pcDNA™3.1/Hygro(+) Mammalian Expression Vector
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Citations & References (10)
Invitrogen™

pcDNA™3.1/Hygro(+) Mammalian Expression Vector

このpcDNA™3.1/Hygro(+)ベクターは、さまざまな哺乳類細胞株における高レベルでの構成的発現のために設計されています。ハイグロマイシン選択可能マーカーおよび逆方向の複数のクローニング部位を含みます。pcDNA™3.1発現ベクターファミリーpcDNA™3.1の3つのタグなしバージョン(個別に使用可能)には、それぞれに異なる選択可能マーカー(Geneticin™、ゼオシン™、またはHygromycin詳細を見る
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製品番号(カタログ番号)数量
V8702020 μg
製品番号(カタログ番号) V87020
価格(JPY)
67,500
Online offer
Ends: 27-Mar-2026
112,600
割引額 45,100 (40%)
20 µg
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数量:
20 μg
このpcDNA™3.1/Hygro(+)ベクターは、さまざまな哺乳類細胞株における高レベルでの構成的発現のために設計されています。ハイグロマイシン選択可能マーカーおよび逆方向の複数のクローニング部位を含みます。

pcDNA™3.1発現ベクターファミリー
pcDNA™3.1の3つのタグなしバージョン(個別に使用可能)には、それぞれに異なる選択可能マーカー(Geneticin™、ゼオシン™、またはHygromycin)があり、単独で使用することも、相互コトランスフェクションで使用することもできます。3つのベクターは以下の特長を備えています:
•高レベル発現用のサイトメガロウイルス(CMV)エンハンサープロモーター
• フォワード(+)方向の大規模な複数のクローニング部位
• ウシ成長ホルモン(BGH)ポリアデニル化シグナルおよびmRNA安定性向上のための転写終了配列
• ラージT抗原(COS-1やCOS-7など)を発現する細胞株内でのエピソーム複製および単純なベクターレスキュー用のSV40起源
• アンピシリン耐性遺伝子および大腸菌の選択および維持のためのpUC起源
研究用にのみ使用できます。診断用には使用いただけません。
仕様
構成または誘導システム構造的
供給タイプTransfection
使用対象(アプリケーション)構成的発現
製品タイプ哺乳類発現用ベクター
数量20 μg
選択剤(真核生物)ハイグロマイシン
ベクターpcDNA
クローニング法制限酵素/MCS
製品ラインpcDNA
プロモーターCMV
タンパク質タグタグなし
Unit Size20 µg
組成および保存条件
20 µgのこのpcDNA™3.1/Hygro(+)ベクターと発現コントロールが、超らせん型で凍結乾燥された状態で提供されます。-20℃で保存ベクターは、適切に保存されている場合、6カ月間安定していることが保証されます。

よくあるご質問(FAQ)

I performed stable selection but my antibiotic-resistant clones do not express my gene of interest. What could have gone wrong?

Here are possible causes and solutions:

Detection method may not be appropriate or sensitive enough:
- We recommend optimizing the detection protocol or finding more sensitive methods. If the protein is being detected by Coomassie/silver staining, we recommend doing a western blot for increased sensitivity. The presence of endogenous proteins in the lysate may obscure the protein of interest in a Coomassie/silver stain. If available, we recommend using a positive control for the western blot.
- Insufficient number of clones screened: Screen at least 20 clones.
- Inappropriate antibiotic concentration used for stable selection: Make sure the antibiotic kill curve was performed correctly. Since the potency of a given antibiotic depends upon cell type, serum, medium, and culture technique, the dose must be determined each time a stable selection is performed. Even the stable cell lines we offer may be more or less sensitive to the dose we recommend if the medium or serum is significantly different.
- Expression of gene product (even low level) may not be compatible with growth of the cell line: Use an inducible expression system.
- Negative clones may result from preferential linearization at a vector site critical for expression of the gene of interest: Linearize the vector at a site that is not critical for expression, such as within the bacterial resistance marker.

I used a mammalian expression vector but do not get any expression of my protein. Can you help me troubleshoot?

Here are possible causes and solutions:

- Try the control expression that is included in the kit
Possible detection problem:

- Detection of expressed protein may not be possible in a transient transfection, since the transfection efficiency may be too low for detection by methods that assess the entire transfected population. We recommend optimizing the transfection efficiency, doing stable selection, or using methods that permit examination of individual cells. You can also increase the level of expression by changing the promoter or cell type.
- Expression within the cell may be too low for the chosen detection method. We recommend optimizing the detection protocol or finding more sensitive methods. If the protein is being detected by Coomassie/silver staining, we recommend doing a western blot for increased sensitivity. The presence of endogenous proteins in the lysate may obscure the protein of interest in a Coomassie/silver stain. If available, we recommend using a positive control for the western blot. Protein might be degraded or truncated: Check on a Northern. Possible time-course issue: Since the expression of a protein over time will depend upon the nature of the protein, we always recommend doing a time course for expression. A pilot time-course assay will help to determine the optimal window for expression. Possible cloning issues: Verify clones by restriction digestion and/or sequencing.

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

I am using a mammalian expression vector that has the neomycin resistance gene. Can I use neomycin for stable selection in mammalian cells?

No; neomycin is toxic to mammalian cells. We recommend using Geneticin (a.k.a. G418 Sulfate), as it is a less toxic and very effective alternative for selection in mammalian cells.

Is it okay if my construct has an ATG that is upstream of the ATG in my gene of interest? Will it interfere with translation of my gene?

Translation initiation will occur at the first ATG encountered by the ribosome, although in the absence of a Kozak sequence, initiation will be relatively weak. Any insert downstream would express a fusion protein if it is in frame with this initial ATG, but levels of expressed protein are predicted to be low if there is a non-Kozak consensus sequence. If the vector contains a non-Kozak consensus ATG, we recommend that you clone your gene upstream of that ATG and include a Kozak sequence for optimal expression.

What is the difference between pcDNA3.1 vectors and the pcDNA3.3-TOPO vector?

pcDNA3.1 vectors contain the core CMV promoter that is truncated before the start of transcription, whereas the pcDNA 3.3-TOPO vector has the 672 bp native CMV promoter. This native CMV promoter allows high-level gene expression with two- to five-fold higher protein yields compared to other expression vectors. pcDNA3.1 vectors are available in restriction, TOPO, and Gateway cloning versions and as untagged and epitope-tagged versions, whereas the pcDNA3.3-TOPO vector is a TOPO TA-adapted, untagged vector that can be used to express native proteins without extraneous amino acids, and is hence ideal for antibody production and structural biology.

View all pcDNA™3.1/Hygro(+) Mammalian Expression Vector FAQs

引用および参考文献 (10)

引用および参考文献
Abstract
The Atrial Natriuretic Peptide Receptor (NPR-A/GC-A) Is Dephosphorylated by Distinct Microcystin-sensitive and Magnesium-dependent Protein Phosphatases.
Authors: Bryan Paula M; Potter Lincoln R;
Journal:J Biol Chem
PubMed ID:11821394
'Natriuretic peptide receptor (NPR)-A is the primary signaling receptor for atrial natriuretic peptide and brain natriuretic peptide. Ligand binding to NPR-A rapidly activates its guanylyl cyclase domain, but its rate of cGMP synthesis declines with time. This waning of activity is called homologous desensitization and is mediated in part by ... More
Hoxa 11 is upstream of Integrinalpha 8 expression in the developing kidney.
Authors: Valerius M Todd; Patterson Larry T; Feng Yuxin; Potter S Steven;
Journal:Proc Natl Acad Sci U S A
PubMed ID:12060755
'Mutation of the functionally redundant Hoxa 11/Hoxd 11 genes gives absent or rudimentary kidneys resulting from a dramatic reduction of the growth and branching of the ureteric bud. To understand better the molecular mechanisms of Hoxa 11/Hoxd 11 function in kidney development, it is necessary to identify the downstream target ... More
The p53-activated gene, PAG608, requires a zinc finger domain for nuclear localization and oxidative stress-induced apoptosis.
Authors: Higashi Youichirou; Asanuma Masato; Miyazaki Ikuko; Haque M Emdadul; Fujita Naoko; Tanaka Ken-Ichi; Ogawa Norio;
Journal:J Biol Chem
PubMed ID:12196512
'The p53-activated gene PAG608, which encodes a nuclear zinc finger protein, is a p53-inducible gene that contributes to p53-mediated apoptosis. However, the mechanisms by which PAG608 is involved in the apoptosis of neuronal cells are still obscure. In this study, we demonstrated that expression of p53 was induced by 100 ... More
TRAIL receptors 1 (DR4) and 2 (DR5) signal FADD-dependent apoptosis and activate NF-kappaB.
Authors:Schneider P, Thome M, Burns K, Bodmer JL, Hofmann K, Kataoka T, Holler N, Tschopp J
Journal:Immunity
PubMed ID:9430228
TRAIL induces apoptosis through two closely related receptors, TRAIL-R1 (DR4) and TRAIL-R2 (DR5). Here we show that TRAIL-R1 can associate with TRAIL-R2, suggesting that TRAIL may signal through heteroreceptor signaling complexes. Both TRAIL receptors bind the adaptor molecules FADD and TRADD, and both death signals are interrupted by a dominant ... More
Functional characterization of ProSAAS: similarities and differences with 7B2.
Authors: Fortenberry Yolanda; Hwang Jae-Ryoung; Apletalina Ekaterina V; Lindberg Iris;
Journal:J Biol Chem
PubMed ID:11719503
Prohormone convertases (PC) 1 and 2, enzymes found primarily in neuroendocrine tissues, are thought to mediate the proteolytic cleavage of many peptide precursors. To date, endogenous binding proteins for both PC2 (7B2) and PC1 (proSAAS) have been identified. Although 7B2 represents a potent inhibitor of PC2, the most important function ... More
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