pcDNA™3.1/V5-His TOPO™ TA Expression Kit

Citas y referencias (2)

Invitrogen™

pcDNA™3.1/V5-His TOPO™ TA Expression Kit

Name: pcDNA™3.1/V5-His TOPO™ TA Expression Kit
SKU: K480040

El kit de expresión pcDNA™3.1/V5-His TOPO™ TA ofrece la clonación en un solo paso de productos de PCR amplificados porMás información

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Número de catálogo	Vector	Cantidad
K480040	Vectores TOPO-TA, pcDNA	40 reacciones
K480001	Vectores TOPO-TA, pcDNA	20 reacciones

2 opciones

Número de catálogo K480040

Precio (MXN)

Vector:

Vectores TOPO-TA, pcDNA

Cantidad:

40 reacciones

El kit de expresión pcDNA™3.1/V5-His TOPO™ TA ofrece la clonación en un solo paso de productos de PCR amplificados por Taq en un vector de expresión de alto nivel. La activación de la topoisomerasa del vector pcDNA3.1/V5-His-TOPO™ permite ligar los productos de PCR en solo 5 minutos en la mesa de trabajo y da como resultado recombinantes del 90 %.

Además, el vector incluye las siguientes características:

• Promotor de citomegalovirus (CMV) fuerte para una expresión constitutiva de alto nivel.
• Etiqueta del epítopo C-terminal V5 para una detección eficaz de las proteínas recombinantes con un anticuerpo anti-V5.
• Secuencia de polihistidina de terminal C (6xHis) para purificación con resina quelante de níquel y detección con un anticuerpo anti-His (terminal C).

Para uso exclusivo en investigación. No apto para uso en procedimientos diagnósticos.

Especificaciones

Sistema constitutivo o inducibleConstitutivo

Tipo de entregaTransfección

Para utilizar con (aplicación)Expresión constitutiva

Tipo de productoKit de expresión TOPO TA

Cantidad40 reacciones

Agente de selección (eucariótico)Geneticin™ (G-418)

VectorVectores TOPO-TA, pcDNA

Método de clonaciónTOPO-TA

Línea de productosTOPO, pcDNA

PromotorCMV

Etiqueta de proteínaEtiqueta His (6x), Etiqueta de epítopo V5

Unit SizeEach

Contenido y almacenamiento

2 x Caja 1 (conservar a -20°C)
• 20 μl de pcDNA™3.1/V5-His-TOPO™ (10 ng/μl)
• 100μl de tampón 10X para PCR
• 10μl de mezcla dNTP (50 mM)
• 50μl de solución salina
• 1 ml de agua estéril
• 10μl de muestra de control para PCR (50 ng/μl)
• 10μl de cebadores de control para PCR (100 ng/μl cada uno)
• 20 μl de cebador de secuenciación T7 (100 ng/μl)
• 20μl de Cebador de secuenciación inversa BGH (100 ng/μl)
• 10 μl de plásmido de control de expresión (500 ng/μl)

2 x Caja 2 (conservar a -80°C)
• 21 x 50 μl células TOP10 de E. coli cells
• 50 μl de ADN de control pUC19 (10 pg/μl)
• 6 ml de S.O.C. Medio

Preguntas frecuentes

Can I store my competent E. coli in liquid nitrogen?

We do not recommend storing competent E. coli strains in liquid nitrogen as the extreme temperature can be harmful to the cells. Also, the plastic storage vials are not intended to withstand the extreme temperature and may crack or break.

How should I store my competent E. coli?

We recommend storing our competent E. coli strains at -80°C. Storage at warmer temperatures, even for a brief period of time, will significantly decrease transformation efficiency.

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.

View all pcDNA™3.1/V5-His TOPO™ TA Expression Kit, 40 Reactions FAQs

Citations & References (2)

Citations & References

Abstract

Livin, a novel inhibitor of apoptosis protein family member.

Authors: Kasof G M; Gomes B C;

Journal:J Biol Chem

PubMed ID:11024045

'A novel human inhibitor of apoptosis protein (IAP) family member termed Livin was identified, containing a single baculoviral IAP repeat (BIR) domain and a COOH-terminal RING finger domain. The mRNA for livin was not detectable by Northern blot in most normal adult tissues with the exception of the placenta, but ... More

Endogenous 24(S),25-epoxycholesterol fine-tunes acute control of cellular cholesterol homeostasis.

Authors:Wong J, Quinn CM, Gelissen IC, Brown AJ,

Journal:J Biol Chem

PubMed ID:17981807

Certain oxysterols, when added to cultured cells, are potent regulators of cholesterol homeostasis, decreasing cholesterol synthesis and uptake and increasing cholesterol efflux. However, very little is known about whether or not endogenous oxysterol(s) plays a significant role in cholesterol homeostasis. 24(S),25-Epoxycholesterol (24,25EC) is unique among oxysterols in that it is ... More