Random insertion of split-cans of the fluorescent protein venus into Shaker channels yields voltage sensitive probes with improved membrane localization in mammalian cells.
about
Design and development of genetically encoded fluorescent sensors to monitor intracellular chemical and physical parametersA fluorescent, genetically-encoded voltage probe capable of resolving action potentialsSingle action potentials and subthreshold electrical events imaged in neurons with a fluorescent protein voltage probe.Directed Evolution of Key Residues in Fluorescent Protein Inverses the Polarity of Voltage Sensitivity in the Genetically Encoded Indicator ArcLight.Fluorescent protein voltage probes derived from ArcLight that respond to membrane voltage changes with fast kinetics.Mechanistic studies of the genetically encoded fluorescent protein voltage probe ArcLight.Two-photon scanning microscopy of in vivo sensory responses of cortical neurons genetically encoded with a fluorescent voltage sensor in ratGenetically engineered fluorescent voltage reportersOptogenetic reporters.Probing neuronal activities with genetically encoded optical indicators: from a historical to a forward-looking perspective.Route to genetically targeted optical electrophysiology: development and applications of voltage-sensitive fluorescent proteins.Personal recollections: regarding the pioneer days of optical recording of membrane potential using voltage-sensitive dyes.Red fluorescent proteins (RFPs) and RFP-based biosensors for neuronal imaging applications.
P2860
Q26747386-C088BDD3-C409-4878-BAC0-29BE2E4AFEFCQ27322955-2A1D1F7A-DD89-4560-BD9C-3C3EC3D4DDC3Q34298285-DC85ADD2-8D6C-4462-9357-E0CF9A871275Q34548470-DFA99B0C-CFC8-40B2-82FC-752898AAC996Q35060501-43D5750E-FC9D-4E7C-B9B7-A167AD541279Q35445386-69A38244-F243-4E33-9EB4-D0BE4AAF8865Q35846011-7267327D-ACC2-4FC3-9AA5-6BE39977F5C9Q38034965-DD737031-F5B6-43AA-B261-5E9EF8EBB5F2Q38057763-383AEA57-FD12-443C-AD16-3A1EB0ADE16CQ38070101-0EFD505A-4719-4FA1-B61A-CC7738279F0FQ40289146-F5645530-A0DC-46D1-9231-DE19D42482E4Q41534658-A18A33C1-F6DB-4E26-A4BB-9B802232AC95Q42077810-5F9B066B-16FD-4E3F-A36C-4420726B028D
P2860
Random insertion of split-cans of the fluorescent protein venus into Shaker channels yields voltage sensitive probes with improved membrane localization in mammalian cells.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Random insertion of split-cans ...... calization in mammalian cells.
@en
Random insertion of split-cans ...... calization in mammalian cells.
@nl
type
label
Random insertion of split-cans ...... calization in mammalian cells.
@en
Random insertion of split-cans ...... calization in mammalian cells.
@nl
prefLabel
Random insertion of split-cans ...... calization in mammalian cells.
@en
Random insertion of split-cans ...... calization in mammalian cells.
@nl
P2093
P2860
P1476
Random insertion of split-cans ...... ocalization in mammalian cells
@en
P2093
Bradley Baker
Lawrence Cohen
Robbie Mealer
Thomas Hughes
P2860
P356
10.1016/J.JNEUMETH.2011.03.028
P577
2011-04-08T00:00:00Z