Ngā hua rapu - Jayashree Chadchankar
- E whakaatu ana i te 1 - 4 hua o te 4
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1
Inactive USP14 and inactive UCHL5 cause accumulation of distinct ubiquitinated proteins in mammalian cells mā Jayashree Chadchankar, Victoria Korboukh, P. Doig, Steve Jacobsen, Nicholas J. Brandon, Stephen J. Moss, Qi Wang
I whakaputaina 2018Pré-impressão -
2
Metabotropic, but not allosteric, effects of neurosteroids on GABAergic inhibition depend on the phosphorylation of GABAA receptors mā Manasa L. Parakala, Yihui Zhang, Amit Modgil, Jayashree Chadchankar, Thuy N. Vien, Michael A. Ackley, James Doherty, Paul Davies, Stephen J. Moss
I whakaputaina 2019Artigo -
3
Tonic Activation of GluN2C/GluN2D-Containing NMDA Receptors by Ambient Glutamate Facilitates Cortical Interneuron Maturation mā Elizabeth Hanson, Moritz Armbruster, Lauren A. Lau, Mary Sommer, Zin‐Juan Klaft, Sharon A. Swanger, Stephen F. Traynelis, Stephen J. Moss, Farzad Noubary, Jayashree Chadchankar, Chris G. Dulla
I whakaputaina 2019Artigo -
4
Deficits in the activity of presynaptic γ-aminobutyric acid type B receptors contribute to altered neuronal excitability in fragile X syndrome mā Ji-Yong Kang, Jayashree Chadchankar, Thuy N. Vien, Michelle I. Mighdoll, Thomas M. Hyde, Robert J. Mather, Tarek Z. Deeb, Menelas N. Pangalos, Nicholas J. Brandon, John Dunlop, Stephen J. Moss
I whakaputaina 2017Artigo
Ngā utauta rapu:
Ngā marau whai pānga
Biochemistry
Biology
Cell biology
Chemistry
Neuroscience
Receptor
GABAergic
Glutamate receptor
Allopregnanolone
Allosteric modulator
Allosteric regulation
Aminobutyric acid
Cysteine protease
Deubiquitinating enzyme
Enzyme
GABAA receptor
Gene
HEK 293 cells
Immunoprecipitation
Inhibitory postsynaptic potential
Interneuron
Metabotropic receptor
NMDA receptor
Neuroactive steroid
Parvalbumin
Pharmacology
Phosphorylation
Protease
Proteasome
Protein degradation