Dynabeads™ mRNA Purification Kit (for mRNA purification from total RNA preps).

인용 및 참조 문헌 (5)

Invitrogen™

Dynabeads™ mRNA Purification Kit (for mRNA purification from total RNA preps).

Dynabeads™ mRNA Purification Kit는 평균 15분 내에 신속하게 mRNA transcriptome을 분리하여 순수하고 완전한 mRNA를 제공합니다. 이 kit는 총 RNA 준비에서자세히 알아보기

카탈로그 번호	수량
61006	2 mL

카탈로그 번호 61006

제품 가격(KRW)

957,000

온라인 행사

Ends: 30-Jun-2026

1,125,000

할인액 168,000 (15%)

제품 가격(KRW)

957,000

온라인 행사

Ends: 30-Jun-2026

1,125,000

할인액 168,000 (15%)

Dynabeads™ mRNA Purification Kit는 평균 15분 내에 신속하게 mRNA transcriptome을 분리하여 순수하고 완전한 mRNA를 제공합니다. 이 kit는 총 RNA 준비에서 mRNA 분자를 특별히 표적, 획득, 정제하도록 만들어졌습니다.
• 대부분 15분 내 순수한 mRNA를 얻습니다.
• transcriptome를 효율적으로 회수, 농축합니다.
• 거의 모든 downstream 어플리케이션에 적합한 mRNA를 준비합니다.

순수한 신속한 mRNA 분리
Dynabeads™ mRNA Purification Kit에는 총 eukaryotic RNA 준비에서 mRNA transcriptome를 분리하기 위한 magnetic bead가 들어있습니다(그림 1). Dynabeads™ magnetic bead는 크기가 균일하고 용액에서 이동성이 높습니다(그림 2). 이로 bead 획득 표면을 mRNA 획득 단계 중 신속하고 계속적으로 전체 총 RNA 샘플과 상호작용할 수 있게 합니다. Ribosomal RNA와 작은 RNA 분자(transfer RNA, microRNA, 작은 nucleolar RNA, 작은 cytoplasmic RNA)는 bead에 결합하지 않고 폐기됩니다. Polyadenylated RNA 종(mRNA)만 획득되어 확실하고 최상의 결과를 가져옵니다(그림 3). 약 15분 내에 순수한 mRNA가 분리되어 downstream 어플리케이션에 이용할 수 있습니다.

직접적인 Enrichment 절차
Dynabeads™ mRNA Purification Kit는 강력한 친화성 정제 원리를 사용하여 polyadenylated mRNA를 농축합니다. oligo-(dT)₂₅에 결합된 Superparamagnetic Dynabeads™는 먼저 결합 buffer와 평형을 이룬 후 정제된 총 RNA와 혼합됩니다. 그리고 bead를 세척하여 오염 RNA 종을 제거한 후 mRNA가 10 mM Tris-HCl의 5 μl으로 용출됩니다. 전체 절차는 buffer 변화 중 신속하고 효율적인 magnetic bead 고정을 가능하게 하는 neodymium magnet (별매)로 촉진됩니다.

RNA는 다음과 같은 모든 downstream 분자 어플리케이션에 적합합니다.
• 유전자 클로닝
• cDNA 합성, cDNA 라이브러리 수립
• RT-PCR, 정량 RT-PCR
• RPA (Ribonuclease Protection Assay)
• Subtractive Hybridization
• Dot/slot Hybridization
• primer 확장

연구용으로만 사용가능합니다. 사람이나 동물의 치료 또는 진단용으로 사용할 수 없습니다.

For Research Use Only. Not for use in diagnostic procedures.

용리량5 to 20 μL

최종 제품 유형mRNA

용도(애플리케이션)RT-PCR, qPCR, cDNA library construction, microarray analysis

그린 기능Beads may be reused for multiple extractions

정제 시간10 min.

수량2 mL

배송 조건Room Temperature

시작 물질 양≤100 μL

수율2 μg mRNA per 200 μL of beads (Binding capacity)

Isolation TechnologyMagnetic Bead

샘플 종류Total RNA

Unit SizeEach

구성 및 보관

• 2 mL Dynabeads Oligo (dT)₂₅; 4°C
• 5 mL Binding Buffer; 4°C
• 5 mL Washing Buffer B; 4°C
• 5 mL 10 mM Tris-HCl; 4°C

자주 묻는 질문(FAQ)

I am getting DNA contamination after mRNA isolation using Dynabeads magnetic beads. Why is this?

There are several reasons why DNA contamination may occur:

- Incomplete DNA shearing.
- Incomplete removal of sample lysate after the hybridization step.
- Insufficient washing and/or removal of wash buffers.
- The ratio of sample to beads was too high.

Could you suggest references for cDNA libraries and RT-PCR using Dynabeads magnetic beads?

These are some references on cDNA libraries and RT-PCR:

Jakobsen KS, Haugen M, Sæbøe-Larssen S, Hollung K, Espelund M, Hornes E. Direct mRNA isolation using Magnetic Oligo (dT) Beads: A protocol for all types of cell cultures, animal and plant tissues. In Advances in Biomagnetic Separation, Ed Uhlén, M., Hornes, E., Olsvik Ø., Eaton Publishing. 1994:61-72

Raineri I, Moroni C, Senn HP. Improved efficiency for single-sided PCR by creating a reusable pool of first-strand cDNA coupled to a solid phase. Nucleic Acids Research 1991;19:4010

Raineri I, Senn HP. HIV-1 promotor insertion revealed by selective detection of chimeric provirus-host gene transcripts. Nucleic Acids Res. 1992;20:6261-6266

Sharma P, Lönneborg A, Stougaard P. PCR-based construction of subtractive cDNA library using magnetic beads. BioTechniques 1993;15:610-611

Lee Y-H, Vacquier VD. Reusable cDNA libraries coupled to magnetic beads. Anal. Biochem. 1992;206:206-207

Lambert KN, Williamson VM. cDNA library construction from small amounts of RNA using paramagnetic beads and PCR. Nucleic Acids Research 1993;21:775-776

Aasheim H-C, Deggerdal A, Smeland EB, Hornes E. A simple subtraction method for the isolation of cell- specific genes using magnetic monodisperse polymer particles. BioTechniques 1994;16:716-721

Coche T, Dewez M, Beckers M-C. Generation of an unlimited supply of a subtracted probe using magnetic beads and PCR. Nucleic Acid Research 1994;22:1322-1323

Rodriguez IR, Chader GJ. A novel method for the isolation of tissue-specific genes. Nucleic Acids Research 1992;20:3528

Schraml P, Shipman R, Stulz P, Ludwig CU. cDNA subtraction library construction using a magnet-assisted subtraction technique (MAST). Trends in Genetics 1993;3:70-71

Wada H, Asada M, Miyazaki M, Ilda S, Mizutani S. Application of oligo (dT) Dynabeads for the molecular diagnosis of human leukemia. The John Uglestad Conference I: Magnetic separation techniques applied to cellular and molecular biology, 1991

Larsen F, Solheim J, Kristensen T, Kolstø AB, Prydz H. A tight cluster of five unrelated human genes on chromosome 16q22.1. Human Molecular Genetics 1993;2:1589-1595

After isolation of mRNA using Dynabeads Oligo(dT)25 and before doing reverse transcription, should I incubate the beads with bound mRNA attached to the primer, at 65 degrees C for 5 min as suggested in my reverse transcription protocol or should I just move on to cDNA synthesis (with incubation at 50 degrees C and then 65 degrees C?

The purpose of this step (heating at 65 degrees C for 5 min) is to open up secondary structures in the RNA. If you want to use the Oligo(dT)25 on the beads as primers for your cDNA synthesis and generate solid-phase cDNA, you should omit this step. Start with 50 degrees C (otherwise the mRNA will fall off the beads), then proceed to the 65 degrees C step.

Is it possible to generate a full-length cDNA from mRNA attached to Dynabeads magnetic beads, and what reverse transcription kit do you recommend?

It is possible to generate full-length cDNA from mRNA attached to Dynabeads magnetic beads. We recommend a thermostable reverse transcription kit, so that difficult regions with GC-rich secondary structures are accommodated. However, it is not possible to start the reaction by heating the mRNA on the beads because that will elute the mRNA (A:T base pairs are the least thermostable).

We have used ThermoScript reverse transcriptase, inhouse, with Oligo(dT)25 on the beads as primers. The cDNA synthesis was performed according to the manufacturer's instructions. When using a thermostable reverse transcriptase and the Oligo(dT)25 as primer for first-strand cDNA synthesis, an initial step of incubation at 50 degrees C for 5 min is necessary before proceeding at the recommended elevated temperature. This is to start the cDNA synthesis beyond the A:T hybridization point so that the mRNA doesn't fall off the beads. The resulting cDNA is covalently attached to the bead surface, and the beads with the attached cDNA can be used as template in multiple hybridization reactions.

Why are LiCl and LiDS included in Dynabeads buffers?

Lithium chloride is included in Washing Buffer A to ensure that the mRNA remains annealed to the Oligo(dT)25 on the beads while everything else is washed away. The major advantage of using LiCl instead of other chloride salts is that LiCl does not efficiently precipitate DNA, proteins, or carbohydrates and therefore reduces the risk of contamination of the final mRNA preparation with DNA and inhibitors of cDNA synthesis, PCR etc.

LiDS is an ionic detergent, similar in function to SDS. LiDS is included in the lysis buffer is to aid in the lysis of the cells and to denature proteins, and in addition it is an effective RNase inhibitor. If you don't have LiDS in the lab, it is also possible to use SDS, but you may wish to add RNAse inhibitor as well.

View all Dynabeads™ mRNA Purification Kit (for mRNA purification from total RNA preps). FAQs

인용 및 참조 문헌 (5)

인용 및 참조 문헌

Abstract

Identification of a novel glucose transporter-like protein-GLUT-12.

Authors:Rogers S, Macheda ML, Docherty SE, Carty MD, Henderson MA, Soeller WC, Gibbs EM, James DE, Best JD

Journal:Am J Physiol Endocrinol Metab

PubMed ID:11832379

'Facilitative glucose transporters exhibit variable hexose affinity and tissue-specific expression. These characteristics contribute to specialized metabolic properties of cells. Here we describe the characterization of a novel glucose transporter-like molecule, GLUT-12. GLUT-12 was identified in MCF-7 breast cancer cells by homology to the insulin-regulatable glucose transporter GLUT-4. The GLUT-12 cDNA ... More

Transcriptome analysis by strand-specific sequencing of complementary DNA.

Authors:Parkhomchuk D, Borodina T, Amstislavskiy V, Banaru M, Hallen L, Krobitsch S, Lehrach H, Soldatov A

Journal:Nucleic Acids Res

PubMed ID:19620212

High-throughput complementary DNA sequencing (RNA-Seq) is a powerful tool for whole-transcriptome analysis, supplying information about a transcript's expression level and structure. However, it is difficult to determine the polarity of transcripts, and therefore identify which strand is transcribed. Here, we present a simple cDNA sequencing protocol that preserves information about ... More

Transcriptome sequencing to detect gene fusions in cancer.

Authors:Maher CA, Kumar-Sinha C, Cao X, Kalyana-Sundaram S, Han B, Jing X, Sam L, Barrette T, Palanisamy N, Chinnaiyan AM

Journal:Nature

PubMed ID:19136943

Recurrent gene fusions, typically associated with haematological malignancies and rare bone and soft-tissue tumours, have recently been described in common solid tumours. Here we use an integrative analysis of high-throughput long- and short-read transcriptome sequencing of cancer cells to discover novel gene fusions. As a proof of concept, we successfully ... More

Widespread occurrence of antisense transcription in the human genome.

Authors:Yelin R, Dahary D, Sorek R, Levanon EY, Goldstein O, Shoshan A, Diber A, Biton S, Tamir Y, Khosravi R, Nemzer S, Pinner E, Walach S, Bernstein J, Savitsky K, Rotman G

Journal:Nat Biotechnol

PubMed ID:12640466

An increasing number of eukaryotic genes are being found to have naturally occurring antisense transcripts. Here we study the extent of antisense transcription in the human genome by analyzing the public databases of expressed sequences using a set of computational tools designed to identify sense-antisense transcriptional units on opposite DNA ... More

Phylogenomic analyses of lophophorates (brachiopods, phoronids and bryozoans) confirm the Lophotrochozoa concept.

Authors:Helmkampf M, Bruchhaus I, Hausdorf B

Journal:Proc Biol Sci

PubMed ID:18495619

Based on embryological and morphological evidence, Lophophorata was long considered to be the sister or paraphyletic stem group of Deuterostomia. By contrast, molecular data have consistently indicated that the three lophophorate lineages, Ectoprocta, Brachiopoda and Phoronida, are more closely related to trochozoans (annelids, molluscs and related groups) than to deuterostomes. ... More