Cytoplasmic and Nuclear RNA Purification Kit
For the convenient purification of cytoplasmic and nuclear RNA from cultured cells and tissues
For research use only and NOT intended for in vitro diagnostics.
Cytoplasmic and Nuclear RNA Purification Kit
For the convenient purification of cytoplasmic and nuclear RNA from cultured cells and tissues
Register today to receive an exclusive 15% off* on your first order.
Features and Benefits
- Excellent separation and purification of cytoplasmic and nuclear RNA
- Convenient and fast spin column format
- High quality and yield of RNA
- Isolate full diversity of RNA (including microRNA) without phenol
- Purified RNA is ready for any application including RT-PCR, qRT-PCR, RNA-Seq, arrays and more
- Cytoplasmic RNA is free of DNA and ready for direct use in RT-PCR/qRT-PCR
- Purification is based on spin column chromatography that uses Norgen’s proprietary resin separation matrix
This kit provides a rapid method for the isolation and purification of both cytoplasmic and nuclear RNA from cultured animal cells and small tissue samples. The kit can be used to isolate all sizes of RNA from the cytoplasmic and nuclear RNA fractions, including all small RNA species without any requirement for phenol. Included in the kit are sufficient reagents to perform either 50 cytoplasmic RNA preparations or 25 cytoplasmic and 25 nuclear RNA preparations. Ten samples can be processed in approximately 45 minutes. This kit is also available in a 100 prep size.
Background
In certain circumstances it is desirable to be able to isolate fractionated RNA as opposed to total RNA. For example, it may be preferable to isolate only mature, cytoplasmic RNA for some studies on expression profiling. Alternatively it may be desirable to isolate nuclear RNA in order to investigate and study pre-processed (non-spliced) RNA. Furthermore, this kit can be used to isolate RNA for downstream applications where it is necessary to avoid DNA contamination, since the cytoplasmic fraction has been shown to be free of all traces of genomic DNA.
Details
Supporting Data
Kit Specifications
|
|
Maximum Column Binding Capacity
|
Up to 50 µg RNA
|
Maximum Column Loading Volume
|
650 µL
|
Size of RNA Purified
|
All sizes, including small RNA (< 200 nt)
|
Time to Complete 10 Purifications |
45 minutes
|
RNA Yield
HeLa (1 x 106) - Cytoplasmic RNA HeLa (1 x 106) - Nuclear RNA |
15 µg ≤ 3.5 µg |
Storage Conditions and Product Stability
All solutions should be kept tightly sealed and stored at room temperature. This kit is stable for 2 years after the date of shipment.
Component | Cat. 21000 (50 preps) | Cat. 37400 (100 preps) |
---|---|---|
Lysis Buffer J | 20 mL | 2 x 20 mL |
Buffer SK | 40 mL | 2 x 40 mL |
Wash Solution A | 38 mL | 2 x 38 mL |
Elution Buffer E | 6 mL | 2 x 6 mL |
Mini Spin Columns | 50 | 100 |
Collection Tubes | 50 | 100 |
Elution Tubes (1.7 mL) | 50 | 100 |
Product Insert | 1 | 1 |
Documentation
FAQs
Spin Column
Poor RNA recovery could be due to one or more of the following:
- Insufficient solubilization of cells or tissue.
Ensure that the appropriate amount of Lysis Buffer J was used for the amount of cells or tissue.
- Column has become clogged.
Do not exceed the recommended amounts of starting materials. The amount of starting material may need to be decreased if the column shows clogging below the recommended levels. See FAQ related to “Clogged Column” below.
- An alternative elution solution was used.
It is recommended that the Elution Buffer E supplied with this kit be used for maximum RNA recovery.
- Ethanol was not added to the lysate.
Ensure that the appropriate amount of ethanol is added to the lysate before binding to the column.
- Ethanol was not added to the Wash Solution A.
Ensure that 90 mL of 96-100% ethanol is added to the supplied Wash Solution A prior to use.
- Cell Culture: Cell monolayer was not washed with PBS.
Ensure that the cell monolayer is washed with the appropriate amount of PBS in order to remove residual media from cells.
Column clogging can result from one or a combination of the following factors:
- Insufficient solubilization of cells or tissues.
Ensure that the appropriate amount of Lysis Buffer J was used for the amount of cells or tissue.
- Maximum number of cells or amount of tissue exceeds kit specifications.
Refer to specifications to determine if the amount of starting material falls within kit specifications.
- High amounts of genomic DNA present in sample.
The nuclear lysate fraction may be passed through a 25 gauge needle attached to a syringe 5-10 times in order to shear the genomic DNA prior to loading onto the column.
- Centrifuge temperature is too low.
Ensure that the centrifuge remains at room temperature throughout the procedure. Temperatures below 15℃ may cause precipitates to form that can cause the columns to clog.
RNA can be degraded due to the following factors:
- RNase contamination.
RNases may be introduced during the use of the kit. Ensure proper procedures are followed when working with RNA. Please refer to “Working with RNA” at the beginning of this user guide.
- Procedure not performed quickly enough.
In order to maintain the integrity of the RNA, it is important that the procedure be performed quickly. This is especially important for the Cell Lysate Preparation Step in the Animal Tissue protocol, since the RNA in animal tissues is not protected after harvesting until it is disrupted and homogenized.
- Improper storage of the purified RNA.
For short term storage, RNA samples may be stored at –20℃ for a few days. It is recommended that samples be stored at –70℃ for longer term storage.
- Frozen tissues or cell pellets were allowed to thaw prior to RNA isolation.
Do not allow frozen tissues to thaw prior to grinding with the mortar and pestle in order to ensure that the integrity of the RNA is not compromised.
- Tissue samples were frozen improperly.
Samples should be flash-frozen in liquid nitrogen and transferred immediately to a -70℃ freezer for long-term storage.
If the RNA does not perform well in downstream applications, it may be due to one or more of the following:
- RNA was not washed 3 times with the provided Wash Solution A.
Traces of salt from the binding step may remain in the sample if the column is not washed 3 times with Wash Solution A. Salt may interfere with downstream applications, and thus must be washed from the column.
- Ethanol carryover.
Ensure that the dry spin under the Column Wash procedure is performed in order to remove traces of ethanol prior to elution. Ethanol is known to interfere with many downstream applications.
Genomic DNA contamination could be because traces of nuclear pellet remained in cytoplasmic fraction. Ensure that a solid pellet is formed at the end of the Cell Fraction Preparation step, and that none of the pellet is removed when the supernatant is transferred to another tube.
Please refer to supporting data Fig 4 where we have shown a qPCR for U2 snRNA which is amplified only in nuclear fraction, and also a qPCR for S14 RNA which is amplified in cytoplasmic fraction.
Citations
Title | Curcumin alleviates Aflatoxin B1-triggered chicken liver necroptosis by targeting the LOC769044/miR-1679/STAT1 axis |
Citation | Poultry Science 2024. |
Authors | Sihong Li 1 2 *, Yixin Zhang 1 *, Muhammad Ishfaq 3, Ruimeng Liu 1, Gaoqiang Wei 1, Xiuying Zhang |
Title | Hypoxia-induced circRNAs encoded by PPARA are highly expressed in human cardiomyocytes and are potential clinical biomarkers of acute myocardial infarction |
Citation | European Journal of Medical Research 2024. |
Authors | Shasha Huang, Zhangying Wu & Yang Zhou |
Title | Regulatory feedback loop between circ-EIF4A3 and EIF4A3 Enhances autophagy and growth in colorectal cancer cells |
Citation | Translational Oncology 2024. |
Authors | Qingke Li a, Zhiwu Wang b, Jian Wang a, Jiangong Wang b, Xuan Zheng c d e, Dan Li c d e, Zhuo Wang c d e, Jingwu Li a c d, Yufeng Li |
Title | Schistosoma japonicum infection-mediated downregulation of lncRNA Malat1 contributes to schistosomiasis hepatic fibrosis by the Malat1/miR-96/Smad7 pathway |
Citation | Parasites and Vectors 2024. |
Authors | Pengyue Jiang, Shengyu Ye, Xiaobin Fan, Yini Tian, Dongmei Zhang & Weiqing Pan |
Title | Small nucleolar RNA Snora73 promotes psoriasis progression by sponging miR-3074-5p and regulating PBX1 expression |
Citation | Functional and Integrative Genomics 2024. |
Authors | Lihua Zhang, Hui Guo, Xiaoguang Zhang, Ling Wang, Feng Wei, Yike Zhao, Bo Wang, Yibo Meng & Yanling Li |
Title | Circular RNA-GRIN2B Suppresses Neuropathic Pain by Targeting the NF-?B/SLICK Pathway |
Citation | NeuroMolecular Medicine 2024. |
Authors | Kun Wang, Zicong Shen, Xin Peng, Xiaotao Wu & Lu Mao |
Title | Circular RNA cVIM promotes hepatic stellate cell activation in liver fibrosis via miR-122-5p/miR-9-5p-mediated TGF-ß signaling cascade |
Citation | Communications Biology 2024. |
Authors | Zhenxu Zhou, Rongrong Zhang, Xinmiao Li, Weizhi Zhang, Yating Zhan, Zhichao Lang, Qiqi Tao, Jinglu Yu, Suhui Yu, Zhengping Yu & Jianjian Zheng |
Title | Isolating enriched fractions of nuclear and cytoplasmic RNAs from Arabidopsis flowers |
Citation | Protocols IO 2024. |
Authors | Diep R Ganguly Wil Prall Susheel Sagar Bhat Sean Hilgendorf Brian D Gregory |
Title | LINC02086 inhibits ferroptosis and promotes malignant phenotypes of pancreatic cancer via miR-342-3p/CA9 axis |
Citation | Functional & Integrative Genomics 2024. |
Authors | Yuanpeng Xiong, Xiaoyu Kong, Shuju Tu, Wanpeng Xin, Yongyang Wei, Siqing Yi, Renhua Wan & Weidong Xiao |
Title | CircUBE3A(2,3,4,5) promotes adenylate-uridylate-rich binding factor 1 nuclear translocation to suppress prostate cancer metastasis |
Citation | Cancer Letters 2024. |
Authors | Ziwei Wei a 1, Cong Zhang a b 1, Yufeng Song a, Dunsheng Han a, Jinke Liu a, Xiaoming Song a, Fan Chao c, Shiyu Wang d, Guoxiong Xu d, Gang Chen a |