Top Tweets for #IntercellularSignaling
Excited to share a new pre-print from our lab about a new way to examine intercellular signaling in the mouse bone marrow. Congrats to Zach and all the other authors! https://t.co/uAAOXMjjLe #USCstemcell #USCksom #USCViterbi #USCPIBBS #intercellularsignaling #hematopoiesis
Fusion pore flux controls the rise-times of quantal synaptic responses, say Meyer B. Jackson, Chung-Wei Chiang, and Jinbo Cheng @UWMadison: https://t.co/avVkfWoXB3
#ComputationalBiology #Biophysics #CellularPhysiology #IntercellularSignaling

In this @JGenPhysiol article, @_TomLongden and Jon Lederer @UMBaltimore develop a novel electro-metabolic signaling hypothesis which connects metabolic demand to energy supply throughout the body. https://t.co/P1yg4iI9pF
#IntercellularSignaling #SignalTransduction

In this article @_TomLongden and Jon Lederer @UMBaltimore develop a novel electro-metabolic signaling hypothesis which connects metabolic demand to energy supply throughout the body. https://t.co/pJ3tVJHNwV
#IntercellularSignaling #SignalTransduction #SystemsPhysiology

Conceiving synaptic vesicle priming as a dynamic reversible process opens up new interpretations of data on neurotransmitter release. A new Review from Erwin Neher @mpi_nat: https://t.co/NYwrYxFuV3
#CellularPhysiology #IntercellularSignaling #MolecularPhysiology #neuroscience

D-type K+ current rules the function of electrically coupled neurons in a species-specific fashion, say Antonella Dapino @neuronitas_, Federico Davoine & Sebastian Curti @sebastian_curti @Udelaruy: https://t.co/RA9j2Vnhd5
#CellularPhysiology #IntercellularSignaling #IonChannels

TransitID offers a powerful approach for distinguishing #protein populations based on compartment or cell type of origin. @CellPressNews #Phenomics #IntercellularSignaling #proteomics #labeling

Graphical summary of the suggested role of MG23 in cardiovascular function. In this review, @AmyDorward, Stewart and @SamJPitt discuss the role of Zn2+ and zinc transporters in regulating cellular Ca2+ dynamics in cardiac muscle. https://t.co/4HuWVNnRag
#IntercellularSignaling

In this review, @AmyDorward, Stewart, and @SamJPitt @univofstandrews discuss the role of Zn2+ and zinc transporters in regulating cellular Ca2+ dynamics in cardiac muscle. https://t.co/4HuWVNnRag
#IntercellularSignaling #Pathophysiology #MolecularPhysiology #CellularPhysiology

Real-time observation of functional specialization among phosphorylation sites in CFTR. A new study from Daniel Infield, Christopher Ahern and colleagues @IowaMed: https://t.co/OG16JLrnlP
#IonChannels #CellBiology #SignalTransduction #IntercellularSignaling #Biophysics

Ion channel regulation of gut immunity. A new review from Jing Feng, Zili Xie, and Hongzhen Hu @WUSTLmed: https://t.co/on7Ee2atvE
#CellularPhysiology #MolecularPhysiology #IntercellularSignaling #SignalTransduction

New Review in @JGenPhysiol: Feng, Xie & Hu @WUSTLmed discuss ion channel expression and function in immune cells, residential non-immune cells and neuroimmune interactions in the gut. https://t.co/BcnQGAPSKs
#CellularPhysiology #MolecularPhysiology #IntercellularSignaling

New Review: Feng, Xie & Hu @WUSTLmed discuss ion channel expression and function in immune cells, residential non-immune cells and neuroimmune interactions in the gut. https://t.co/on7Ee2atvE
#CellularPhysiology #MolecularPhysiology #IntercellularSignaling #SignalTransduction

William E. McIntire (@BillGproteinMac) @MedicineUVA proposes a model in which initial interactions between Gβγ and GPCR prime the receptor for subsequent interactions with Gα. https://t.co/PFFMmSG5Ju
#SignalTransduction #MolecularPhysiology #IntercellularSignaling

A model for how Gβγ couples Gα to GPCR. A new Hypothesis from William E. McIntire (@BillGproteinMac) @MedicineUVA: https://t.co/PFFMmSG5Ju
#SignalTransduction #MolecularPhysiology #IntercellularSignaling

Image shows intercellular cleft conductivity and tissue model with ID nanodomains. @moise_nick @SHWeinbergLab and colleagues show that intercalated disk nanoscale structure regulates cardiac conduction. https://t.co/oxaeKoYfpz
#Cellularphysiology #Intercellularsignaling

Dynein regulates Kv7.4 channel trafficking from the cell membrane, say Jennifer van der Horst (@vdHorstJennifer), Thomas A. Jepps (@tajepps) and colleagues. https://t.co/cURIdR9uhH
#MembraneTransport #IntercellularSignaling #CellularPhysiology #Myofilament

van der Horst, @tajepps et al. show that #dynein, a #microtubule motor protein, carries the voltage-gated potassium channel Kv7.4 away from the cell membrane in vascular smooth muscle cells, thereby reducing its functional impact https://t.co/cURIdR9uhH
#IntercellularSignaling

Her work on #mesenchymalstromalcells and their secreted #extracellularvesicles/ #exosomes as vectors of #intercellularsignaling has been translated to the first in #humanclinicaltrial for the treatment of #bronchopulmonarydysplasia - @BostonChildrens https://t.co/oYOCaHmVsR
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