Gulcin Pekkurnaz

Neurobiology Children's Hospital Boston, Harvard Medical School, Boston, MA, United States 
"Gulcin Pekkurnaz"
Mean distance: 14.35 (cluster 31)
BETA: Related publications


You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect.

Basu H, Pekkurnaz G, Falk J, et al. (2021) FHL2 anchors mitochondria to actin and adapts mitochondrial dynamics to glucose supply. The Journal of Cell Biology. 220
Fang L, Monroe F, Novak SW, et al. (2021) Deep learning-based point-scanning super-resolution imaging. Nature Methods
Basu H, Ding L, Pekkurnaz G, et al. (2020) Kymolyzer, a Semi-Autonomous Kymography Tool to Analyze Intracellular Motility. Current Protocols in Cell Biology. 87: e107
Chang C, Ralowicz A, Kegawa Y, et al. (2020) Characterization of Small Objects in Homogenates of the Squid Optic Lobe Biophysical Journal. 118
Rossi MJ, Pekkurnaz G. (2019) Powerhouse of the mind: mitochondrial plasticity at the synapse. Current Opinion in Neurobiology. 57: 149-155
Agrawal A, Pekkurnaz G, Koslover EF. (2018) Spatial control of neuronal metabolism through glucose-mediated mitochondrial transport regulation. Elife. 7
Yu SB, Pekkurnaz G. (2018) Mechanisms Orchestrating Mitochondrial Dynamics for Energy Homeostasis. Journal of Molecular Biology
Agrawal A, Pekkurnaz G, Koslover EF. (2018) Author response: Spatial control of neuronal metabolism through glucose-mediated mitochondrial transport regulation Elife
Cartoni R, Pekkurnaz G, Wang C, et al. (2017) A high mitochondrial transport rate characterizes CNS neurons with high axonal regeneration capacity. Plos One. 12: e0184672
Pekkurnaz G, Trinidad JC, Wang X, et al. (2014) Glucose regulates mitochondrial motility via Milton modification by O-GlcNAc transferase. Cell. 158: 54-68
See more...