CRISPR

CRISPR2-pdx1

ID
ZDB-CRISPR-211027-14
Name
CRISPR2-pdx1
Previous Names
None
Target
Sequence
5' - GGAGACTCTCTGGACCTCTGCGG - 3'
Disclaimer
Although ZFIN verifies reagent sequence data, we recommend that you conduct independent sequence analysis before ordering any reagent.
Note
None
Genome Resources
None
Target Location
Constructs
No data available
Genomic Features
Genomic Feature Affected Genomic Regions
uh10 pdx1
Expression
Gene expression in Wild Types + CRISPR2-pdx1
No data available
Phenotype
Phenotype resulting from CRISPR2-pdx1
No data available
Phenotype of all Fish created by or utilizing CRISPR2-pdx1
Phenotype Fish Conditions Figures
whole organism ornithine decreased amount, abnormal pdx1uh10/uh10 standard conditions Fig. 8 from Wiggenhauser et al., 2020
whole organism proline increased amount, abnormal pdx1uh10/uh10 standard conditions Fig. 8 from Wiggenhauser et al., 2020
whole organism glutamic acid increased amount, abnormal pdx1uh10/uh10 standard conditions Fig. 8 from Wiggenhauser et al., 2020
whole organism pdx1 expression absent, abnormal pdx1uh10/uh10 standard conditions Fig. 1 from Wiggenhauser et al., 2020
whole organism glucose increased amount, abnormal pdx1uh10/uh10 standard conditions Fig. 8 from Wiggenhauser et al., 2020
whole organism taurine increased amount, abnormal pdx1uh10/uh10 standard conditions Fig. 8 from Wiggenhauser et al., 2020
whole organism spermidine decreased amount, abnormal pdx1uh10/uh10 standard conditions Fig. 8 from Wiggenhauser et al., 2020
whole organism tyrosine decreased amount, abnormal pdx1uh10/uh10 standard conditions Fig. 8 from Wiggenhauser et al., 2020
kidney phosphoethanolamine increased amount, abnormal pdx1uh10/+; li1Tg standard conditions Fig. 4 from Wiggenhauser et al., 2022
renal glomerulus hypertrophic, abnormal pdx1uh10/+; li1Tg standard conditions Fig. 2 from Wiggenhauser et al., 2022
renal glomerulus cell increased amount, abnormal pdx1uh10/+; li1Tg standard conditions Fig. 2 from Wiggenhauser et al., 2022
pronephric glomerulus increased length, abnormal pdx1uh10/+; li1Tg standard conditions Fig. 1 from Wiggenhauser et al., 2022
pronephric tubule decreased length, abnormal pdx1uh10/+; li1Tg standard conditions Fig. 1 from Wiggenhauser et al., 2022
kidney hexose decreased amount, abnormal pdx1uh10/+; li1Tg standard conditions Fig. 4 from Wiggenhauser et al., 2022
renal glomerulus increased area, abnormal pdx1uh10/+; li1Tg standard conditions Fig. 2 from Wiggenhauser et al., 2022
primary islet decreased area, abnormal pdx1uh10/+; ml2Tg standard conditions Fig. 2 from Wiggenhauser et al., 2020
endocrine pancreas development decreased process quality, abnormal pdx1uh10/+; ml2Tg standard conditions Fig. 2 from Wiggenhauser et al., 2020
ocular blood vessel sprouting angiogenesis increased process quality, abnormal pdx1uh10/+; y1Tg standard conditions Fig. 5 from Wiggenhauser et al., 2020
ocular blood vessel increased branchiness, abnormal pdx1uh10/+; y1Tg standard conditions Fig. 5 from Wiggenhauser et al., 2020
glucose homeostasis decreased process quality, abnormal pdx1uh10/+; y1Tg standard conditions Fig. 5 from Wiggenhauser et al., 2020
pronephros decreased functionality, abnormal pdx1uh10/uh10; li1Tg control Fig. 1 from Wiggenhauser et al., 2022
pronephric glomerulus increased length, abnormal pdx1uh10/uh10; li1Tg standard conditions Fig. 1 from Wiggenhauser et al., 2022
pronephric tubule decreased length, abnormal pdx1uh10/uh10; li1Tg standard conditions Fig. 1 from Wiggenhauser et al., 2022
glomerular basement membrane increased thickness, abnormal pdx1uh10/uh10; li1Tg standard conditions Fig. 2 from Wiggenhauser et al., 2022
primary islet decreased area, abnormal pdx1uh10/uh10; ml2Tg standard conditions Fig. 2 from Wiggenhauser et al., 2020
whole organism glucose increased amount, abnormal pdx1uh10/uh10; ml2Tg standard conditions Fig. 2 from Wiggenhauser et al., 2020
glucose homeostasis decreased process quality, abnormal pdx1uh10/uh10; ml2Tg standard conditions Fig. 2 from Wiggenhauser et al., 2020
endocrine pancreas development decreased process quality, abnormal pdx1uh10/uh10; ml2Tg standard conditions Fig. 2 from Wiggenhauser et al., 2020
inner optic circle diameter, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: N(gamma)-nitro-L-arginine methyl ester hydrochloride Fig. 7 from Wiggenhauser et al., 2020
ocular blood vessel increased branchiness, abnormal pdx1uh10/uh10; y1Tg standard conditions Fig. 4 from Wiggenhauser et al., 2020
hyaloid vessel diameter, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: PK-11195 Fig. 7 from Wiggenhauser et al., 2020
inner optic circle diameter, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: PK-11195 Fig. 7 from Wiggenhauser et al., 2020
hyaloid vessel branchiness, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: vatalanib Fig. 6 from Wiggenhauser et al., 2020
hyaloid vessel sprouting angiogenesis process quality, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: vatalanib Fig. 6 from Wiggenhauser et al., 2020
hyaloid vessel increased branchiness, abnormal pdx1uh10/uh10; y1Tg standard conditions Fig. 3Fig. 6 from Wiggenhauser et al., 2020
hyaloid vessel sprouting angiogenesis increased process quality, abnormal pdx1uh10/uh10; y1Tg chemical treatment by environment: metformin Fig. 6 from Wiggenhauser et al., 2020
inner optic circle diameter, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: metformin Fig. 7 from Wiggenhauser et al., 2020
hyaloid vessel sprouting angiogenesis increased process quality, abnormal pdx1uh10/uh10; y1Tg standard conditions Fig. 3Fig. 6 from Wiggenhauser et al., 2020
hyaloid vessel diameter, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: metformin Fig. 7 from Wiggenhauser et al., 2020
ocular blood vessel sprouting angiogenesis increased process quality, abnormal pdx1uh10/uh10; y1Tg standard conditions Fig. 4 from Wiggenhauser et al., 2020
hyaloid vessel diameter, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: N(gamma)-nitro-L-arginine methyl ester hydrochloride Fig. 7 from Wiggenhauser et al., 2020
inner optic circle increased diameter, abnormal pdx1uh10/uh10; y1Tg standard conditions Fig. 3Fig. 7 from Wiggenhauser et al., 2020
hyaloid vessel sprouting angiogenesis increased process quality, abnormal pdx1uh10/uh10; y1Tg chemical treatment by environment: N(gamma)-nitro-L-arginine methyl ester hydrochloride Fig. 6 from Wiggenhauser et al., 2020
hyaloid vessel increased diameter, abnormal pdx1uh10/uh10; y1Tg standard conditions Fig. 3Fig. 7 from Wiggenhauser et al., 2020
hyaloid vessel sprouting angiogenesis process quality, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: PK-11195 Fig. 6 from Wiggenhauser et al., 2020
hyaloid vessel branchiness, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: PK-11195 Fig. 6 from Wiggenhauser et al., 2020
inner optic circle diameter, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: vatalanib Fig. 7 from Wiggenhauser et al., 2020
hyaloid vessel branchiness, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: metformin Fig. 6 from Wiggenhauser et al., 2020
hyaloid vessel increased branchiness, abnormal pdx1uh10/uh10; y1Tg chemical treatment by environment: N(gamma)-nitro-L-arginine methyl ester hydrochloride Fig. 6 from Wiggenhauser et al., 2020
hyaloid vessel diameter, ameliorated pdx1uh10/uh10; y1Tg chemical treatment by environment: vatalanib Fig. 7 from Wiggenhauser et al., 2020
glucose homeostasis decreased process quality, abnormal pdx1uh10/uh10; y1Tg standard conditions Fig. 4 from Wiggenhauser et al., 2020
Citations