Study ID,Study,Experiment Name,Experiment Notes,Strain Ont ID,Strain,Sex,Age,# of Animals,Sample Notes,Clinical Measurement Ont ID,Phenotype,Formula,Clinical Measurement Notes,Average Type,Value,Units,SEM,SD,Method Ont ID,Method,Method Site,Method Duration,Method Notes,Post Insult Type,Post Insult Time Value,Post Insult Time Unit,Conditions,Record ID,Condition 1a,Condition 1b,Condition 2,Condition 4 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",photoreceptor inner segment morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,51 days,5,,CMO:0003669,photoreceptor inner segment thickness,,superior hemisphere - photoreceptor IS,,8.1,um,0.4,0.8944,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,35,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108711,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",photoreceptor inner segment morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,5,,CMO:0003669,photoreceptor inner segment thickness,,superior hemisphere - photoreceptor IS,,1.8,um,0.4,0.8944,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108715,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",photoreceptor inner segment morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,87 days,5,,CMO:0003669,photoreceptor inner segment thickness,,superior hemisphere - photoreceptor IS,,1.5,um,0.4,0.8944,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,71,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108723,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",photoreceptor inner segment morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,4,,CMO:0003669,photoreceptor inner segment thickness,,superior hemisphere,,8.3,um,1.7,3.4,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,108744,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",photoreceptor inner segment morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,4,,CMO:0003669,photoreceptor inner segment thickness,,superior hemisphere,,5.2,um,1.2,2.4,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108745,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal outer nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,51 days,5,,CMO:0003086,retinal outer nuclear layer thickness,,superior hemisphere,,27.7,um,1.1,2.4597,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,35,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108709,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal outer nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,5,,CMO:0003086,retinal outer nuclear layer thickness,,superior hemisphere,,9.4,um,1.0,2.2361,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108717,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal outer nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,87 days,5,,CMO:0003086,retinal outer nuclear layer thickness,,superior hemisphere,,5.4,um,0.6,1.3416,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,71,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108721,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal outer nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,4,,CMO:0003086,retinal outer nuclear layer thickness,,superior hemisphere,,16.8,um,1.9,3.8,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,108741,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal outer nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,4,,CMO:0003086,retinal outer nuclear layer thickness,,superior hemisphere,,10.6,um,1.7,3.4,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108742,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal inner nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,5,,CMO:0003084,retinal inner layer thickness,,superior hemisphere,,27.4,um,0.6,1.3416,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108713,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal inner nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,87 days,5,,CMO:0003084,retinal inner layer thickness,,superior hemisphere,,21.4,um,0.7,1.5652,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,71,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108719,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal inner nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,4,,CMO:0003084,retinal inner layer thickness,,superior hemisphere,,32.2,um,1.6,3.2,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,108738,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal inner nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,4,,CMO:0003084,retinal inner layer thickness,,superior hemisphere,,28.3,um,1.3,2.6,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108739,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,, 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,53 days,5,,CMO:0003705,scotopic B wave amplitude of ERG waveform,,scotopic b-wave ERG,,475,uV,41.0,91.6788,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,37,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108727,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,75 days,5,,CMO:0003705,scotopic B wave amplitude of ERG waveform,,scotopic b-wave ERG,,135,uV,38.0,84.9706,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,59,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108731,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,87 days,5,,CMO:0003705,scotopic B wave amplitude of ERG waveform,,scotopic b-wave ERG,,83,uV,7.0,15.6525,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,71,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108735,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,3,,CMO:0003705,scotopic B wave amplitude of ERG waveform,,scotopic b-wave ERG,,199,uV,17.0,29.4449,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108750,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,3,,CMO:0003705,scotopic B wave amplitude of ERG waveform,,scotopic b-wave ERG,,144,uV,29.0,50.2295,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108751,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,53 days,5,,CMO:0003706,scotopic A wave amplitude of ERG waveform,,scotopic a-wave ERG,,96.3,uV,10.3,23.0315,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,37,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108725,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,75 days,5,,CMO:0003706,scotopic A wave amplitude of ERG waveform,,scotopic a-wave ERG,,29.7,uV,11.3,25.2676,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,59,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108729,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,87 days,5,,CMO:0003706,scotopic A wave amplitude of ERG waveform,,scotopic a-wave ERG,,17.1,uV,3.2,7.1554,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,71,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108733,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,3,,CMO:0003706,scotopic A wave amplitude of ERG waveform,,scotopic a-wave ERG,,26.7,uV,2.7,4.6765,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108747,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (15 ug) ,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",rod electrophysiology trait,,RS:0000655,RCS-p+/LavRrrc,both,70 days,3,,CMO:0003706,scotopic A wave amplitude of ERG waveform,,scotopic a-wave ERG,,20.9,uV,3.7,6.4086,MMO:0000616,electroretinography,cornea,0.0,pVAX2-rGDNF,plasmid delivery,54,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) and gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) then controlled exposure to darkness (for 1 days) then visible light stimulus (3 cd x s/m2) ,108748,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,controlled exposure to darkness (for 1 days),visible light stimulus (3 cd x s/m2) 3131,"Touchard E, et al., Gene Ther. 2012 Sep;19(9):886-98. doi: 10.1038/gt.2011.154. Epub 2011 Oct 13.",retinal inner nuclear layer morphology trait,,RS:0000655,RCS-p+/LavRrrc,both,51 days,5,,CMO:0003668,retinal inner nuclear layer thickness,,retinal inner nuclear layer thickness (CMO:0003668),,26.3,um,1.5,3.3541,MMO:0000560,ex vivo light microscopy with histochemistry and digital image analysis,,0.0,pVAX2-rGDNF,plasmid delivery,35,days,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,108707,gene transfer of the rat GDNF gene using the plasmid vector pVAX2 (30 ug) ,,,