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주요 문서

GE17-5113-01

Streptavidin Sepharose High Performance

Cytiva 17-5113-01, pack of 5 mL

동의어(들):

affinity chromatography medium, high performance affinity resin, biotinylated proteins purification

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About This Item

UNSPSC 코드:
41106500
NACRES:
NA.56

포장

pack of 5 mL

제조업체/상표

Cytiva 17-5113-01

저장 조건

(20% Ethanol)

Matrix

highly cross-linked 6% agarose

평균 부품 크기

34 μm

cleaning in place

2-10.5

작동 범위

4-9

용량

binding capacity(>300 nmol biotin/ml medium 6 mg biotinylated BSA/ml medium)

저장 온도

2-8°C

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일반 설명

Streptavidin Sepharose High Performance is an affinity chromatography medium designed for fast and reliable, high resolution purification of biotinylated biomolecules.

Purified Streptavidin isolated from Streptomyces avidinii is immobilised on Sepharose High Performance. The base matrix is a rigid, highly cross-linked beaded agarose with high chemical stability. The immobilised streptavidin binds biotin and biotinylated substances through affinity chromatography.

특징 및 장점

  • Streptavidin immobilized to Sepharose High Performance for purification of biotinylated compounds
  • Extremely useful for exploiting either the strong interactions of biotin and streptavidin or the somewhat weaker interactions of 2-iminobiotin and streptavidin.
  • 34 μm bead size for improved resolution

저장 및 안정성

Please be aware this product may be shipped 90 days before the expiration date. For more information on the batch specific expiration date, please contact technical service.

분석 메모

To view the Certificate of Analysis for this product, please visit www.cytiva.com.

법적 정보

Sepharose is a trademark of Cytiva

픽토그램

Flame
GHS02

신호어

Warning

유해 및 위험 성명서

H226

Storage Class Code

3 - Flammable liquids

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시험 성적서(COA)

Lot/Batch Number

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문서 라이브러리에서 최근에 구매한 제품에 대한 문서를 찾아보세요.

문서 라이브러리 방문

Jérôme Zervudacki et al.
The EMBO journal, 37(14) (2018-06-07)
Mobilization of transposable elements (TEs) in plants has been recognized as a driving force of evolution and adaptation, in particular by providing genes with regulatory modules that impact their transcription. In this study, we employed an ATCOPIA93 long-terminal repeat (LTR)
Song Zhu et al.
Theranostics, 11(7), 3359-3375 (2021-02-05)
Background: A metabolic "switch" from oxidative phosphorylation to glycolysis provides tumor cells with energy and biosynthetic substrates, thereby promoting tumorigenesis and malignant progression. However, the mechanisms controlling this metabolic switch in tumors is not entirely clear. Methods: Clinical specimens were
Adar Hacohen et al.
Micromachines, 11(5) (2020-05-21)
The ability to manipulate and selectively position cells into patterns or distinct microenvironments is an important component of many single cell experimental methods and biological engineering applications. Although a variety of particles and cell patterning methods have been demonstrated, most
Hana Antonicka et al.
Cell metabolism, 32(3), 479-497 (2020-09-03)
We used BioID, a proximity-dependent biotinylation assay with 100 mitochondrial baits from all mitochondrial sub-compartments, to create a high-resolution human mitochondrial proximity interaction network. We identified 1,465 proteins, producing 15,626 unique high-confidence proximity interactions. Of these, 528 proteins were previously
Sarah van Veen et al.
Nature, 578(7795), 419-424 (2020-01-31)
ATP13A2 (PARK9) is a late endolysosomal transporter that is genetically implicated in a spectrum of neurodegenerative disorders, including Kufor-Rakeb syndrome-a parkinsonism with dementia1-and early-onset Parkinson's disease2. ATP13A2 offers protection against genetic and environmental risk factors of Parkinson's disease, whereas loss

문서

Converting from Flow Velocity to Volumetric Flow Rates

This page shows how to convert between flow velocity and volumetric flow rate in affinity chromatography of antibodies.

Affinity Chromatography Troubleshooting

This page shows how to solve practical problems that may occur when running an affinity chromatography column.

프로토콜

Performing a Separation of Biotin and Biotinylated Substances with HiTrap Streptavidin HP and Streptavidin Sepharose High Performance

How to separate biotin and biotinylated substances by affinity chromatography using HiTrap Streptavidin HP and Streptavidin Sepharose High Performance products from Cytiva.

Purification or Removal of Biotin and Biotinylated Substances

This page shows how to purify or remove biotin and biotinylated substances with Streptavidin Sepharose High Performance from Cytiva.

Sample Preparation for Affinity Chromatography in Specific Groups of Biomolecules

Sample Preparation for Affinity Chromatography in Specific Groups of Biomolecules

Converting From Linear Flow (cm/hour) to Volumetric Flow Rates (mL/min) and Vice Versa

This page shows how to convert between linear flow and volumetric flow rates in affinity chromatography.

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