ProcartaPlex™ Mouse Chemokine Panel 1, 9plex

Citas y referencias (8)

Invitrogen™

ProcartaPlex™ Mouse Chemokine Panel 1, 9plex

El panel 1 ProcartaPlex 9-Plex de quimiocina de ratón permite el estudio de la respuesta inmune mediante el análisis deMás información

Número de catálogo	Cantidad
EPX090-20821-901	96 pruebas

Número de catálogo EPX090-20821-901

Precio (CLP)

3.056.314

Añadir al carro de la compra

Cantidad:

96 pruebas

Precio (CLP)

3.056.314

Añadir al carro de la compra

El panel 1 ProcartaPlex 9-Plex de quimiocina de ratón permite el estudio de la respuesta inmune mediante el análisis de 9 proteínas diana en un solo pocillo a través de la tecnología Luminex xMAP. Este panel es un módulo del panel 1A ProcartaPlex 36-plex de citocina y quimiocina (n.º de ref. cat. EPX360-26092-901). Este kit es totalmente combinable con los ensayos individuales simples y con los paneles modulares correspondientes a los elementos diana del panel 36-Plex.

Los paneles preconfigurados ProcartaPlex se han probado exhaustivamente para determinar la capacidad combinatoria, la interferencia y la reactividad cruzada de los analitos con el fin de proporcionar el mayor nivel de validación y precisión. Todos los paneles ProcartaPlex se suministran con los reactivos necesarios para realizar el ensayo.

Los paneles multiplex ProcartaPlex están disponibles en múltiples formatos en seis especies (humano, ratón, rata, primate no humano, porcino y canino). Visite nuestra página de inmunoensayos ProcartaPlex para obtener más información y consultar los productos disponibles.

Lista de objetivos [región de gránulos]: Eotaxin (CCL11) [62], GRO alfa (CXCL1) [43], IP-10 (CXCL10) [22], MCP-1 (CCL2) [51], MCP-3 (CCL7) [48], MIP-1 alfa (CCL3) [47], MIP-1 beta (CCL4) [72], MIP-2 [55], RANTES (CCL5) [44]

Acerca de los ensayos ProcartaPlex para la plataforma Luminex
Los inmunoensayos ProcartaPlex están basados en los principios de un ELISA de tipo sándwich, que usa dos anticuerpos específicos unidos a diferentes epítopos de una proteína para contar todos los objetivos de proteínas simultáneamente usando un instrumento de Luminex. Para los ensayos multiplex ProcartaPlex se requieren tan solo 25 µl de plasma o suero, o 50 µl de sobrenadante del cultivo celular, y solo se necesitan cuatro horas para obtener los resultados analizados.

Las características incluyen:
• Resultados reproducibles y fiables: validados como panel según el estándar más alto del sector, incluidas las pruebas de combinación de proteínas diana y reactividad cruzada
• Más resultados por muestra: permite medir múltiples proteínas diana simultáneamente en una única muestra de 25–50 µL
• Tecnología Luminex consolidada: plataforma de multiplexing de referencia para detección y cuantificación de proteínas

Los ensayos ProcartaPlex utilizan la tecnología Luminex xMAP (método multianálito) para la detección y cuantificación simultáneas de hasta 65 proteínas diana en una única muestra de 25–50 µL de plasma, suero, sobrenadantes del cultivo celular y otros fluidos corporales.

Las microesferas de Luminex del ensayo de ProcartaPlex se tiñen internamente con proporciones precisas de fluoróforos rojos e infrarrojos para crear firmas específicas que pueden ser identificadas por los sistemas de detección Luminex xMAP (por ejemplo, Luminex 200, FLEXMAP 3D y MAGPIX). El ensayo ProcartaPlex, similar a un ELISA tipo sándwich, utiliza pares de anticuerpos emparejados para identificar la proteína de interés. En un ensayo multiplex, cada gránulo espectralmente único se etiqueta con anticuerpos específicos para una sola proteína diana, y las proteínas vinculadas se identifican con anticuerpos biotinilados y estreptavidina-R-ficoeritrina (RPE). La conjugación de anticuerpos específicos de proteínas en un gránulo distinto permite el análisis de varios elementos diana en un solo pocillo.

La diferencia más significativa entre un ensayo ProcartaPlex y uno ELISA es que el anticuerpo de captura del ensayo ProcartaPlex se conjuga en un gránulo y no se adsorbe en el pocillo de la microplaca, por lo que los reactivos del ensayo ProcartaPlex flotan en la solución. Para la detección, el instrumento Luminex 200, por ejemplo, contiene dos láseres, uno para distinguir la firma espectral de cada partícula y el segundo para cuantificar la cantidad de fluorescencia RPE, que es proporcional a la cantidad de proteína presente en la muestra. Los ensayos multiplex ProcartaPlex pueden determinar el perfil de más proteínas diana con mucha menos muestra en el mismo tiempo que se tarda en realizar un ELISA tipo sándwich tradicional.

Los paneles multiplex ProcartaPlex están disponibles en múltiples formatos en seis especies (humano, ratón, rata, primate no humano, porcino y canino). Visite thermofisher.com/procartaplex para obtener más información y consultar los productos disponibles.

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

Especificaciones

Intervalo del ensayoVer certificado de análisis

Sensibilidad del ensayoMenos del 15 %

Para utilizar con (equipo)Instrumentos Luminex™

FormatoKit multiplex

Línea de productosProcartaPlex

Tipo de muestraSobrenadantes de cultivo celular, suero y plasma, Plasma, Cell Culture Supernatants

Volumen de muestraSuero, plasma: 25 μl; CCS: 50 μl

Condiciones de envíoHielo húmedo

CombinabilityCombinable

Tipo de productoPanel

Cantidad96 pruebas

Research AreaImmunology, Chemokines

EspecieRatón

Unit SizeEach

Contenido y almacenamiento

2 viales de mezcla estándar de ratón A (liofilizada)
1 vial de mezcla de gránulos de captura (1X)
1 vial de mezcla de anticuerpos de detección biotinilada (50X)
1 frasco de tampón de lectura (1X)
1 frasco de tampón de lavado (10x)
1 frasco de estreptavidina-PE (1X)
1 frasco de tampón de ensayo universal (1 X)
1 frasco de diluyente de anticuerpos de detección (1X)
Tira de 8 tubos
Película adhesiva
Placa de 96 pocillos de fondo plano, negra
Almacenar entre 2 °C y 8 °C

Preguntas frecuentes

What is the size of the Luminex beads you currently use?

The beads used in our Luminex instrument-compatible ProcartaPlex and QuantiGene Plex assays are 6.5 micron superparamagnetic beads.

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

I am interested in performing Luminex assays using BioSource kits, and I have a Luminex xMAP system. Besides the kits and system, what other reagents and equipment will I need?

The following is a list of general lab supplies that are required for running BioSource immunoassays on the Luminex xMAP system:
1) Sonicating water bath
2) Orbital shaker
3) Vortexer
4) Repeating and/or multi-channel pipetter (not required, but recommended)
5) Calibrated adjustable precision pipettes, with disposable plastic tips
6) Glass/plastic tubes and racks for preparing reagents
7) Graduated cylinder and container for preparing wash solution
8) Aluminum foil
9) Deionized or distilled water.

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

Do the Luminex beads require special care in handling?

The Luminex beads should be protected from light because they are susceptible to photobleaching. We recommend protecting the beads by keeping containers covered with aluminum foil during all incubation steps, and exercising care during handling. The beads should not be frozen, subjected to excessive heat, or exposed to organic solvents.

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

Why would the Luminex acquisition software display "Sample Empty" messages during analysis?

(1) The user did not properly aliquot the diluted beads, such that no beads were actually added to the wells (make sure that the bead concentrates are sonicated and vortexed well, then check the pipet tip to ensure that air bubbles were not drawn up)
(2) The user missed loading diluted beads to some wells, which is likely since the small volume is clear and difficult to visualize in the clear plastic plate (we have now addressed this customer difficulty by coloring each of the Buffer Reagent Kit components)
(3) The user applied too much vacuum pressure at some point during the wash steps, or allowed the pressure to spike even once, such that the filter membrane tore in a few wells releasing the beads (make sure that the vacuum manifold pressure is kept below 5mm/in Hg, depending on their system -- a good rule of thumb is that it should take a full 3-second count to GENTLY empty the wells of 200uL)
(4) The user did not properly sonicate and vortex the beads prior to dilution, such that the percent of bead aggregation was high and the instrument was unable to find enough single beads to meet the events/bead value designated by the customer (make sure that the Bead Concentrate tube is put into the waterbath all the way to the cap, since the tube is hollow until the top third)
(5) The user lost beads by shaking the plate too aggressively or handling it improperly (make sure that the orbital shaker is set to a speed that allows for maximum vortex in the wells without spillage)
(6) The user exposed the beads to an excess of light during storage or running of the assay, such that some but not all of the beads were photobleached and therefore falling outside the acceptable range for each bead region (make sure that the plate is covered on the top/sides with foil throughout the assay, away from Windows and spotlights, and that the bead component of the kits is stored in the dark)*
(7) There was a clog in the sample needle, such that the instrument was unable to take up enough sample to meet the number of events requested per bead region (suggest that the user follow the manual instructions for dislodging a clog, which include several Back Flush steps and may require removal of the needle for sonication with probe alignment).

* Some of the older Antibody Bead Kits still have clear plastic tops instead of black ones. In cases where customers store kits in lit refrigerators, or keep them open on the lab bench, even a few hours of light exposure is enough to photobleach beads. It is important to note, in general, that higher number bead regions are more susceptible to photobleaching. In order to draw conclusions about the source of the difficulty, we would ask to see the data, specifically the Masterplex QT file, which would enable us to examine the pattern of "Sample Empty" occurrences in addition to the bead counts per well.

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

What are the Luminex beads made of?

The beads are made of polystyrene.

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

View all ProcartaPlex™ Mouse Chemokine Panel 1, 9plex FAQs

Citations & References (8)

Citations & References

Abstract

Tetanus toxoid and CCL3 improve dendritic cell vaccines in mice and glioblastoma patients.

Authors:Mitchell DA, Batich KA, Gunn MD, Huang MN, Sanchez-Perez L, Nair SK, Congdon KL, Reap EA, Archer GE, Desjardins A, Friedman AH, Friedman HS, Herndon JE, Coan A, McLendon RE, Reardon DA, Vredenburgh JJ, Bigner DD, Sampson JH

Journal:

PubMed ID:25762141

'After stimulation, dendritic cells (DCs) mature and migrate to draining lymph nodes to induce immune responses. As such, autologous DCs generated ex vivo have been pulsed with tumour antigens and injected back into patients as immunotherapy. While DC vaccines have shown limited promise in the treatment of patients with advanced ... More

New role of P2X7 receptor in an Alzheimer's disease mouse model.

Authors:Martin E, Amar M, Dalle C, Youssef I, Boucher C, Le Duigou C, Brückner M, Prigent A, Sazdovitch V, Halle A, Kanellopoulos JM, Fontaine B, Delatour B, Delarasse C

Journal:Mol Psychiatry

PubMed ID:29934546

'Extracellular aggregates of amyloid ß (Aß) peptides, which are characteristic of Alzheimer''s disease (AD), act as an essential trigger for glial cell activation and the release of ATP, leading to the stimulation of purinergic receptors, especially the P2X7 receptor (P2X7R). However, the involvement of P2X7R in the development of AD ... More

New in vitro model derived from brain-specific Mut-/- mice confirms cerebral ammonium accumulation in methylmalonic aciduria.

Authors:Remacle N, Forny P, Cudré-Cung HP, Gonzalez-Melo M, do Vale-Pereira S, Henry H, Teav T, Gallart-Ayala H, Braissant O, Baumgartner M, Ballhausen D

Journal:Mol Genet Metab

PubMed ID:29934063

'Methylmalonic aciduria (MMAuria) is an inborn error of metabolism leading to neurological deterioration. In this study, we used 3D organotypic brain cell cultures derived from embryos of a brain-specific Mut' ... More

Aquaporin-3 potentiates allergic airway inflammation in ovalbumin-induced murine asthma.

Authors:Ikezoe K, Oga T, Honda T, Hara-Chikuma M, Ma X, Tsuruyama T, Uno K, Fuchikami J, Tanizawa K, Handa T, Taguchi Y, Verkman AS, Narumiya S, Mishima M, Chin K

Journal:Sci Rep

PubMed ID:27165276

Oxidative stress plays a pivotal role in the pathogenesis of asthma. Aquaporin-3 (AQP3) is a small transmembrane water/glycerol channel that may facilitate the membrane uptake of hydrogen peroxide (H2O2). Here we report that AQP3 potentiates ovalbumin (OVA)-induced murine asthma by mediating both chemokine production from alveolar macrophages and T cell ... More

IL-4/5 signalling plays an important role during Litomosoides sigmodontis infection, influencing both immune system regulation and tissue pathology in the thoracic cavity.

Authors:Ritter M, Tamadaho RS, Feid J, Vogel W, Wiszniewsky K, Perner S, Hoerauf A, Layland LE

Journal:Int J Parasitol

PubMed ID:28859850

Approximately 100 million people suffer from filarial diseases including lymphatic filariasis (elephantiasis), onchocerciasis (river blindness) and loiasis. These diseases are amongst the most devastating of the neglected tropical diseases in terms of social and economic impact. Moreover, many infection-induced immune mechanisms in the host, their relationship to disease-related symptoms and ... More

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