Hoja de datos

Descripción biológica

Especificidad	TRPC1 Antibody [J16G9] reconoce los niveles endógenos de la proteína TRPC1 total.
Antecedentes	Los TRP Channel son una gran familia de proteínas que se encuentran en todo el cuerpo. Estructuralmente, constan de cuatro subunidades, cada una con seis dominios transmembrana, que se asemejan a los canales dependientes de voltaje pero carecen de cargas positivas y suelen ser insensibles al voltaje. La familia TRP se clasifica en seis subfamilias, siendo las más notables las TRP canónicas (TRPC17), las TRP relacionadas con la melastatina (TRPM18) y las TRP relacionadas con el receptor vanilloide (TRPV16). Ciertos TRP Channel desempeñan un papel en la proliferación celular y la progresión del cáncer. TRPC1, en particular, se ha implicado en la mejora de la proliferación celular y la regulación de la migración celular, lo que contribuye a la agresividad del cáncer. Como canal catiónico no selectivo (PCa/PNa ∼ 1), TRPC1 participa en la entrada de calcio operada por el almacén (también conocida como entrada de calcio capacitativa) junto con Orai1, con activación mediada por STIM1, el sensor de los niveles de calcio del retículo endoplásmico. TRPC1 es esencial para la migración celular dirigida en respuesta a señales quimiotácticas. Los niveles altos de calcio extracelular ([Ca2+]o) estimulan el receptor sensor de calcio, lo que lleva a un aumento de la proliferación celular y la expresión de TRPC1. Además, TRPC1 facilita la fosforilación de ERK1/2 después de la activación del receptor sensor de calcio. La supresión de TRPC1 puede detener el crecimiento celular al detener el ciclo celular en la fase G0/G1 en las células progenitoras endoteliales o al causar una citocinesis incompleta en los gliomas. Además, TRPC1 está involucrado en la migración celular inducida por el factor de crecimiento epidérmico (EGF).

Especificidad

TRPC1 Antibody [J16G9] reconoce los niveles endógenos de la proteína TRPC1 total.

Antecedentes

Los TRP Channel son una gran familia de proteínas que se encuentran en todo el cuerpo. Estructuralmente, constan de cuatro subunidades, cada una con seis dominios transmembrana, que se asemejan a los canales dependientes de voltaje pero carecen de cargas positivas y suelen ser insensibles al voltaje. La familia TRP se clasifica en seis subfamilias, siendo las más notables las TRP canónicas (TRPC17), las TRP relacionadas con la melastatina (TRPM18) y las TRP relacionadas con el receptor vanilloide (TRPV16). Ciertos TRP Channel desempeñan un papel en la proliferación celular y la progresión del cáncer. TRPC1, en particular, se ha implicado en la mejora de la proliferación celular y la regulación de la migración celular, lo que contribuye a la agresividad del cáncer. Como canal catiónico no selectivo (PCa/PNa ∼ 1), TRPC1 participa en la entrada de calcio operada por el almacén (también conocida como entrada de calcio capacitativa) junto con Orai1, con activación mediada por STIM1, el sensor de los niveles de calcio del retículo endoplásmico. TRPC1 es esencial para la migración celular dirigida en respuesta a señales quimiotácticas. Los niveles altos de calcio extracelular ([Ca2+]o) estimulan el receptor sensor de calcio, lo que lleva a un aumento de la proliferación celular y la expresión de TRPC1. Además, TRPC1 facilita la fosforilación de ERK1/2 después de la activación del receptor sensor de calcio. La supresión de TRPC1 puede detener el crecimiento celular al detener el ciclo celular en la fase G0/G1 en las células progenitoras endoteliales o al causar una citocinesis incompleta en los gliomas. Además, TRPC1 está involucrado en la migración celular inducida por el factor de crecimiento epidérmico (EGF).

Información de uso

Aplicación

WB

Dilución

WB

1:1000-1:10000

Reactividad

Human, Mouse, Rat

Fuente

Rabbit Monoclonal Antibody

MW

91 kDa

Tampón de almacenamiento

PBS, pH 7.2+50% Glycerol+0.05% BSA+0.01% NaN₃

Almacenamiento
(Desde la fecha de recepción)

-20°C (avoid freeze-thaw cycles), 2 years

Métodos experimentales
WB	Experimental Protocol: Sample preparation 1. Tissue: Lyse the tissue sample by adding an appropriate volume of ice-cold RIPA/NP-40 Lysis Buffer (containing Protease Inhibitor Cocktail)，and homogenize the tissue at a low temperature or lyse it by sonication on ice, then incubate on ice for 30 minutes. 2. Adherent cell: Aspirate the culture medium and transfer the cells into an EP tube. Wash the cells with ice-cold PBS twice. Add an appropriate volume of RIPA/NP-40 Lysis Buffer (containing Protease Inhibitor Cocktail), sonicate to lyse the cells, and incubate on ice for 30 minutes. 3. Suspension cell: Transfer the culture medium to a pre-cooled centrifuge tube. Centrifuge and aspirate the supernatant. Wash the cells with ice-cold PBS twice.Add an appropriate volume of RIPA/NP-40 Lysis Buffer (containing Protease Inhibitor Cocktail), sonicate to lyse the cells, and incubate on ice for 30 minutes. 4. Place the lysate into a pre-cooled microcentrifuge tube. Centrifuge at 4°C for 15 min. Collect the supernatant; 5. Remove a small volume of lysate to determine the protein concentration; 6. Combine the lysate with protein loading buffer. Boil 20 µL sample under 95-100°C for 5 min. Centrifuge for 5 min after cool down on ice. Electrophoretic separation 1. According to the concentration of extracted protein, load appropriate amount of protein sample and marker onto SDS-PAGE gels for electrophoresis. Recommended separating gel (lower gel) concentration: 10%. Reference Table for Selecting SDS-PAGE Separation Gel Concentrations 2. Power up 80V for 30 minutes. Then the power supply is adjusted (110 V~150 V), the Marker is observed, and the electrophoresis can be stopped when the indicator band of the predyed protein Marker where the protein is located is properly separated. (Note that the current should not be too large when electrophoresis, too large current (more than 150 mA) will cause the temperature to rise, affecting the result of running glue. If high currents cannot be avoided, an ice bath can be used to cool the bath.) Transfer membrane 1. Take out the converter, soak the clip and consumables in the pre-cooled converter; 2. Activate PVDF membrane with methanol for 1 min and rinse with transfer buffer; 3. Install it in the order of "black edge of clip - sponge - filter paper - filter paper - glue -PVDF membrane - filter paper - filter paper - sponge - white edge of clip"; 4. The protein was electrotransferred to PVDF membrane. ( 0.45 µm PVDF membrane is recommended ) Reference Table for Selecting PVDF Membrane Pore Size Specifications Recommended conditions for wet transfer: 200 mA, 120 min. ( Note that the transfer conditions can be adjusted according to the protein size. For high-molecular-weight proteins, a higher current and longer transfer time are recommended. However, ensure that the transfer tank remains at a low temperature to prevent gel melting.) Block 1. After electrotransfer, wash the film with TBST at room temperature for 5 minutes; 2. Incubate the film in the blocking solution for 1 hour at room temperature; 3. Wash the film with TBST for 3 times, 5 minutes each time. Antibody incubation 1. Use 5% skim milk powder to prepare the primary antibody working liquid (recommended dilution ratio for primary antibody 1:1000), gently shake and incubate with the film at 4°C overnight; 2. Wash the film with TBST 3 times, 5 minutes each time; 3. Add the secondary antibody to the blocking solution and incubate with the film gently at room temperature for 1 hour; 4. After incubation, wash the film with TBST 3 times for 5 minutes each time. Antibody staining 1311. Add the prepared ECL luminescent substrate (or select other color developing substrate according to the second antibody) and mix evenly; 2. Incubate with the film for 1 minute, remove excess substrate (keep the film moist), wrap with plastic film, and expose in the imaging system.

Métodos experimentales

WB

Experimental Protocol:

Sample preparation

1. Tissue: Lyse the tissue sample by adding an appropriate volume of ice-cold RIPA/NP-40 Lysis Buffer (containing Protease Inhibitor Cocktail)，and homogenize the tissue at a low temperature or lyse it by sonication on ice, then incubate on ice for 30 minutes.

2. Adherent cell: Aspirate the culture medium and transfer the cells into an EP tube. Wash the cells with ice-cold PBS twice. Add an appropriate volume of RIPA/NP-40 Lysis Buffer (containing Protease Inhibitor Cocktail), sonicate to lyse the cells, and incubate on ice for 30 minutes.

3. Suspension cell: Transfer the culture medium to a pre-cooled centrifuge tube. Centrifuge and aspirate the supernatant. Wash the cells with ice-cold PBS twice.Add an appropriate volume of RIPA/NP-40 Lysis Buffer (containing Protease Inhibitor Cocktail), sonicate to lyse the cells, and incubate on ice for 30 minutes.

4. Place the lysate into a pre-cooled microcentrifuge tube. Centrifuge at 4°C for 15 min. Collect the supernatant;

5. Remove a small volume of lysate to determine the protein concentration;

6. Combine the lysate with protein loading buffer. Boil 20 µL sample under 95-100°C for 5 min. Centrifuge for 5 min after cool down on ice.

Electrophoretic separation

1. According to the concentration of extracted protein, load appropriate amount of protein sample and marker onto SDS-PAGE gels for electrophoresis. Recommended separating gel (lower gel) concentration: 10%. Reference Table for Selecting SDS-PAGE Separation Gel Concentrations

2. Power up 80V for 30 minutes. Then the power supply is adjusted (110 V~150 V), the Marker is observed, and the electrophoresis can be stopped when the indicator band of the predyed protein Marker where the protein is located is properly separated. (Note that the current should not be too large when electrophoresis, too large current (more than 150 mA) will cause the temperature to rise, affecting the result of running glue. If high currents cannot be avoided, an ice bath can be used to cool the bath.)

Transfer membrane

1. Take out the converter, soak the clip and consumables in the pre-cooled converter;

2. Activate PVDF membrane with methanol for 1 min and rinse with transfer buffer;

3. Install it in the order of "black edge of clip - sponge - filter paper - filter paper - glue -PVDF membrane - filter paper - filter paper - sponge - white edge of clip";

4. The protein was electrotransferred to PVDF membrane. ( 0.45 µm PVDF membrane is recommended ) Reference Table for Selecting PVDF Membrane Pore Size Specifications

Recommended conditions for wet transfer: 200 mA, 120 min.

( Note that the transfer conditions can be adjusted according to the protein size. For high-molecular-weight proteins, a higher current and longer transfer time are recommended. However, ensure that the transfer tank remains at a low temperature to prevent gel melting.)

Block

1. After electrotransfer, wash the film with TBST at room temperature for 5 minutes;

2. Incubate the film in the blocking solution for 1 hour at room temperature;

3. Wash the film with TBST for 3 times, 5 minutes each time.

Antibody incubation

1. Use 5% skim milk powder to prepare the primary antibody working liquid (recommended dilution ratio for primary antibody 1:1000), gently shake and incubate with the film at 4°C overnight;

2. Wash the film with TBST 3 times, 5 minutes each time;

3. Add the secondary antibody to the blocking solution and incubate with the film gently at room temperature for 1 hour;

4. After incubation, wash the film with TBST 3 times for 5 minutes each time.

Antibody staining

1311. Add the prepared ECL luminescent substrate (or select other color developing substrate according to the second antibody) and mix evenly;

2. Incubate with the film for 1 minute, remove excess substrate (keep the film moist), wrap with plastic film, and expose in the imaging system.

Referencias

https://pubmed.ncbi.nlm.nih.gov/22451676/

Datos de aplicación

WB

Validado por Selleck

Lane 1: SH-SY5Y
Lane 2: HepG2
Lane 3: Mouse brain
Lane 4: Rat brain