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Recombinant Mouse IL1R1 cell lysate

Cat.No. : IL1R1-1787MCL
Product Overview : Mouse IL1R1 / CD121a derived in Human Cells. The whole cell lysate is provided in 1X Sample Buffer.Browse all transfected cell lysate positive controls
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Source : Human cells
Species : Mouse
Preparation method : Transfected cells were cultured for 48hrs before collection. The cells were lysed in modified RIPA buffer with cocktail of protease inhibitors. Cell debris was removed by centrifugation and then centrifuged to clarify the lysate. The cell lysate was boiled for 5 minutes in 1 x SDS sample buffer (50 mM Tris-HCl pH 6.8, 12.5% glycerol, 1% sodium dodecylsulfate, 0.01% bromophenol blue) containing 5% b-mercaptoethanol, and lyophilized.
Lysis buffer : Modified RIPA Lysis Buffer: 50 mM Tris-HCl pH 7.4, 150 mM NaCl, 1mM EDTA, 1% Triton X-100, 0.1% SDS, 1% Sodium deoxycholate, 1mM PMSF
Quality control Testing : 12.5% SDS-PAGE Stained with Coomassie Blue
Recommended Usage : 1. Centrifuge the tube for a few seconds and ensure the pellet at the bottom of the tube.2. Re-dissolve the pellet using 200μL pure water and boiled for 2-5 min.3. Store it at -80°C. Recommend to aliquot the cell lysate into smaller quantities for optimal storage. Avoid repeated freeze-thaw cycles.Notes:The lysate is ready to load on SDS-PAGE for Western blot application. If dissociating conditions are required, add reducing agent prior to heating.
Stability : Samples are stable for up to twelve months from date of receipt at -80°C
Storage Buffer : 50 mM Tris-HCl pH 7.4, 150 mM NaCl, 1mM EDTA, 1% Triton X-100, 0.1% SDS, 1% Sodium deoxycholate, 1mM PMSF
Storage Instruction : Lysate samples are stable for 12 months from date of receipt when stored at -80°C. Avoid repeated freeze-thaw cycles. Prior to SDS-PAGE fractionation, boil the lysate for 5 minutes.
Gene Name : Il1r1 interleukin 1 receptor, type I [ Mus musculus ]
Official Symbol : IL1R1
Synonyms : IL1R1; interleukin 1 receptor, type I; interleukin-1 receptor type 1; p80; IL-1R-1; IL-1RT1; IL-1RT-1; IL-1R-alpha; IL-1 receptor alpha chain; interleukin-1 receptor alpha; interleukin-1 receptor type I; CD121 antigen-like family member A; IL-iR; CD121a; CD121b; Il1r-1; MGC129154;
Gene ID : 16177
mRNA Refseq : NM_001123382
Protein Refseq : NP_001116854
Pathway : Amoebiasis, organism-specific biosystem; Amoebiasis, conserved biosystem; Apoptosis, organism-specific biosystem; Apoptosis, conserved biosystem; Apoptosis signaling pathway, organism-specific biosystem; Cytokine-cytokine receptor interaction, organism-specific biosystem; Cytokine-cytokine receptor interaction, conserved biosystem;
Function : interleukin-1 receptor activity; interleukin-1 receptor activity; interleukin-1, Type I, activating receptor activity; ionotropic glutamate receptor binding; platelet-derived growth factor receptor binding; protease binding; protein binding; receptor activity; signal transducer activity; transmembrane signaling receptor activity;

For Research Use Only. Not intended for any clinical use. No products from Creative BioMart may be resold, modified for resale or used to manufacture commercial products without prior written approval from Creative BioMart.

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Q&As (10)

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How does the cellular localization of IL1R1 influence its responsiveness to ligands, and how can live-cell imaging techniques track its dynamic movement on the cell surface? 10/01/2022

Live-cell imaging techniques track IL1R1's movement on the cell surface, revealing how cellular localization impacts its responsiveness to ligands.

How can advanced computational modeling and molecular dynamics simulations predict the allosteric changes in IL1R1's intracellular domain upon ligand binding, offering insights into its downstream signaling cascade? 04/19/2022

Advanced computational modeling and molecular dynamics simulations predict allosteric changes in IL1R1's intracellular domain upon ligand binding, revealing insights into its downstream signaling cascade.

What are the mechanisms underlying IL1R1's dimerization and oligomerization, and how can FRET and cross-linking assays provide insights into its multimeric assembly? 12/26/2020

FRET and cross-linking assays reveal the multimeric assembly of IL1R1, shedding light on its dimerization and oligomerization dynamics.

How does IL1R1's endocytosis and recycling affect its signaling duration, and how can confocal microscopy and flow cytometry unveil its intracellular trafficking patterns? 12/25/2020

Confocal microscopy and flow cytometry visualize IL1R1's endocytosis and recycling, offering insights into its intracellular trafficking dynamics and signaling duration.

What are the intricate molecular details of IL1R1's recruitment of MyD88 and other adapter proteins upon ligand binding, and how can co-immunoprecipitation assays reveal these interactions? 07/25/2020

Co-immunoprecipitation assays unravel the interactions between IL1R1 and adapter proteins, elucidating the molecular details of its intracellular signaling cascade.

How does the interaction between IL1R1 and accessory proteins like IL1RAP influence its ligand binding and intracellular signaling, and how can mutagenesis studies dissect these interfaces? 04/13/2020

Mutagenesis studies dissect the interfaces between IL1R1 and accessory proteins like IL1RAP, uncovering their roles in ligand binding and signaling modulation.

How do the structural dynamics of IL1R1's extracellular domains modulate its binding to various ligands, and how can cryo-electron microscopy unveil these conformational changes? 02/22/2020

Cryo-electron microscopy captures IL1R1's structural shifts during ligand binding, unveiling conformational changes that influence its ligand recognition.

What are the intricate crosstalk mechanisms between IL1R1 and other receptors in cell signaling networks, and how can proteomics-based studies dissect these interconnected pathways? 01/17/2020

Proteomics-based studies uncover the crosstalk between IL1R1 and other receptors in signaling networks, unveiling their interconnected pathways.

What are the complex regulatory mechanisms governing IL1R1's expression and alternative splicing, and how can CRISPR-based approaches shed light on the functional consequences of these variations? 09/09/2018

CRISPR-based approaches manipulate IL1R1 expression and alternative splicing, providing functional insights into the complex regulatory mechanisms governing its variations.

In what ways does IL1R1's post-translational modification landscape impact its downstream signaling, and how can phosphoproteomics offer a comprehensive view of its phosphorylation events? 09/17/2017

Phosphoproteomics characterizes IL1R1's phosphorylation landscape, revealing how post-translational modifications shape its downstream signaling outcomes.

Customer Reviews (3)

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Reviews
07/14/2022

    High stability.

    06/07/2017

      Suitable for ELISA.

      04/19/2017

        Effective in signaling studies.

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