Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Purified and lyophilized Microvesicles (MV) are obtained from cell conditioned media. Diff erent EVs are separated by size using tangential flow filtration (TFF) and subsequantly purified by size exclusion chromatography (SEC) and microfiltration. Isolated vesicles are quantifi ed and validated for overall protein content, size distribution and particle number by NTA (Nanoparticles Tracking Analysis) with Zetaview analyzer (Particle Metrix).
Product Type:
Lyophilized microvesicles
Storage Temp:
Store up to 3 years at 4°C >>> Storage of reconstituted microvesicles: -20°C for up to one month or -80°C for up to 6 months. Avoid repeated freeze-and-thaw cycles.
Lyophilization is an ideal method for long-term storage of exosomes and microvesicles. It does not alter the stability of exosome proteins and nucleic acids, in comparison to other storage methods, including storage of fresh EVs at -20°C. Lyophilized EVs and microvesicles are easy to ship and stable for long term storage (up to 36 months).
Application Details:
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Assay calibration. Control (spike-in) for exosome quantification. Protein marker analysis using different techniques. Extraction and analysis of exosome nucleic acid. Standardized positive controls for immunocapture performance evaluation. Flow cytometry. Electron microscopy.
Shelf life:
6 months
Cookies:
X
We use cookies to help personalise and improve your web experience.
By using our website you consent to our use of cookies, some of which may have already been set on your device.
View our Cookie Policy to learn more.