Reactivo TRIzol™ LS
Reactivo TRIzol™ LS
Citas y referencias (12)
Invitrogen™

Reactivo TRIzol™ LS

El reactivo TRIzol™ LS es un reactivo completo, listo para su uso, optimizado para el aislamiento de ARN total deMás información
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Número de catálogoCantidad
10296010100 mL
10296028200 mL
Número de catálogo 10296010
Precio (MXN)
7,050.24
Each
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Cantidad:
100 mL
Precio (MXN)
7,050.24
Each
Añadir al carro de la compra
El reactivo TRIzol™ LS es un reactivo completo, listo para su uso, optimizado para el aislamiento de ARN total de alta calidad, o el aislamiento simultáneo de ADN, ARN y proteínas de diversas muestras líquidas. Esta solución monofásica de fenol e isotiocianato de guanidina está diseñada para aislar fracciones separadas de ARN, ADN y proteínas a partir de muestras líquidas de origen humano, animal, vegetal, bacteriano, viral y levaduras, generalmente en menos de una hora.

Características clave del reactivo TRIzol™ LS:
• Formulado para su uso con muestras líquidas como suero y preparaciones de virus
• Facilita la recuperación de ADN, ARN y proteínas a partir de una sola muestra de líquido
• Ofrece una excelente capacidad de lisis, incluso con fluidos biológicos difíciles

Purifique con fiabilidad ARN de varios orígenes de muestras
El reactivo TRIzol™ LS está diseñado para procesar una variedad de muestras líquidas de hasta 0,25 ml de volumen. El reactivo TRIzol™ LS difiere del reactivo estándar TRIzol™ en la concentración, lo que permite procesar un mayor número de muestras. Al igual que el reactivo estándar TRIzol™, la integridad de las preparaciones de ARN resultantes se mantiene gracias a la inhibición altamente eficaz de la actividad de ARNasa durante la homogeneización de muestras. La simplicidad del método del reactivo TRIzol™ LS permite el procesamiento simultáneo de un gran número de muestras. El procedimiento completo se puede realizar en 1 hora. El ARN total aislado por el reactivo TRIzol™ está libre de contaminación de proteínas y ADN.

Formulado para varios aislamientos
El reactivo TRIzol™ LS permite realizar la precipitación secuencial de ARN, ADN y proteínas a partir de una sola muestra. Después de la homogeneización de la muestra con el reactivo TRIzol™ LS, se añade cloroformo. El homogeneizado puede separarse en una capa superior acuosa transparente (con ARN), una interfaz y una capa orgánica roja inferior (con ADN y proteínas). El ARN se precipita desde la capa acuosa con isopropanol. El ADN se precipita desde la interfase acuosa/orgánica con etanol. La proteína se precipita de la capa de fenol-etanol mediante precipitación de isopropanol. El precipitado de ARN, ADN o proteína se lava para eliminar las impurezas y, a continuación, se resuspende para su uso en aplicaciones posteriores.

Los productos purificados son ideales para usar con una gran variedad de aplicaciones
El ARN aislado se puede utilizar en PCR cuantitativa en tiempo real (qPCR), análisis de Northern blot, hibridación de dot blot, selección poli-(A)+, traslación in vitro, ensayos de protección de RNasa y clonación molecular. El ADN aislado se puede utilizar en la PCR, digestión de enzimas de restricción e Southern Blots. La proteína aislada puede ser utilizada para inmunotransferencias, recuperación de la actividad enzimática e inmunoprecipitación.
Para uso exclusivo en investigación. No apto para uso en procedimientos diagnósticos.
Especificaciones
Volumen de elución20 to 600 μL
Tipo de producto finalARN total, ARN de transcriptoma, micro ARN
Para utilizar con (aplicación)PCR cuantitativa en tiempo real (qPCR), PCR de transcriptasa inversa (RT-PCR), construcción de bibliotecas de ADNc, ensayos de protección contra nucleasas, northern blot, clonación
Compatibilidad de alto rendimientoNo compatible con alto rendimiento (manual)
Tiempo de purificación1 h
Cantidad100 mL
Condiciones de envíoTemperatura ambiente
Cantidad de material de partidaMuestras líquidas de 250 µl a 1 ml (intervalo sugerido; escalable)
Producción8 mg
Isolation TechnologyExtracción orgánica
Tipo de muestraSangre, muestras líquidas (p. ej., suero), muestras virales
Unit SizeEach
Contenido y almacenamiento
Un frasco de reactivo TRIzol™ LS. Almacenar entre 2 °C y 25 °C.

Preguntas frecuentes

What chloroform do you recommend I use for RNA extraction with TRIzol Reagent? Are there any substitutes I can use?

We recommend using straight chloroform. No isoamyl alcohol is needed (though using chloroform:isoamyl alcohol 49:1 works without problems). You can also use chloroform with 50 ppm amylene. Alternatively, BCP (1-bromo-2 chloropropane) can be used in the place of chloroform.

Find additional tips, troubleshooting help, and resources within our RNA Sample Collection, Protection, and Isolation Support Center.

What is the smallest sample volume I can use when extracting RNA with TRIzol Reagent?

Small volumes (0.5-0.8 mL) of TRIzol Reagent have been used successfully for 10^2 to 10^5 cells, but if small volumes are used, we recommend using smaller tubes in order to have the tallest possible column of aqueous phase. The taller the column of liquid, the less likely that contamination from the interphase will occur.

Here is a protocol for isolation of RNA from small quantities of tissue (1-10 mg) or cells (100-10,000):
1. Add 800 µL TRIzol Reagent to the sample. Homogenize cells by pipetting repeatedly. Add 200 µg glycogen (Cat. No. 10814010) directly to the TRIzol Reagent. If processing tissue, pulverize in liquid nitrogen first and then add 800 µL TRIzol Reagent containing 200 µg glycogen (final concentration 250 µg/mL) followed by vigorous vortexing or power homogenization.
2. Place at room temperature, cap the vial, and vortex at high speed for 10 seconds. Make sure the TRIzol Reagent wets the side of the vial in order to solubilize any sample that may be remaining on the walls.
3. Shear the genomic DNA in the sample by passing twice through a 26-gauge needle connected to a 1 mL syringe. Using the syringe, transfer the sample to a sterile 1.5 mL microcentrifuge tube.
4. Add 160 µL of chloroform (or 49:1 chloroform:isoamyl alcohol) to each sample and vortex up to 30 seconds. Centrifuge at maximum speed in a microcentrifuge for 5 minutes to separate the phases.
5. Transfer the upper aqueous phase to a fresh tube and add 400 µL ice-cold isopropanol. Allow the samples to precipitate at -20 degrees C for 1 hour to overnight. Pellet the RNA by centrifugation at maximum speed in the microfuge for 15 minutes at room temperature.
6. Decant the supernatant. Wash the pellet in 200 µL of 70% ethanol and centrifuge again for 10 minutes at maximum speed. Decant the supernatant, removing as much as possible without disturbing the pellet. Dry the RNA pellet.
7. Resolubilize the pellet in 30-50 µL RNAse-free deionized water. If tissue is high in RNAses (e.g., adrenal gland, pancreas), resuspend in 100% deionized formamide. Be sure to vortex or pipette the sample up and down to ensure that the pellet is fully resolubilized. Store at -70 degrees C.

Find additional tips, troubleshooting help, and resources within ourRNA Sample Collection, Protection, and Isolation Support Center.

What are possible stopping points and storage for RNA extraction when using TRIzol Reagent for RNA extraction? How should I store the RNA?

There are several possible stopping points and recommended storage conditions during the extraction of RNA with TRIzol Reagent:

- Sample homogenization step: After homogenization (before addition of chloroform), you can store samples at -70 degrees C for at least 1 year. The homogenated samples can sit at room temperature for several hours before adding chloroform.
- Sample homogenization step: If samples are efficiently lysed in TRIzol Reagent and the reagent inactivates the nucleases, you can safely store RNA for 3-4 days at room temperature.
- RNA precipitation step: You can store RNA in isopropanol overnight at 4 degrees C. Prolonged storage at this reduced temperature will not influence the yield of RNA appreciably. Do not store at -20 degrees C, as salts will precipitate, and do not store for a prolonged time at room temperature because the guanidine isothiocyanate can harm the RNA.
- RNA wash step: You can store RNA in 75% ethanol for 1 week at 4 degrees C or 1 year at -20 degrees C.

Find additional tips, troubleshooting help, and resources within our RNA Sample Collection, Protection, and Isolation Support Center.

What is the excepted A260/A280 absorbance ratio of total RNA isolated by TRIzol Reagent?

The absorbance of nucleic acids is dependent upon the ionic strength and pH of the medium. Please see the range of absorbance values below based on the diluents used.

Diluent A260 A280 A260/A280 RNA (µg/mL)
Cytoplasmic RNA dissolved in distilled water 0.381 0.223 1.711 15.24
Cytoplasmic RNA dissolved in TE buffer 0.335 0.145 2.310 13.4
RNA isolated by TRIzol Reagent and dissolved in distilled water 0.585 0.328 1.785 23.4 RNA isolated by TRIzol Reagent and dissolved in TE buffer 0.544 0.247 2.206 21.76 Although a high A260/A280 ratio may not indicate an extremely pure preparation of nucleic acid, a low A260/A280 ratio (1.7 for RNA) does indicate that the preparation is contaminated and may not be suitable for some applications.

Find additional tips, troubleshooting help, and resources within our RNA Sample Collection, Protection, and Isolation Support Center.

Do you have any tips for RNA isolation when working with blood samples?

Please visit our website for tips for working with blood samples.

Find additional tips, troubleshooting help, and resources within our RNA Sample Collection, Protection, and Isolation Support Center.

View all Reactivo TRIzol™ LS FAQs

Citations & References (12)

Citations & References
Abstract
Authors:
Journal:
PubMed ID:16475517
STAT3 down-regulates the expression of cyclin D during liver development.
Authors: Matsui Takaaki; Kinoshita Taisei; Hirano Toshio; Yokota Takashi; Miyajima Atsushi;
Journal:J Biol Chem
PubMed ID:12147685
'As the expression of cyclin D1 is induced during liver regeneration and also in hepatic tumor cells, cyclin D1 is likely to play an important role in the proliferation and transformation of hepatocytes. However, the role of cyclin D1 in liver development remains unknown. Here we show that the expression ... More
Human Cytomegalovirus Induces Drug Resistance and Alteration of Programmed Cell Death by Accumulation of Delta N-p73alpha.
Authors: Allart Sophie; Martin Helene; Detraves Claire; Terrasson Jerome; Caput Daniel; Davrinche Christian;
Journal:J Biol Chem
PubMed ID:12034725
'Intrauterine transmission of human cytomegalovirus (HCMV) to the fetus following primary infection in early and late pregnancy usually results in severe neurological handicaps and sensorineural hearing loss with typical migrational anomalies, optic atrophy, disturbed myelination, cerebella hypoplasia, microcephaly, hydrocephaly, and lissencephaly. Recently, evidences raised from the phenotype of p73-deficient mice ... More
Opposing actions of inositol 1,4,5-trisphosphate and ryanodine receptors on nuclear factor of activated T-cells regulation in smooth muscle.
Authors:Gomez MF, Stevenson AS, Bonev AD, Hill-Eubanks DC, Nelson MT,
Journal:J Biol Chem
PubMed ID:12145283
'The nuclear factor of activated T-cells (NFAT), originally identified in T-cells, has since been shown to play a role in mediating Ca(2+)-dependent gene transcription in diverse cell types outside of the immune system. We have previously shown that nuclear accumulation of NFATc3 is induced in ileal smooth muscle by platelet-derived ... More
A TRP Channel that Senses Cold Stimuli and Menthol.
Authors: Peier Andrea M; Moqrich Aziz; Hergarden Anne C; Reeve Alison J; Andersson David A; Story Gina M; Earley Taryn J; Dragoni Ilaria; McIntyre Peter; Bevan Stuart; Patapoutian Ardem;
Journal:Cell
PubMed ID:11893340
'A distinct subset of sensory neurons are thought to directly sense changes in thermal energy through their termini in the skin. Very little is known about the molecules that mediate thermoreception by these neurons. Vanilloid Receptor 1 (VR1), a member of the TRP family of channels, is activated by noxious ... More
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