Urine Exosome RNA Isolation Kit
A rapid procedure for the isolation of exosomal RNA from urine samples
For research use only and NOT intended for in vitro diagnostics.
Urine Exosome RNA Isolation Kit
A rapid procedure for the isolation of exosomal RNA from urine samples
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Features and Benefits
- Isolation of exosomal RNA molecules from urine samples
- Rapid and convenient spin-column protocol
- Isolate inhibitor-free urinary microRNA for most downstream applications, including Small RNA Sequencing. Find out more information on Norgen's NGS services
- Optional protocol for purification of exosomal proteins for western blot analysis
This kit provides a rapid spin column procedure for the isolation of exosomal RNA from urine samples. Users can simultaneously concentrate and isolate high quality exosomal RNA, including microRNA, for use in sensitive downstream assays such as RT-PCR, qRT-PCR, NGS, microarrays and more. The protocol can be completed in under 50 minutes. Urine volumes of 1 to 10 mL can be processed easily and rapidly. All sizes of RNA are recovered at an equal rate without the need for using hazardous chemicals like phenol.
Background
Exosomes are 40 - 150 nm membrane vesicles, which are secreted by most cell types. Exosomes can be found in saliva, blood, urine, amniotic fluid and malignant ascite fluids, among other biological fluids. These vesicles act as cellular messengers, conveying information to distant cells and tissues within the body. The exosomes contain cell-specific proteins, lipids and RNAs, which are transported to other cells, where they can alter function and/or physiology. These exosomes may play a functional role in mediating adaptive immune responses to infectious agents and tumours, tissue repair, neural communication and transfer of pathogenic proteins. Recent work has demonstrated the presence of distinct subsets of microRNAs within exosomes which can inform about the cell type from which the exosomes are secreted. For this reason, exosomal RNAs may serve as biomarkers for various diseases including cancer. As the RNA molecules encapsulated within exosomes are protected from degradation by RNases they can be efficiently recovered from biological fluids, such as urine.
Details
Supporting Data
Kit Specifications
|
|
Minimum Urine Input |
1 mL
|
Maximum Urine Input |
10 mL
|
Size of RNA Purified |
Small exosomal RNA species
|
Time to Complete Purification |
~ 50 minutes
|
Storage Conditions and Product Stability
All buffers should be kept tightly sealed and stored at room temperature. This kit is stable for 2 years after the date of shipment.
Component | Cat. 47200 (50 preps) |
---|---|
Slurry B1 | 18 mL |
Binding Buffer A | 20 mL |
Lysis Buffer A | 2 x 20 mL |
Wash Solution A | 38 mL |
Elution Solution A | 6 mL |
Mini Filter Spin Columns | 50 |
Collection Tubes | 50 |
Elution Tubes (1.7 mL) | 50 |
Product Insert | 1 |
Documentation
FAQs
Spin Column
Citations
Title | Maternal-Infant Factors in Relation to Extracellular Vesicle and Particle miRNA in Prenatal Plasma and in Postpartum Human Milk |
Citation | International Journal of Molecular Sciences. 2024. |
Authors | by Meghan E. Muse 1,*ORCID,David A. Armstrong 2,3ORCID,Anne G. Hoen 1,4,Diane Gilbert-Diamond 1ORCID,Jiang Gui 4,Thomas J. Palys 1,Frederick W. Kolling 5,Brock C. Christensen 1,6,Margaret R. Karagas 1 and Caitlin G. Howe |
Title | Development of a robust and generalizable algorithm "gQuant" for accurate normalizer gene selection in qRT-PCR analysis |
Citation | Scientific Reports 2024. |
Authors | Abhay Kumar Pathak, Sukhad Kural, Shweta Singh, Lalit Kumar, Mahima Yadav, Manjari Gupta, Parimal Das & Garima Jain |
Title | gQuant: A Robust and Generalizable Algorithm for Identifying Normalizer Genes in qRT-PCR Data: A Case Study on Urinary Exosomal miRNAs |
Citation | bioRxiv 2023. |
Authors | Abhay Kumar Pathak, Sukhad Kural, Shweta Singh, Lalit Kumar, Mahima Yadav, Manjari Gupta, Parimal Das, Garima Jain |
Title | Proximal tubule-derived exosomes contribute to mesangial cell injury in diabetic nephropathy via miR-92a-1-5p transfer |
Citation | Cell communication and signaling : CCS 2023. |
Authors | Yi-Chun Tsai, Mei-Chuan Kuo, Wei-Wen Hung, Ping-Hsun Wu, Wei-An Chang, Ling-Yu Wu, Su-Chu Lee & Ya-Ling Hsu |
Title | Urinary exosomal miRNA signature of IgA nephropathy: a case-control study |
Citation | scientific reports 2023. |
Authors | Mythri Shankar, Aditya Shetty, Madhura N.S., Sreedhara C.G., Kishan A. & Karthik Tennankore |
Title | Urinary exosome-derived microRNAs reflecting the changes of renal function and histopathology in dogs |
Citation | Scientific Reports 2017. |
Authors | Ichii, O., Ohta, H., Horino, T., Nakamura, T., Hosotani, M., Mizoguchi, T., ... & Sasaki, N |
Title | Urinary extracellular vesicles for RNA extraction: optimization of a protocol devoid of prokaryote contamination |
Citation | Journal of Extracellular Vesicles 2016. |
Authors | Tataruch-Weinert, D., Musante, L., Kretz, O., & Holthofer, H |
Title | Vesicle-MaNiA: extracellular vesicles in liquid biopsy and cancer |
Citation | ScienceDirect 2016. |
Authors | Torrano, V., Royo, F., Peinado, H., Loizaga-Iriarte, A., Unda, M., Falcón-Perez, J. M., & Carracedo, A |
Title | Investigation on torquetenovirus (TTV) microRNA transcriptome in vivo |
Citation | Virus Research 2016. |
Authors | Vignolini, T., Macera, L., Antonelli, G., Pistello, M., Maggi, F., & Giannecchini, S |
Title | Urinary exosomal microRNA panel unravels novel biomarkers for diagnosis of type 2 Diabetic Kidney Disease |
Citation | Journal of Diabetes and its Complications 2016. |
Authors | Eissa, S., Matboli, M., Aboushahba, R., Bekhet, M. M., & Soliman, Y |