Cell Metabolism, Journal Year: 2020, Volume and Issue: 32(5), P. 767 - 785.e7
Published: Sept. 16, 2020
Language: Английский
Neuron, Journal Year: 2016, Volume and Issue: 90(3), P. 437 - 451
Published: May 1, 2016
Language: Английский
Citations
556
Neuron, Journal Year: 2019, Volume and Issue: 104(6), P. 1039 - 1055.e12
Published: Nov. 26, 2019
Language: Английский
Citations
529
Nature reviews. Neuroscience, Journal Year: 2018, Volume and Issue: 19(6), P. 323 - 337
Published: April 17, 2018
Language: Английский
Citations
510
Nature Communications, Journal Year: 2018, Volume and Issue: 9(1)
Published: July 11, 2018
Retinal ganglion cells (RGCs) convey the major output of information collected from eye to brain. Thirty subtypes RGCs have been identified date. Here, we analyze 6225 (average 5000 genes per cell) right and left eyes by single-cell RNA-seq classify them into 40 using clustering algorithms. We identify additional markers, as well transcription factors predicted cooperate in specifying RGC subtypes. Zic1, a marker eye-enriched subtype, is validated immunostaining situ. Runx1 Fst, markers other subtypes, are purified fluorescent situ hybridization (FISH) immunostaining. show extent gene expression variability needed for subtype segregation, hierarchy diversification cell-type population Finally, present website comparing
Language: Английский
Citations
390
Neuron, Journal Year: 2018, Volume and Issue: 97(2), P. 313 - 325.e6
Published: Jan. 1, 2018
Language: Английский
Citations
352
Cell, Journal Year: 2016, Volume and Issue: 164(1-2), P. 219 - 232
Published: Jan. 1, 2016
Language: Английский
Citations
240
Nature, Journal Year: 2020, Volume and Issue: 581(7806), P. 77 - 82
Published: April 15, 2020
Language: Английский
Citations
211
Experimental Neurology, Journal Year: 2015, Volume and Issue: 287, P. 365 - 373
Published: Dec. 31, 2015
Language: Английский
Citations
206
Molecular Neurodegeneration, Journal Year: 2022, Volume and Issue: 17(1)
Published: March 21, 2022
Across neurodegenerative diseases, common mechanisms may reveal novel therapeutic targets based on neuronal protection, repair, or regeneration, independent of etiology site disease pathology. To address these and discuss emerging treatments, in April, 2021, Glaucoma Research Foundation, BrightFocus the Melza M. Frank Theodore Barr Foundation collaborated to bring together key opinion leaders experts field for a virtual meeting titled "Solving Neurodegeneration". This "think-tank" style focused uncovering mechanistic roots promising new catalyzed by goal finding treatments glaucoma, world's leading cause irreversible blindness interest three hosting foundations. Glaucoma, which causes vision loss through degeneration optic nerve, likely shares early cellular molecular events with other diseases central nervous system. Here we major areas overlap between system: neuroinflammation, bioenergetics metabolism, genetic contributions, neurovascular interactions. We summarize important discussion points emphasis research that are most innovative treatment neurodegeneration yet require further development. The is highlighted provides unique opportunities collaboration will lead efforts preventing ultimately loss.
Language: Английский
Citations
196
Annual Review of Cell and Developmental Biology, Journal Year: 2018, Volume and Issue: 34(1), P. 495 - 521
Published: July 25, 2018
After an injury in the adult mammalian central nervous system (CNS), lesioned axons fail to regenerate. This failure regenerate contrasts with axons' remarkable potential grow during embryonic development and after peripheral (PNS). Several intracellular mechanisms-including cytoskeletal dynamics, axonal transport trafficking, signaling transcription of regenerative programs, epigenetic modifications-control axon regeneration. In this review, we describe how manipulation intrinsic mechanisms elicits a response different organisms strategies are implemented form basis future treatment CNS injury.
Language: Английский
Citations
189