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GoPubMed Proteins lists recent and important papers and reviews for proteins. Page last changed on 19 Dec 2016.

Troponin T type 1

TnTs, Fang-2
human homolog plays a role in the calcium sensitivity of contraction in skeletal muscle [RGD, Feb 2006] (from NCBI)
Top mentioned proteins: cTnT, CAN, V1a, FasT, Actin
Papers on TnTs
Exosomes and nanotubes: Control of immune cell communication.
Cox et al., United States. In Int J Biochem Cell Biol, Feb 2016
Exosomes and tunneling nanotubes (TNTs) are two means of communication used by immune cells that contribute to immune functions.
Potential Role of the Formation of Tunneling Nanotubes in HIV-1 Spread in Macrophages.
Suzu et al., Kumamoto, Japan. In J Immunol, Feb 2016
UNASSIGNED: Tunneling nanotubes (TNTs), the long membrane extensions connecting distant cells, have emerged as a novel form of cell-to-cell communication.
Bone marrow‑derived mesenchymal stem cells rescue injured H9c2 cells via transferring intact mitochondria through tunneling nanotubes in an in vitro simulated ischemia/reperfusion model.
Zhang et al., Shanghai, China. In Mol Med Report, Jan 2016
In conclusion, the anti‑apoptotic ability of BM‑MSCs may be partially attributed to the recovery of mitochondrial dysfunction in SI/R, and the formation of TNTs appears to be involved in this action of mitochondrial transfer between adjacent cells.
Nanodiamond-Mediated Intercellular Transport of Proteins through Membrane Tunneling Nanotubes.
Chang et al., Taipei, Taiwan. In Small, Dec 2015
Recently discovered tunneling nanotubes (TNTs) are capable of creating intercellular communication pathways through which transport of proteins and other cytoplasmic components occurs.
B-cell precursor acute lymphoblastic leukemia cells use tunneling nanotubes to orchestrate their microenvironment.
den Boer et al., Rotterdam, Netherlands. In Blood, Dec 2015
Tunneling nanotubes (TNTs) have been described as a novel mode of intercellular communication, but their presence and importance in the leukemic niche are currently unknown.
Intercellular transfer of transferrin receptor by a contact-, Rab8-dependent mechanism involving tunneling nanotubes.
Gerdes et al., Bergen, Norway. In Faseb J, Nov 2015
We examined the intercellular transfer of organelles and proteins in vitro and in vivo and the role of tunneling nanotubes (TNTs) in this process.
Exposure to ALS-FTD-CSF generates TDP-43 aggregates in glioblastoma cells through exosomes and TNTs-like structure.
Wang et al., Zhengzhou, China. In Oncotarget, Oct 2015
We further demonstrated that exposure to ALS-FTD-CSF induced the generations of tunneling nanotubes (TNTs)-like structure and exosomes at different stages, which mediated the propagation of TDP-43 aggregates in the cultured U251 cells.
Rescue of Brain Function Using Tunneling Nanotubes Between Neural Stem Cells and Brain Microvascular Endothelial Cells.
Guan et al., Shanghai, China. In Mol Neurobiol, Jul 2015
In conclusion, our findings provide the first evidence that TNTs exist between NSCs and BMECs and that regulation of TNT formation alters cell function.
Prion aggregates transfer through tunneling nanotubes in endocytic vesicles.
Zurzolo et al., Paris, France. In Prion, 2014
We have previously identified tunneling nanotubes (TNTs) as one mechanism by which PrP(Sc) can move between cells.
Optimizing stem cell functions and antibacterial properties of TiO2 nanotubes incorporated with ZnO nanoparticles: experiments and modeling.
Webster et al., Beijing, China. In Int J Nanomedicine, 2014
To optimize mesenchymal stem cell differentiation and antibacterial properties of titanium (Ti), nano-sized zinc oxide (ZnO) particles with tunable concentrations were incorporated into TiO2 nanotubes (TNTs) using a facile hydrothermal strategy.
Proliferation of preosteoblasts on TiO2 nanotubes is FAK/RhoA related.
Ko et al., Chongqing, China. In Rsc Adv, 2014
In this study the topological effects of TiO2 nanotubes (TNTs) on aspects of preosteoblast behavior was investigated.
Extracellular-vesicle type of volume transmission and tunnelling-nanotube type of wiring transmission add a new dimension to brain neuro-glial networks.
Fuxe et al., Venice, Italy. In Philos Trans R Soc Lond B Biol Sci, 2014
Gerdes and co-workers proposed the existence of a novel type of WT based on TNTs, which are straight transcellular channels leading to the formation in vitro of syncytial cellular networks found also in neuronal and glial cultures.
A new hypothesis of pathogenesis based on the divorce between mitochondria and their host cells: possible relevance for Alzheimer's disease.
Genedani et al., Venice, Italy. In Curr Alzheimer Res, 2010
On the basis of not only the endosymbiotic theory of eukaryotic cell organization and evolution but also of observations of transcellular communication via Tunneling NanoTubes (TNTs), the hypothesis is put forward that when mitochondria, which were once independently living prokaryote-like organisms, are subjected to detrimental genetic, toxic, or environmental conditions, including age-related endogenous factors, they can regress towards their original independent state.
M-Sec promotes membrane nanotube formation by interacting with Ral and the exocyst complex.
Ohno et al., Japan. In Nat Cell Biol, 2009
These long membrane tethers, termed tunneling nanotubes (TNTs), form an intercellular conduit and have been shown to enable the transport of various cellular components and signals.
Prions hijack tunnelling nanotubes for intercellular spread.
Zurzolo et al., Paris, France. In Nat Cell Biol, 2009
Tunnelling nanotubes (TNTs) have been identified between cells, both in vitro and in vivo, and may represent a conserved means of cell-to-cell communication.
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