ARES™ Alexa Fluor™ 647 DNA Labeling Kit

인용 및 참조 문헌 (9)

Invitrogen™

ARES™ Alexa Fluor™ 647 DNA Labeling Kit

ARES™ Alexa Fluor™ DNA Labeling Kit는 본사의 Alexa Fluor™ dye로 DNA를 표지하는 활용도 높은 2단계 방법을 제공합니다. 첫 번째 단계에서자세히 알아보기

카탈로그 번호	수량
A21676	1 kit

카탈로그 번호 A21676

제품 가격(KRW)

760,000

Online offer

Ends: 31-Mar-2026

894,000

할인액 134,000 (15%)

카트에 추가하기

1 kit

제품 가격(KRW)

760,000

Online offer

Ends: 31-Mar-2026

894,000

할인액 134,000 (15%)

카트에 추가하기

ARES™ Alexa Fluor™ DNA Labeling Kit는 본사의 Alexa Fluor™ dye로 DNA를 표지하는 활용도 높은 2단계 방법을 제공합니다. 첫 번째 단계에서 기존 효소 표지법을 사용해 amine-modified nucleotide를 DNA에 접합시킵니다. 두 번째 단계에서 본사의 독점적인 아민 반응성 Alexa Fluor™ 647 dye를 사용해 이 amine-modified DNA가 화학적으로 표지됩니다. 표지된 이 probe는 형광 제자리 부합법(FISH) 및 microarray 기법에 사용할 수 있습니다. 본사는 5가지 색상의 ARES™ Alexa Fluor™ DNA Labeling Kit를 제공하며 각 kit에는 1 ∼ 5 μg DNA의 표지 반응 5∼10회에 충분한 reagent가 들어있습니다.

ARES™ Alexa Fluor™ Labeling Kit 사양:
• Dye (Ex/Em):Alexa Fluor™ 647 (650/670 nm)
• 표지된 뉴클레오티드 효소 접합법보다 균일하고 일관적인 표지
• 일반적으로 12–20 염기 당 1 dye 생성
• FISH 및 마이크로어레이에 최적

ARES™ Labeling Kits로 보다 균일한 표지 가능
ARES™ Alexa Fluor™ Labeling Kit는 2단계 표지 기법을 이용합니다.—Amine-modified nucleotide의 효소 접합(aminoallyl dUTP) 후 Alexa Fluor™ dye를 사용한 화학적 표지. 이 방법으로 표지 뉴클레오티드의 기존 효소 접합에서 어려웠던 균일성과 일관성이 달성됩니다.
자사는 FISH Tag™ DNA and FISH Tag™ RNA Kit에도 이 2단계 표지 기술을 제공합니다. 이 kit는 probe 합성, 표지, 정제에 필요한 모든 reagent, 형광 현미경분석 중 신호를 보호하는 광퇴색 방지 reagent 등을 비롯해 FISH 어플리케이션에 완전한 워크플로우 솔루션을 제공합니다.

핵산 표지의 추가 옵션
다양한 핵산 표지 옵션(DNA 및 RNA FISH 등)을 살펴보려면 Molecular Probes™ Handbook에서 올리고뉴클레오티드 및 핵산 표지—8.2항을 참조하시고 핵산 증폭 & 발현 프로파일링을 읽어보십시오.

연구용으로만 사용할 수 있습니다. 사람이나 동물의 치료 또는 진단 목적으로 사용할 수 없습니다.

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

라벨 또는 염료 포함Yes

라벨링 방법Indirect Labeling

제품라인ARES, Alexa Fluor

제품 유형DNA Labeling Kit

수량1 kit

배송 조건Room Temperature

검출 방법Fluorescence

최종 제품 유형Probes (Labeled DNA), cDNA (Labeled)

형식Kit

Labeling TargetDNA (General), cDNA

라벨 또는 염료Alexa Fluor 647

Unit SizeEach

구성 및 보관

Store in freezer (-5 to -30°C) and protect from light.

자주 묻는 질문(FAQ)

My purified RNA comes from multiple sources, but I am getting variable efficiency of labeling with the same ARES kit. What can cause this?

Different preparations of RNA will certainly give different results. Most of the time, the mRNA is significantly degraded. The enzymatic incorporation of aminoallyl-dUTP (AA-dUTP) should not differ from reaction to reaction. If there are differences, it has to be due to the RNA or the method. AA-dUTP incorporation is no different than that of a dye-nucleotide conjugate, and should be more efficient and uniform. Here are a couple of suggestions:

1) cDNA may have been lost prior to labeling. Add 1 µL of glycogen (molecular biology grade), containing 10-20 µg, to the cDNA before precipitating it with ethanol.

2) Make sure to add sodium acetate as the salt and not ammonium acetate. After pelleting the cDNA, resuspend it in 5 µL water.

3) If generating long cDNAs, it will help to heat-denature the sample. Heat it at 95°C for 5 minutes and then put it on ice for a few minutes. Then centrifuge it for a few minutes just prior to the labeling reaction.

4) You want the tube to be at room temperature for the labeling reaction. Add the 3 µL of buffer and mix it in. Then add the dye and vortex it vigorously for at least 15 seconds.

Could you make an ARES Alexa Fluor 633 DNA Labeling Kit? This would be a good fit with my 633 nm laser.

Unfortunately, Alexa Fluor 633 does not label nucleic acids well because of the dye's chemical structure. Furthermore, DNA probes labeled with Alexa Fluor 633 do not form stable hybrids in nucleic acid hybridization assays.

How stable is the ARES-labeled DNA to high temperature?

An ARES-labeled oligonucleotide should survive at 95°C for 5 minutes.

Can probes labeled using the ARES Alexa Fluor DNA Labeling Kits be stored for later use?

Long-term storage for the ARES-labeled probes can be done in just about any kind of buffer, TE, formamide, hybridization buffer, or ethanol. We suggest using your normal storage conditions as long as you protect the probes from light. ARES conjugates are very stable.

How do the Alexa Fluor dyes used in the ARES Alexa Fluor DNA Labeling Kits compare to Cy dyes for fluorescence intensity at different labeling ratios?

At the same dye-to-base ratio, Alexa Fluor dyes exhibit higher intensity and reduced self-quenching at higher labeling ratios.

View all ARES™ Alexa Fluor™ 647 DNA Labeling Kit FAQs

인용 및 참조 문헌 (9)

인용 및 참조 문헌

Abstract

Induction of Id1 and Id3 by latent membrane protein 1 of Epstein-Barr virus and regulation of p27/Kip and cyclin-dependent kinase 2 in rodent fibroblast transformation.

Authors:Everly DN, Mainou BA, Raab-Traub N

Journal:J Virol

PubMed ID:15564458

Latent membrane protein 1 (LMP1), the Epstein-Barr virus oncoprotein, activates NF-kappaB, phosphatidylinositol 3-kinase, mitogen-activated protein kinase, and c-Jun N-terminal kinase signaling. To determine global transcriptional changes induced by LMP1 in epithelial cells, genomic analysis of C33A cells stably expressing LMP1 was performed. Relatively few genes were induced by LMP1. Expression ... More

Effects of rottlerin on silica-exacerbated systemic autoimmune disease in New Zealand mixed mice.

Authors:Brown JM, Schwanke CM, Pershouse MA, Pfau JC, Holian A,

Journal:Am J Physiol Lung Cell Mol Physiol

PubMed ID:16040631

'Environmental crystalline silica exposure has been associated with formation of autoantibodies and development of systemic autoimmune disease, but the mechanisms leading to these events are unknown. Silica exposure in autoimmune-prone New Zealand mixed (NZM) mice results in a significant exacerbation of systemic autoimmunity as measured by increases in autoantibodies and ... More

Development of microarray and multiplex polymerase chain reaction assays for identification of serovars and virulence genes in Salmonella enterica of human or animal origin.

Authors:Peterson G, Gerdes B, Berges J, Nagaraja TG, Frye JG, Boyle DS, Narayanan S,

Journal:J Vet Diagn Invest

PubMed ID:20622226

'Salmonella enterica is an important enteric pathogen consisting of many serovars that can cause severe clinical diseases in animals and humans. Rapid identification of Salmonella isolates is especially important for epidemiologic monitoring and controlling outbreaks of disease. Although immunologic and DNA-based serovar identification methods are available for rapid identification of ... More

Specific discrimination of three pathogenic Salmonella enterica subsp. enterica serotypes by carB-based oligonucleotide microarray.

Authors:Shin HH, Hwang BH, Seo JH, Cha HJ,

Journal:

PubMed ID:24185846

'It is important to rapidly and selectively detect and analyze pathogenic Salmonella enterica subsp. enterica in contaminated food to reduce the morbidity and mortality of Salmonella infection and to guarantee food safety. In the present work, we developed an oligonucleotide microarray containing duplicate specific capture probes based on the carB ... More

Multiplex detection of RNA expression in Drosophila embryos.

Authors:Kosman D, Mizutani CM, Lemons D, Cox WG, McGinnis W, Bier E

Journal:Science

PubMed ID:15297669

We present a fluorescence-based, multiplex in situ hybridization method that permits the simultaneous detection of five differently labeled antisense RNA probes and up to seven differ-ent transcripts in a single Drosophila embryo. We also show that it should be possible to increase the number of detected transcripts substantially with nascent ... More

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