We narrowed to 23,150 results for: Sele

pnYC-NpH-Hs4EHP_52-234opt_AE

• Plasmid: #148566
• Purpose: Bacterial Expression of Hs4EHP_52-234opt
• Depositor: Elisa Izaurralde
• Article: Peter et al Genes Dev. 2017 Jun 1;31(11):1147-1161.
• Insert: Hs4EHP_52-234opt (EIF4E2 Human)
• Expression: Bacterial
• Available Since: March 16, 2023
• Availability: Academic Institutions and Nonprofits only

pnEA-NpM-HsGIGYF1_33-52-GB1_AE

• Plasmid: #148552
• Purpose: Bacterial Expression of HsGIGYF1_33-52
• Depositor: Elisa Izaurralde
• Article: Peter et al Genes Dev. 2017 Jun 1;31(11):1147-1161.
• Insert: HsGIGYF1_33-52 (GIGYF1 Human)
• Expression: Bacterial
• Available Since: March 16, 2023
• Availability: Academic Institutions and Nonprofits only

pnEA-NpM-HsGIGYF1_33-71_AE

• Plasmid: #148553
• Purpose: Bacterial Expression of HsGIGYF1_33-71
• Depositor: Elisa Izaurralde
• Article: Peter et al Genes Dev. 2017 Jun 1;31(11):1147-1161.
• Insert: HsGIGYF1_33-71 (GIGYF1 Human)
• Expression: Bacterial
• Available Since: March 16, 2023
• Availability: Academic Institutions and Nonprofits only

pnEA-NpM-HsGIGYF1_33-71-GB1_AE

• Plasmid: #148554
• Purpose: Bacterial Expression of HsGIGYF1_33-71
• Depositor: Elisa Izaurralde
• Article: Peter et al Genes Dev. 2017 Jun 1;31(11):1147-1161.
• Insert: HsGIGYF1_33-71 (GIGYF1 Human)
• Expression: Bacterial
• Available Since: March 16, 2023
• Availability: Academic Institutions and Nonprofits only

pnEA-NpM-HsGIGYF1_33-103-E44AE45FQ87A_AE

• Plasmid: #148555
• Purpose: Bacterial Expression of HsGIGYF1_33-103-E44AE45FQ87A
• Depositor: Elisa Izaurralde
• Article: Peter et al Genes Dev. 2017 Jun 1;31(11):1147-1161.
• Insert: HsGIGYF1_33-103-E44AE45FQ87A (GIGYF1 Human)
• Expression: Bacterial
• Available Since: March 16, 2023
• Availability: Academic Institutions and Nonprofits only

pnEA-NpM-HsGIGYF1_33-103-GB1_AE

• Plasmid: #148557
• Purpose: Bacterial Expression of HsGIGYF1_33-103
• Depositor: Elisa Izaurralde
• Article: Peter et al Genes Dev. 2017 Jun 1;31(11):1147-1161.
• Insert: HsGIGYF1_33-103 (GIGYF1 Human)
• Expression: Bacterial
• Available Since: March 16, 2023
• Availability: Academic Institutions and Nonprofits only

pAAV-CAGGS-Flex/3'USS(103)-GFP

• Plasmid: #197890
• Purpose: Can be used to generate AAV virus that will express GFP in the presence of Cre including the shortage of a unilateral spacer sequence(USS)
• Depositor: Kazuto Kobayashi
• Article: Matsushita et al Cell Rep Methods. 2023 Jan 18;3(2):10039
• Insert: GFP
• Use: AAV
• Mutation: N/A
• Promoter: CAG
• Available Since: March 15, 2023
• Availability: Academic Institutions and Nonprofits only

pAAV-CAGGS-Flex/3'USS(553)-GFP

• Plasmid: #197888
• Purpose: Can be used to generate AAV virus that will express GFP in the presence of Cre including the shortage of a unilateral spacer sequence(USS)
• Depositor: Kazuto Kobayashi
• Article: Matsushita et al Cell Rep Methods. 2023 Jan 18;3(2):10039
• Insert: GFP
• Use: AAV
• Mutation: N/A
• Promoter: CAG
• Available Since: March 15, 2023
• Availability: Academic Institutions and Nonprofits only

pAAV-CAGGS-Flex/3'USS(285)-GFP

• Plasmid: #197889
• Purpose: Can be used to generate AAV virus that will express GFP in the presence of Cre including the shortage of a unilateral spacer sequence(USS)
• Depositor: Kazuto Kobayashi
• Article: Matsushita et al Cell Rep Methods. 2023 Jan 18;3(2):10039
• Insert: GFP
• Use: AAV
• Mutation: N/A
• Promoter: CAG
• Available Since: March 15, 2023
• Availability: Academic Institutions and Nonprofits only

pCMV(MinDis)-iEscSnFR_PM

• Plasmid: #182813
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iEscSnFR_PM
• Expression: Mammalian
• Promoter: hCMV
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pCMV(MinDis)-iEscSnFR_cyto

• Plasmid: #182814
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iEscSnFR_cyto
• Expression: Mammalian
• Promoter: hCMV
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pCMV(MinDis)-iFluoxSnFR_ER

• Plasmid: #182815
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iFluoxSnFR_ER
• Expression: Mammalian
• Promoter: hCMV
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pCMV(MinDis)-iFluoxSnFR_PM

• Plasmid: #182816
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iFluoxSnFR_PM
• Expression: Mammalian
• Promoter: hCMV
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pCMV(MinDis)-iFluoxSnFR_cyto

• Plasmid: #182817
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iFluoxSnFR_cyto
• Expression: Mammalian
• Promoter: hCMV
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn-iEscSnFR_ER

• Plasmid: #182818
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iEscSnFR_ER
• Use: AAV
• Promoter: hSyn
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn-iEscSnFR_PM

• Plasmid: #182819
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iEscSnFR_PM
• Use: AAV
• Promoter: hSyn
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn-iEscSnFR_cyto

• Plasmid: #182820
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iEscSnFR_cyto
• Use: AAV
• Promoter: hSyn
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn-iFluoxSnFR_ER

• Plasmid: #182821
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iFluoxSnFR_ER
• Use: AAV
• Promoter: hSyn
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn-iFluoxSnFR_PM

• Plasmid: #182822
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iFluoxSnFR_PM
• Use: AAV
• Promoter: hSyn
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only

pAAV9-hSyn-iFluoxSnFR_cyto

• Plasmid: #182823
• 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 J Neurosci. 2023 Mar 2:JN-RM-1519-22. do
• Insert: iFluoxSnFR_cyto
• Use: AAV
• Promoter: hSyn
• Available Since: Jan. 18, 2023
• Availability: Academic Institutions and Nonprofits only