Recombinant Rhesus macaque IL1A protein, His-tagged
Cat.No. : | IL1A-5444R |
Product Overview : | Recombinant Rhesus macaque IL1A protein(P48089)(113-271aa), fused to N-terminal His tag, was expressed in Yeast. |
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Source : | Yeast |
Species : | Rhesus macaque |
Tag : | His |
Form : | If the delivery form is liquid, the default storage buffer is Tris/PBS-based buffer, 5%-50% glycerol. If the delivery form is lyophilized powder, the buffer before lyophilization is Tris/PBS-based buffer, 6% Trehalose, pH 8.0. |
Molecular Mass : | 20.1 kDa |
Protein length : | 113-271aa |
Purity : | Greater than 90% as determined by SDS-PAGE. |
Storage : | Store at -20°C/-80°C upon receipt, aliquoting is necessary for mutiple use. Avoid repeated freeze-thaw cycles. |
Reconstitution : | Please reconstitute protein in deionized sterile water to a concentration of 0.1-1.0 mg/mL.We recommend to add 5-50% of glycerol (final concentration) and aliquot for long-term storage at -20°C/-80°C. Our default final concentration of glycerol is 50%. |
Products Types
◆ Recombinant Protein | ||
IL1A-1017H | Recombinant Human IL1A Protein, His-tagged | +Inquiry |
IL1A-4502M | Recombinant Mouse IL1A Protein, His (Fc)-Avi-tagged | +Inquiry |
IL1A-2687R | Recombinant Rat IL1A Protein, His (Fc)-Avi-tagged | +Inquiry |
Il1a-158M | Recombinant Active Mouse IL1A Protein, His-tagged(C-ter) | +Inquiry |
IL1A-577R | Recombinant Rhesus Macaque IL1A Protein (113-271 aa), His-SUMO-tagged | +Inquiry |
◆ Lysates | ||
IL1A-2911HCL | Recombinant Human IL1A cell lysate | +Inquiry |
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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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Customer Reviews (3)
Write a reviewHigh solubility.
Good for intracellular staining.
Effective in apoptosis assays.
Q&As (10)
Ask a questionCross-talk between IL-1α's and other cytokines is dissected through methods such as co-immunoprecipitation, ELISA, and cytokine profiling arrays.
IL-1α's paradoxical roles are dissected using conditional knockout mice, 3D culture systems, and molecular analyses to delineate context-specific effects.
Single-cell RNA sequencing uncovers heterogeneity in IL-1α-responsive cell populations and their roles, revealing distinct molecular profiles and functions.
IL-1α's intricate pro-inflammatory signaling pathways are decoded using advanced techniques like mass spectrometry, phosphoproteomics, and bioinformatics.
Genetic editing tools like CRISPR-Cas9 unveil IL-1α's contributions to diseases by generating knockout models and studying resulting phenotypic changes.
In vitro co-culture systems are manipulated to study IL-1α-mediated responses, elucidating immune-stromal cell interactions via cytokine-specific neutralization.
Specific cellular receptors and effectors influenced by IL-1α are identified through techniques like co-immunoprecipitation, ChIP-seq, and siRNA knockdown.
Live-cell microscopy captures real-time IL-1α release dynamics and its impact on neighboring cells, facilitated by fluorescent tagging and high-resolution imaging.
Longitudinal studies and statistical modeling establish the quantitative relationship between IL-1α levels and disease progression, offering predictive insights.
Multi-omics analyses provide a holistic view of IL-1α signaling's impact, integrating transcriptomics, proteomics, and metabolomics data for comprehensive insights.
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