SYPRO™ Protein Gel Stains

Citations & References (112)

Invitrogen™

SYPRO™ Protein Gel Stains

Name: SYPRO™ Protein Gel Stains
SKU: S6650

SYPRO Rubyタンパク質ゲル染色剤は、高感度ですぐに使用可能な蛍光染色剤で、ポリアクリルアミドゲル電気泳動（PAGE）によって分離されたタンパク質を検出に使用します。1Dおよび2D PAGEでの使用に最適です。SYPRO Rubyゲル染色剤の感度は詳細を見る

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製品番号（カタログ番号）	色	数量
S6650	Orange	500 μL
S6651	Orange	10x50 μL
S12010	Tangerine	500 μL
S6653	Red	500 μL
S6654 または、製品番号S-6654	Red	10x50 μL
S12001	Ruby	200 mL
S12000	Ruby	1 L
S21900	Ruby	5 L

8 オプション

製品番号（カタログ番号） S6650

価格（JPY）

66,800

Each

お問い合わせください ›

色:

Orange

数量:

500 μL

一括またはカスタム形式をリクエストする

SYPRO Rubyタンパク質ゲル染色剤は、高感度ですぐに使用可能な蛍光染色剤で、ポリアクリルアミドゲル電気泳動（PAGE）によって分離されたタンパク質を検出に使用します。1Dおよび2D PAGEでの使用に最適です。SYPRO Rubyゲル染色剤の感度は、最適な銀染色法と同等以上です。染色したタンパク質は、適切なフィルターまたはレーザーを含む標準的なUVまたは青色光トランスイルミネーターまたはイメージング装置で確認できます。

特長：
•シンプルな染色手順—脱色または時間的制約のあるステップは不要です
• 3桁にわたる線形定量範囲
• 質量分析およびマイクロシーケンシングに適合しています

すべての蛍光染色の比較 ›

研究用途にのみご使用ください。診断目的には使用できません。

仕様

濃度5,000X

検出位置ゲル内検出

検出法蛍光

励起／発光300、470/570 nm

製品ラインSYPRO

製品タイプタンパク質ゲル染色

数量500 μL

出荷条件室温

標的分子タンパク質

色Orange

標識または色素SYPRO オレンジ

Unit SizeEach

組成および保存条件

DMSOで5000X濃縮液として提供されます。室温で保存し、光から保護します。

よくあるご質問（FAQ）

If I increase the final concentration of my SYPRO Orange or SYPRO Red staining solution above 1X, can I increase the signal of my stained proteins?

No. Dye concentrations higher than 1X do not give better detection. Instead, background fluorescence increases and, as the dye concentration increases, the dye becomes self-quenching and the signal actually decreases.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

Can I dry my SYPRO Ruby, SYPRO Orange, or SYPRO Red stained gels?

Gels stained with SYPRO dyes can be dried between sheets of cellophane, although there is sometimes a slight decrease in sensitivity. If the gels are dried onto paper, the light will scatter and the sensitivity will decrease. Other plastics are not recommended, as the plastic typically used is not transparent to UV light.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

Can I use SYPRO Orange Protein Gel Stain with Invitrogen gels?

Yes, you may use SYPRO Orange Protein Gel Stain with Invitrogen gels but the protocol would have to be modified. The stain is mainly to be used with 0.05% SDS running buffer while all our buffers contain 0.1% SDS. This results in high background as the SDS binds tightly to the stain. The following protocol is recommended for best results with Invitrogen gels:

Wash solution: 7.5% (v/v) Acetic acid
Staining solution: 1:5000 SYPRO Orange in Wash solution

After the gel run is over, wash the gel in 100 ml of Wash solution for 10 minutes.
Place gel in Staining solution for up to 24 h in the dark.
Remove the gel from the Staining solution and rinse briefly in 100 ml Wash solution.
The gel is then ready to be photographed.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

Can I pre-stain proteins with SYPRO Ruby, SYPRO Orange or SYPRO Red Protein Gel Stains and then run them through a gel?

No. Loading solutions contain so much SDS that SYPRO Ruby, SYPRO Orange and SYPRO Red dyes simply localize in the free SDS and bind very little of the proteins. Proteins can be covalently pre-labeled with ATTO-TAG CBQCA (Cat. No. A2333), DDAO succinimidyl ester (Cat. No. C34553) or TAMRA-succinimidyl ester (Cat. No. C2211) dyes, or the TC-FLAsH Expression Analysis Detection Kits (Cat. No. A10067 for orange fluorescence, Cat. No. A10068 for red fluorescence) prior to electrophoresis without affecting protein migration through the gel.

SYPRO Orange or SYPRO Red Protein Gel Stain can be diluted 5000-fold into the cathode (upper) buffer tank to stain proteins during electrophoresis without affecting migration. The problem with doing this is that there is considerable background fluorescence in the gels from the dye interacting with SDS. This can be reduced after electrophoresis by destaining in 7.5% acetic acid for 15-60 minutes. This method also results in poorer protein sensitivity than the standard post-staining method, requires the same amount of time before the gel can be imaged, and contaminates the electrophoresis apparatus.

Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.

引用および参考文献 (112)

引用および参考文献

Abstract

LXXLL-related motifs in Dax-1 have target specificity for the orphan nuclear receptors Ad4BP/SF-1 and LRH-1.

Authors:Suzuki T, Kasahara M, Yoshioka H, Morohashi K, Umesono K

Journal:Mol Cell Biol

PubMed ID:12482977

The orphan receptor Ad4BP/SF-1 (NR5A1) is a constitutive activator, and its activity is repressed by another orphan receptor, Dax-1 (NR0B1). In the present study, we investigated the molecular mechanisms underlying this repression by Dax-1. Yeast two-hybrid and transient-transfection assays confirmed the necessity of three LXXLL-related motifs in Dax-1 for interaction ... More

Translational regulation of prostaglandin endoperoxide H synthase-1 mRNA in megakaryocytic MEG-01 cells. Specific protein binding to a conserved 20-nucleotide CIS element in the 3'-untranslated region.

Authors:Duquette M, Laneuville O

Journal:J Biol Chem

PubMed ID:12237309

Prostaglandin endoperoxide H synthase-1 (PGHS-1) is an abundant enzyme in platelets, where it plays a key role in the cascade of prostanoid formation. In platelets, the primary site of PGHS-1 synthesis is in precursor megakaryocytic cells. We have previously shown that in megakaryocytic MEG-01 cells, TPA induces an increase of ... More

Type I collagen is thermally unstable at body temperature.

Authors:Leikina E, Mertts MV, Kuznetsova N, Leikin S

Journal:Proc Natl Acad Sci U S A

PubMed ID:11805290

Molecular characterization of Saccharomyces cerevisiae TFIID.

Authors:Sanders SL, Garbett KA, Weil PA

Journal:Mol Cell Biol

PubMed ID:12138208

'We previously defined Saccharomyces cerevisiae TFIID as a 15-subunit complex comprised of the TATA binding protein (TBP) and 14 distinct TBP-associated factors (TAFs). In this report we give a detailed biochemical characterization of this general transcription factor. We have shown that yeast TFIID efficiently mediates both basal and activator-dependent transcription ... More

Mechanism of calcium-independent synaptotagmin binding to target SNAREs.

Authors:Rickman C, Davletov B

Journal:J Biol Chem

PubMed ID:12496268

'Synaptic vesicle exocytosis requires three SNARE (soluble N-ethylmaleimide-sensitive-factor attachment protein receptor) proteins: syntaxin and SNAP-25 on the plasma membrane (t-SNAREs) and synaptobrevin/VAMP on the synaptic vesicles (v-SNARE). Vesicular synaptotagmin 1 is essential for fast synchronous SNARE-mediated exocytosis and interacts with the SNAREs in brain material. To uncover the step at ... More

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