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AB206311

Mouse mTOR ELISA Kit

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Mouse mTOR ELISA Kit is a single-wash 90-min Simplestep used to quantify Mouse mTOR with a sensitivity of 16.7 pg/ml. The assay uses a simple mix-wash-read protocol with just one incubation and one wash step.

- Colorimetric Sandwich ELISA - 450 nm readout : works on any standard plate reader
- Design your own immunoassay: we also offer the conjugation-ready antibody pair

View Alternative Names

Frap, Frap1, Mtor, Serine/threonine-protein kinase mTOR, FK506-binding protein 12-rapamycin complex-associated protein 1, FKBP12-rapamycin complex-associated protein, Mammalian target of rapamycin, Mechanistic target of rapamycin, Rapamycin target protein 1, mTOR, RAPT1

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Sandwich ELISA - Mouse mTOR ELISA Kit (AB206311)
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Supplier Data

Sandwich ELISA - Mouse mTOR ELISA Kit (AB206311)

Linearity of dilution of mouse mTOR in RPMI culture media.

Recombinant mouse mTOR was spiked into 10% RPMI culture media and diluted in a 2-fold dilution series in Sample Diluent NS. The concentrations of mTOR were measured in duplicate and interpolated from the mouse mTOR standard curve and corrected for sample dilution. The interpolated dilution factor corrected values are graphed (mean +/- SD).

Sandwich ELISA - Mouse mTOR ELISA Kit (AB206311)
  • sELISA

Supplier Data

Sandwich ELISA - Mouse mTOR ELISA Kit (AB206311)

Example of the mouse mTOR standard curve in Sample Diluent NS.

Background-subtracted data values (mean +/- SD) are graphed.

Sandwich ELISA - Mouse mTOR ELISA Kit (AB206311)
  • sELISA

Supplier Data

Sandwich ELISA - Mouse mTOR ELISA Kit (AB206311)

Native linearity of dilution mTOR in cell extracts.

Native mouse mTOR was measured in 600 μg/mL NIH 3T3 cell extractand 200 μg/mL C2C12 cell extractdiluted in a 2-fold dilution series in 1X Cell Extraction Buffer PTR. Native rat mTOR was measured in 200 μg/mL PC-12 cell extractdiluted in a 2-fold dilution series in 1X Cell Extraction Buffer PTR. The concentrations of mouse and rat mTOR were measured in duplicate and interpolated from the mousemTOR standard curve and corrected for sample dilution. The interpolated dilution factor corrected values are graphed (mean +/- SD).

Sandwich ELISA - Mouse mTOR ELISA Kit (AB206311)
  • sELISA

Supplier Data

Sandwich ELISA - Mouse mTOR ELISA Kit (AB206311)

Example of the mouse mTOR standard curve in 1X Cell Extraction Buffer PTR.

Background-subtracted data values (mean +/- SD) are graphed.

Key facts

Detection method

Colorimetric

Sample types

Cell culture extracts, Tissue Extracts, Tissue Homogenate, Cell culture supernatant

Reacts with

Mouse

Assay type

Sandwich (quantitative)

Sensitivity

= 16.7 pg/mL

Range

39.06 - 2500 pg/mL

Assay time

1h 30m

Assay Platform

Pre-coated microplate (12 x 8 well strips)

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Reactivity data

{ "title": "Reactivity Data", "filters": { "stats": ["", "Reactivity", "Dilution Info", "Notes"] }, "values": { "sELISA": { "reactivity":"TESTED_AND_REACTS", "dilution-info":"", "notes":"<p></p>" } } }
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Product details

Mouse mTOR ELISA Kit (ab206311) is a single-wash 90 min sandwich ELISA designed for the quantitative measurement of mTOR protein in cell culture supernatant, tissue extracts, tissue homogenate, and cell culture extracts. It uses our proprietary SimpleStep ELISA® technology. Quantitate Mouse mTOR with 16.7 pg/ml sensitivity.

SimpleStep ELISA® technology employs capture antibodies conjugated to an affinity tag that is recognized by the monoclonal antibody used to coat our SimpleStep ELISA® plates. This approach to sandwich ELISA allows the formation of the antibody-analyte sandwich complex in a single step, significantly reducing assay time. See the SimpleStep ELISA® protocol summary in the image section for further details. Our SimpleStep ELISA® technology provides several benefits:

- Single-wash protocol reduces assay time to 90 minutes or less
- High sensitivity, specificity and reproducibility from superior antibodies
- Fully validated in biological samples
- 96-wells plate breakable into 12 x 8 wells strips

A 384-well SimpleStep ELISA® microplate (ab203359) is available to use as an alternative to the 96-well microplate provided with SimpleStep ELISA® kits.

Mammalian target of rapamycin (mTOR) is a serine/threonine protein kinase part of two distinct signaling complexes, mTORC1 and mTORC2. These two complexes share four proteins (mTOR, mLST8, DEPTOR, Tti1/tel2), with only mTORC1 containing Raptor and PRAS40 and mTORC2 containing Rictor, mSin1 and Protor1/2. The complex mTORC1 (rapamycin sensitive complex) coordinates inputs from growth factors, stress, energy status, oxygen and amino acids levels to control processes such as protein and lipid synthesis and autophagy. The complex mTORC2 is insensitive to nutrients and rapamycin, but it responds to insulin signaling. It also controls ion transport and cell shape by targeting serum/glucocorticoid protein kinase (SGK1) and protein kinase (PKC-α) respectively.The canonical regulation of mTORC1 occurs through the TSC/Rheb pathway which receives signals from AKT, AMPK and IKKβ to activate the complex. Phosphorylation of mTOR at Ser2448 is carried out directly by AKT kinase as well as p70S6 kinase acting as a feedback signal. Phosphorylation at this site is a biomarker for the activation state of the PI-3 kinase pathway as well as the activation status of mTOR. Activation of mTOR leads to phosphorylation of PRAS40, raptor and DEPTOR and the consequential activation of mTORC1. Deregulated signaling of mTOR has been implicated in diseases such as cancer, metabolic syndrome, neurodegeneration and aging. Constitutive activation of PI3K-mTORC1 signaling in cancer cells inhibits autophagy, deregulates protein synthesis via 4E-BP1/eIF4E and increases de novo lipid synthesis via SREBP1. Similarly mTOR signaling is a key factor in the regulation of tissue metabolism in the normal and nutrient overload state affecting the hypothalamus, adipose tissue, the liver, skeletal muscle and pancreas.Notably, rat and human mTOR are 99.5% and 98.9% identical to mouse mTOR, respectively.

REACH authorisation
Abcam has not and does not intend to apply for the REACH Authorisation of customers' uses of products that contain European Authorisation list (Annex XIV) substances.
It is the responsibility of our customers to check the necessity of application of REACH Authorisation, and any other relevant authorisations, for their intended uses.

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Precision

[ { "reproducibilityType": "Inter", "sample": "Cell Lysate", "replicates": 3, "mean": null, "standardDeviation": null, "coefficientOfVariability": "= 6.9" }, { "reproducibilityType": "Intra", "sample": "Cell Lysate", "replicates": 8, "mean": null, "standardDeviation": null, "coefficientOfVariability": "= 3.1" } ]
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Recovery

[ { "sample": "Cell culture media", "range": "94 - 101 %", "average": "= 97" } ]
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What's included?

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Properties and storage information

Shipped at conditions
Blue Ice
Appropriate short-term storage conditions
+4°C
Appropriate long-term storage conditions
+4°C
Storage information
+4°C
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Supplementary information

This supplementary information is collated from multiple sources and compiled automatically.

The mammalian target of rapamycin commonly known as mTOR is a serine/threonine kinase known for its role in cellular growth and metabolism. It has a molecular weight of approximately 289 kDa. mTOR is expressed in various tissues throughout the body including muscle adipose tissue and the brain. The protein functions as a central regulator of cell proliferation protein synthesis and nutrient signaling. Often researchers utilize mTOR ELISA or mTOR western blot (mTOR WB) methods and mTOR antibodies to study its expression and activity in various biological contexts.
Biological function summary

MTOR integrates signals from nutrients growth factors and cellular energy status to maintain cellular homeostasis. It forms part of two distinct complexes mTORC1 and mTORC2 which differ in their component proteins and downstream effects. mTORC1 primarily responds to amino acids and regulates protein synthesis through phosphorylation of key substrates like S6K1. On the other hand mTORC2 is important for maintaining cytoskeletal integrity and cell survival highlighting the protein's importance in diverse cellular processes.

Pathways

MTOR plays a pivotal role in the PI3K/AKT/mTOR pathway which governs cell growth proliferation and survival. It also has implications in the regulation of the AMPK pathway which senses cellular energy levels. Through these pathways mTOR interacts with proteins such as AKT and TSC2. The phospho-mTOR specifically the S2448 phospho-mTOR serves as an important functional marker in these signaling cascades linking extracellular signals to downstream cellular responses.

MTOR has connections to cancer and neurodegenerative diseases. Its dysregulation often leads to uncontrolled cellular proliferation a hallmark of many cancers. Conditions such as tuberous sclerosis can occur due to mutations in proteins like TSC1 and TSC2 that regulate mTOR activity. In Alzheimer's disease mTOR's role in autophagy and protein synthesis becomes significant as imbalance may contribute to disease progression. Understanding these connections highlights the potential of targeting mTOR pathways therapeutically.
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Product protocols

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Target data

Serine/threonine protein kinase which is a central regulator of cellular metabolism, growth and survival in response to hormones, growth factors, nutrients, energy and stress signals (PubMed : 15467718, PubMed : 15485918, PubMed : 15545625, PubMed : 16221682, PubMed : 16915281, PubMed : 16962653, PubMed : 18046414, PubMed : 19440205, PubMed : 21659604). MTOR directly or indirectly regulates the phosphorylation of at least 800 proteins (PubMed : 15467718, PubMed : 15545625, PubMed : 16221682, PubMed : 16915281, PubMed : 16962653, PubMed : 18046414, PubMed : 19440205, PubMed : 21659604). Functions as part of 2 structurally and functionally distinct signaling complexes mTORC1 and mTORC2 (mTOR complex 1 and 2) (PubMed : 15467718, PubMed : 16962653, PubMed : 21659604). In response to nutrients, growth factors or amino acids, mTORC1 is recruited to the lysosome membrane and promotes protein, lipid and nucleotide synthesis by phosphorylating key regulators of mRNA translation and ribosome synthesis (PubMed : 15485918). This includes phosphorylation of EIF4EBP1 and release of its inhibition toward the elongation initiation factor 4E (eiF4E) (PubMed : 15485918). Moreover, phosphorylates and activates RPS6KB1 and RPS6KB2 that promote protein synthesis by modulating the activity of their downstream targets including ribosomal protein S6, eukaryotic translation initiation factor EIF4B, and the inhibitor of translation initiation PDCD4 (PubMed : 15485918). Stimulates the pyrimidine biosynthesis pathway, both by acute regulation through RPS6KB1-mediated phosphorylation of the biosynthetic enzyme CAD, and delayed regulation, through transcriptional enhancement of the pentose phosphate pathway which produces 5-phosphoribosyl-1-pyrophosphate (PRPP), an allosteric activator of CAD at a later step in synthesis, this function is dependent on the mTORC1 complex (By similarity). Regulates ribosome synthesis by activating RNA polymerase III-dependent transcription through phosphorylation and inhibition of MAF1 an RNA polymerase III-repressor (By similarity). Activates dormant ribosomes by mediating phosphorylation of SERBP1, leading to SERBP1 inactivation and reactivation of translation (By similarity). In parallel to protein synthesis, also regulates lipid synthesis through SREBF1/SREBP1 and LPIN1 (PubMed : 11792863). To maintain energy homeostasis mTORC1 may also regulate mitochondrial biogenesis through regulation of PPARGC1A (PubMed : 18046414). In the same time, mTORC1 inhibits catabolic pathways : negatively regulates autophagy through phosphorylation of ULK1 (PubMed : 21258367). Under nutrient sufficiency, phosphorylates ULK1 at 'Ser-758', disrupting the interaction with AMPK and preventing activation of ULK1 (PubMed : 21258367). Also prevents autophagy through phosphorylation of the autophagy inhibitor DAP (By similarity). Also prevents autophagy by phosphorylating RUBCNL/Pacer under nutrient-rich conditions (By similarity). Prevents autophagy by mediating phosphorylation of AMBRA1, thereby inhibiting AMBRA1 ability to mediate ubiquitination of ULK1 and interaction between AMBRA1 and PPP2CA (By similarity). mTORC1 exerts a feedback control on upstream growth factor signaling that includes phosphorylation and activation of GRB10 a INSR-dependent signaling suppressor (PubMed : 21659604). Among other potential targets mTORC1 may phosphorylate CLIP1 and regulate microtubules (By similarity). The mTORC1 complex is inhibited in response to starvation and amino acid depletion (By similarity). The non-canonical mTORC1 complex, which acts independently of RHEB, specifically mediates phosphorylation of MiT/TFE factors TFEB and TFE3 in the presence of nutrients, promoting their cytosolic retention and inactivation (PubMed : 27913603). Upon starvation or lysosomal stress, inhibition of mTORC1 induces dephosphorylation and nuclear translocation of TFEB and TFE3, promoting their transcription factor activity (PubMed : 27913603). The mTORC1 complex regulates pyroptosis in macrophages by promoting GSDMD oligomerization (PubMed : 34289345). MTOR phosphorylates RPTOR which in turn inhibits mTORC1 (PubMed : 19346248). As part of the mTORC2 complex MTOR may regulate other cellular processes including survival and organization of the cytoskeleton. mTORC2 plays a critical role in the phosphorylation at 'Ser-473' of AKT1, a pro-survival effector of phosphoinositide 3-kinase, facilitating its activation by PDK1. mTORC2 may regulate the actin cytoskeleton, through phosphorylation of PRKCA, PXN and activation of the Rho-type guanine nucleotide exchange factors RHOA and RAC1A or RAC1B. mTORC2 also regulates the phosphorylation of SGK1 at 'Ser-422' (By similarity). Regulates osteoclastogenesis by adjusting the expression of CEBPB isoforms (PubMed : 19440205). Plays an important regulatory role in the circadian clock function; regulates period length and rhythm amplitude of the suprachiasmatic nucleus (SCN) and liver clocks (PubMed : 29750810).
See full target information Mtor
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Publications (3)

Recent publications for all applications. Explore the full list and refine your search

BMC cancer 25:1102 PubMed40598035

2025

Basal metabolic rate shapes the development and progression of hepatocellular carcinoma.

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Species

Unspecified reactive species

Sebastian Maciak,Diana Sawicka,Irena Kasacka,Lech Chyczewski,Halina Car,Marek Konarzewski

Medicina (Kaunas, Lithuania) 60: PubMed39459469

2024

Targeting the Sirtuin-1/PPAR-Gamma Axis, RAGE/HMGB1/NF-κB Signaling, and the Mitochondrial Functions by Canagliflozin Augments the Protective Effects of Levodopa/Carbidopa in Rotenone-Induced Parkinson's Disease.

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Species

Unspecified reactive species

Mennatallah A Elkady,Ahmed M Kabel,Lamees M Dawood,Azza I Helal,Hany M Borg,Hanan Abdelmawgoud Atia,Nesreen M Sabry,Nouran M Moustafa,El-Shaimaa A Arafa,Shuruq E Alsufyani,Hany H Arab

Nutrients 15: PubMed36678201

2023

Branched-Chain Amino Acids and Di-Alanine Supplementation in Aged Mice: A Translational Study on Sarcopenia.

Applications

Unspecified application

Species

Unspecified reactive species

Paola Mantuano,Brigida Boccanegra,Gianluca Bianchini,Ornella Cappellari,Lisamaura Tulimiero,Elena Conte,Santa Cirmi,Francesca Sanarica,Michela De Bellis,Antonietta Mele,Antonella Liantonio,Marcello Allegretti,Andrea Aramini,Annamaria De Luca
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