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Antibodies to mTOR Proteins


mTOR (mammalian target of rapamycin) is a member of the ATM (ataxia telangiectasia mutated) -related family of kinases.
Studies of mTOR have demonstrated that it performs an essential role in integrating cellular signals received from growth factors and from the detection of nutrient, stress, and energy levels in the cell.

The integration of signals by mTOR functions to control cell growth by influencing cellular processes such as translation initiation, ribosome biogenesis, and transcription factor localization. mTOR is an evolutionarily conserved protein originally identified as the direct target of the cell cycle arresting activity of the immunosuppressive drug, rapamycin. Through its interaction with FKBP12, rapamycin is able to exert its effects by binding the mTOR Complex1 (mTORC1) and inhibiting the mTOR signaling pathway.

In response to growth and survival signals, mTOR has been shown to directly phosphorylate the ribosomal protein S6 kinase p70 (S6k), the translational inhibitors 4E-BP1 and 4E-BP2, and PHAS; therefore mTOR exerts many of its effects via the control of protein translation.

Biochemical characterization of the mTORC1 complex has identified the mTOR interacting proteins Raptor and Lst8p. A rapamycin-insensitive mTOR complex, mTORC2 has also been identified. This complex does not possess Raptor but another protein termed Rictor (rapamycin insensitive companion of TOR). In addition to Rictor, the mTORC2 complex contains mLST8, mSin1, and protor 1. This complex appears to play a role in the regulation of cytoskeletal organization and has been shown to be the phosphoinositide-dependent protein kinase-2 (PDK2) responsible for AKT activation.

Two negative regulators of mTOR have been identified. The TSC1-TSC2 complex is a heterodimer of the TSC1 and TSC2 gene products responsible for the genetic disorder tuberous sclerosis. The identification of mTOR and the study of its function in yeast, humans, and drosophila have defined the mTOR pathway as a complex central regulator of cell growth. Future studies that focus on the convergence of mTOR signaling with other growth and survival pathways will provide a framework for targeting proteins in the mTOR and related pathways as anti-cancer therapies.

mTOR Product Focus (pdf, 198 kB)

Bethyl Laboratories Portfolio of Antibodies to mTOR Pathway Proteins

4EBP1 Antibodies
AKT1 Antibodies
AKT2 Antibodies NEW!
AktS1/PRAS40 Antibodies NEW!
AMPK alpha 1 Antibodies
AMPK alpha 2 Antibodies
BRAF Antibodies NEW!
eIF4B Antibodies
eIF4E Antibodies
ERK1 Antibodies
ERK2 Antibodies
GbetaL Antibodies
HIF1-alpha Antibodies
IRS2 Antibodies
MEK1 Antibodies NEW!
MEK2 Antibodies NEW!
mTOR Antibodies
p70S6K Antibodies
PDK1 Antibodies
PPP5C Antibodies
PTEN Antibodies NEW!
Raptor Antibodies
RAF1/c-RAF Antibodies NEW!
REDD1 Antibodies NEW!
Rictor Antibodies
RPS6 Antibodies
S6K2 Antibodies
Sin1 Antibodies
Tip41 Antibodies
TSC1 Antibodies
TSC2 Antibodies
Phosphospecific and Modification State Specific Antibodies ...

Antibodies from the Bethyl RanchPolyclonal Antibodies Validated for IHC and ICCAntibodies Relevant for Ubiquitin Research

Immunoglobulin Class/Fc Specific Secondary AntibodiesF(ab')2 Fragment AntibodiesAntibodies to Proteins in the Anaphase-Promoting Complex/Cyclosome alle Treffer anzeigen (57 INFOS)

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