We narrowed to 747 results for: mec 1 cells

pCMV(MinDis)-iCyt_BrEt_SnFR_PM

• Plasmid: #177747
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: pCMV(MinDis)-iCyt_BrEt_SnFR_PM
• Expression: Mammalian
• Promoter: hCMV
• Available since: Feb. 4, 2022
• Availability: Academic Institutions and Nonprofits only

_pCMV(MinDis)-iCyt_F_SnFR_PM

• Plasmid: #177745
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: _pCMV(MinDis)-iCyt_F_SnFR_PM
• Expression: Mammalian
• Promoter: hCMV
• Available since: Feb. 4, 2022
• Availability: Academic Institutions and Nonprofits only

pCMV(MinDis)-iCytSnFR_PM

• Plasmid: #177743
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: pCMV(MinDis)-iCytSnFR_PM
• Expression: Mammalian
• Promoter: hCMV
• Available since: Feb. 4, 2022
• Availability: Academic Institutions and Nonprofits only

pCMV(MinDis)-iCyt_BrEt_SnFR_ER

• Plasmid: #177746
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: pCMV(MinDis)-iCyt_BrEt_SnFR_ER
• Expression: Mammalian
• Promoter: hCMV
• Available since: Dec. 6, 2021
• Availability: Academic Institutions and Nonprofits only

_pCMV(MinDis)-iCyt_F_SnFR_ER

• Plasmid: #177744
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: _pCMV(MinDis)-iCyt_F_SnFR_ER
• Expression: Mammalian
• Promoter: hCMV
• Available since: Dec. 6, 2021
• Availability: Academic Institutions and Nonprofits only

pCMV(MinDis)-iCytSnFR_ER

• Plasmid: #177742
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: pCMV(MinDis)-iCytSnFR_ER
• Expression: Mammalian
• Promoter: hCMV
• Available since: Dec. 6, 2021
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn iCyt_BrEt_SnFR_PM

• Plasmid: #177757
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: pAAV9-hSyn iCyt_BrEt_SnFR_PM
• Use: AAV
• Promoter: hSyn
• Available since: Nov. 30, 2021
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn-iDianiSnFR_PM

• Plasmid: #177759
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: pAAV9-hSyn-iDianiSnFR_PM
• Use: AAV
• Promoter: hSyn
• Available since: Feb. 4, 2022
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn-iDianiSnFR_ER

• Plasmid: #177758
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: pAAV9-hSyn-iDianiSnFR_ER
• Use: AAV
• Promoter: hSyn
• Available since: Feb. 4, 2022
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn-iCyt_F_SnFR_PM

• Plasmid: #177755
• Purpose: Develop a family of genetically encoded fluorescent biosensors for nicotinic agonists, termed iDrugSnFRs, thus enabling optical subcellular pharmacokinetics for nicotinic agonists
• Depositor: Henry Lester
• Article: Nichols et al eLife. 2022 Jan 4;11. pii: 74648. doi: 1
• Insert: pAAV9-hSyn-iCyt_F_SnFR_PM
• Use: AAV
• Promoter: hSyn
• Available since: Feb. 4, 2022
• Availability: Academic Institutions and Nonprofits only