were reliable and reproducible.

Excellent

Highly satisfied with this product

The real-time imaging capabilities were impressive, and it greatly enhanced our understanding of mitochondrial roles in neural signaling.

Excellent

The sensor provided excellent fluorescence signals and facilitated detailed analysis

AAV-Syn-mito-RGeco provided clear and detailed images of mitochondrial function in our neuronal cultures. The sensor's sensitivity to changes in mitochondrial membrane potential allowed us to observe subtle variations that were crucial for our research.

Excellent

Reliable and high-quality data

It delivered high-quality fluorescence imaging, and the data integration with our existing systems was seamless. Great product for neural tracing studies.

Q&As

What kind of data analysis software is compatible with the imaging data from AAV-Syn-mito-RGeco?

AAV-Syn-mito-RGeco imaging data can be analyzed using a variety of software platforms that support fluorescence microscopy data. Commonly used software includes ImageJ/Fiji, MATLAB, and specialized microscopy analysis tools. These programs offer features for quantifying fluorescence intensity, tracking mitochondrial movement, and performing advanced image processing to extract meaningful insights from your data.

What are the best practices for introducing AAV-Syn-mito-RGeco into neuronal cultures or animal models?

Best practices for introducing AAV-Syn-mito-RGeco involve optimizing the delivery method for your specific model. In neuronal cultures, use appropriate transduction protocols and verify the efficiency of infection. For in vivo studies, choose suitable viral vectors and injection techniques to target the desired brain regions. It is essential to validate expression and functionality post-delivery to ensure successful sensor integration.

Can AAV-Syn-mito-RGeco be used in combination with other fluorescent markers or sensors?

Yes, AAV-Syn-mito-RGeco can be used in combination with other fluorescent markers or sensors. To avoid overlap and interference, select markers with distinct emission and excitation spectra. Proper experimental design and using appropriate filter sets will ensure that the signals from multiple sensors are distinguishable, allowing for simultaneous imaging of various cellular components or processes.