Local and retrograde gene transfer into primate neuronal pathways via adeno-associated virus serotype 8 and 9.
about
Biology of adeno-associated viral vectors in the central nervous systemNeuroanatomy goes viral!Changing channels in pain and epilepsy: Exploiting ion channel gene therapy for disorders of neuronal hyperexcitabilityAdeno-associated virus serotypes 1, 8, and 9 share conserved mechanisms for anterograde and retrograde axonal transport.Analysis of transduction efficiency, tropism and axonal transport of AAV serotypes 1, 2, 5, 6, 8 and 9 in the mouse brain.Double Virus Vector Infection to the Prefrontal Network of the Macaque BrainA retrograde adeno-associated virus for collecting ribosome-bound mRNA from anatomically defined projection neurons.The non-human primate experimental glaucoma model.In vivo optogenetic tracing of functional corticocortical connections between motor forelimb areasRobust Long-term Transduction of Common Marmoset Neuromuscular Tissue With rAAV1 and rAAV9.Intraspinal AAV Injections Immediately Rostral to a Thoracic Spinal Cord Injury Site Efficiently Transduces Neurons in Spinal Cord and Brain.Enhancing the utility of adeno-associated virus gene transfer through inducible tissue-specific expression.Strategies for targeting primate neural circuits with viral vectors.Transgene expression in target-defined neuron populations mediated by retrograde infection with adeno-associated viral vectorsGlymphatic fluid transport controls paravascular clearance of AAV vectors from the brainAdeno-associated virus serotypes 9 and rh10 mediate strong neuronal transduction of the dog brain.Optogenetic investigation of neuropsychiatric diseases.Optogenetic manipulation of neural and non-neural functions.Gene delivery in tissue engineering and regenerative medicine.Application of viral vectors to the study of neural connectivities and neural circuits in the marmoset brainGenetic manipulation of specific neural circuits by use of a viral vector system.Advances in optogenetic and chemogenetic methods to study brain circuits in non-human primates.Optogenetic manipulation of neural circuits in awake marmosets.Pseudotyped Lentiviral Vectors for Retrograde Gene Delivery into Target Brain Regions.Adeno-Associated Viral Vectors Serotype 8 for Cell-Specific Delivery of Therapeutic Genes in the Central Nervous System.Transduction Profile of the Marmoset Central Nervous System Using Adeno-Associated Virus Serotype 9 Vectors.Two distinct layer-specific dynamics of cortical ensembles during learning of a motor task.Axonal and subcellular labelling using modified rabies viral vectors.Reward-timing-dependent bidirectional modulation of cortical microcircuits during optical single-neuron operant conditioning.Optogenetic Control of Neural Circuits in the Mongolian Gerbil.Development of an optogenetic toolkit for neural circuit dissection in squirrel monkeys.Locally induced neuronal synchrony precisely propagates to specific cortical areas without rhythm distortion.Modulation of Brain Function and Behavior by Focused Ultrasound
P2860
Q21129328-E7683E77-8BD4-4AD2-B771-2847076ED794Q26802140-E0823431-FCC3-48AA-A3DE-EB68309CA0A3Q28081164-992A73D2-F456-44AE-99C1-4CB4781FEAEAQ34063628-176DC870-71D7-46DB-A655-F29776D93A33Q35006292-31884ED9-9D73-4C25-BBFD-2A44FBE21A7EQ35699576-7B6D9C65-E9C3-42A5-9B83-101523F56EB9Q36197753-08722493-8F38-48DB-90BF-90B07CFAC8D2Q36236878-7C1349B8-3773-4372-BE41-83CB80DD2895Q36729523-8CAAA7A3-F5B6-4B90-A4F5-772603AFACD8Q36757156-6FF1F85D-F20A-4048-A4ED-F0B1F134919BQ37065567-78B41AD0-3DE9-447A-A985-E171583D7150Q37122371-75484FA2-B171-44F4-9E6B-ACA9B37518B0Q37127728-22E5EEFB-832A-48CA-AE8F-5306905E0F8CQ37179765-35215832-9407-4ED7-8FD1-64AA716FF27FQ37277317-43D4C90A-5AC4-483A-9879-E354FC9FA284Q37434391-D077A956-B397-4DA8-9EE4-30DC7C5132FEQ38045897-B1CA47E1-5535-4F20-A05A-0A3E072465D0Q38095490-F30C6B98-A6AF-4B58-83E9-671C4B9A57EBQ38306886-095B2729-365F-483E-9B03-0562456A9CD8Q38972892-DEBBB23F-13DC-4EDE-A301-86886CFEF9EBQ39069504-172FBD11-E4B6-4D4C-B3DD-BB6F73ECA02EQ39151291-1A01D685-5F62-4E08-8E3D-C27B7216AFE4Q39661733-D5E3E934-3E9B-40E7-A9C9-C5F5100DADA5Q40077169-0C19B9E8-0DB6-4545-9278-D84E5013BA5FQ40317656-86EBE816-028D-4AFE-B900-71A17410471DQ40906363-ED3717C6-B7AA-49AA-A927-D48FB64D43E9Q42215652-36F378A9-FD88-470D-B385-8468327CB73BQ42276697-B906224E-2708-4EC8-A3B1-29B4E5260099Q48449272-3F572581-489B-4ABB-BDFF-DED8C526FEF4Q54217659-939C144B-272D-4ABC-ABDE-4340976719BFQ54224376-92C5CFF3-9E2D-485D-B3D4-EB23C8BB89B6Q55262300-2D8EA41D-F40B-4D57-85FC-B39AF9646415Q58572994-4DFFF4B0-2C86-4478-831C-63E62F8A0A10
P2860
Local and retrograde gene transfer into primate neuronal pathways via adeno-associated virus serotype 8 and 9.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
Local and retrograde gene tran ...... ciated virus serotype 8 and 9.
@en
Local and retrograde gene tran ...... ciated virus serotype 8 and 9.
@nl
type
label
Local and retrograde gene tran ...... ciated virus serotype 8 and 9.
@en
Local and retrograde gene tran ...... ciated virus serotype 8 and 9.
@nl
prefLabel
Local and retrograde gene tran ...... ciated virus serotype 8 and 9.
@en
Local and retrograde gene tran ...... ciated virus serotype 8 and 9.
@nl
P2093
P1433
P1476
Local and retrograde gene tran ...... ociated virus serotype 8 and 9
@en
P2093
H Ishibashi
I Hasegawa
K Kawasaki
Y Masamizu
P304
P356
10.1016/J.NEUROSCIENCE.2011.06.080
P407
P577
2011-07-18T00:00:00Z