CRISPR

CRISPR1-irx3b

ID
ZDB-CRISPR-190326-6
Name
CRISPR1-irx3b
Previous Names
None
Target
Sequence
5' - GGCGCGGAGATCTCGGTCAC - 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
nz14 irx3b
Expression
Gene expression in Wild Types + CRISPR1-irx3b
No data available
Phenotype
Phenotype resulting from CRISPR1-irx3b
No data available
Phenotype of all Fish created by or utilizing CRISPR1-irx3b
Phenotype Fish Conditions Figures
pronephric distal early tubule slc12a1 expression decreased amount, abnormal irx3bnz14/nz14 standard conditions Fig. 6-S4 with image from Naylor et al., 2018
pronephric distal early tubule stc1 expression increased distribution, abnormal irx3bnz14/nz14 standard conditions Fig. 6-S4 with image from Naylor et al., 2018
pronephric distal early tubule cdh17 expression decreased amount, abnormal irx3bnz14/nz14 standard conditions Fig. 6-S4 with image from Naylor et al., 2018
pronephric distal early tubule stc1 expression mislocalised, abnormal irx3bnz14/nz14 standard conditions Fig. 6-S4 with image from Naylor et al., 2018
corpuscles of Stannius embryonic organ development decreased process quality, abnormal irx3bnz14/nz14 standard conditions Fig. 6-S4 with image from Naylor et al., 2018
corpuscles of Stannius stc1 expression decreased amount, abnormal TU + CRISPR1-irx3b + CRISPR2-irx3b chemical treatment by environment: compound E Fig. 6 with image from Naylor et al., 2018
corpuscles of Stannius embryonic organ development decreased process quality, abnormal TU + CRISPR1-irx3b + CRISPR2-irx3b chemical treatment by environment: compound E Fig. 6 with image from Naylor et al., 2018
corpuscles of Stannius embryonic organ development decreased process quality, abnormal TU + CRISPR1-irx3b + CRISPR2-irx3b control Fig. 6 with image from Naylor et al., 2018
pronephric distal early tubule stc1 expression increased distribution, abnormal TU + CRISPR1-irx3b + CRISPR2-irx3b control Fig. 6 with image from Naylor et al., 2018
pronephric distal early tubule stc1 expression increased distribution, abnormal TU + CRISPR1-irx3b + CRISPR2-irx3b chemical treatment by environment: compound E Fig. 6 with image from Naylor et al., 2018
pronephric distal early tubule stc1 expression mislocalised, abnormal TU + CRISPR1-irx3b + CRISPR2-irx3b control Fig. 6 with image from Naylor et al., 2018
pronephric distal early tubule cytoplasm Ab2-hnf1b labeling mislocalised, abnormal TU + CRISPR1-irx3b + CRISPR2-irx3b control Fig. 6 with image from Naylor et al., 2018
corpuscles of Stannius Venus expression absent, abnormal s940Tg + CRISPR1-irx3b + CRISPR2-irx3b chemical treatment by environment: compound E Fig. 6 with image from Naylor et al., 2018
pronephric distal early tubule Venus expression increased distribution, abnormal s940Tg + CRISPR1-irx3b + CRISPR2-irx3b control Fig. 6 with image from Naylor et al., 2018
pronephric distal early tubule Venus expression mislocalised, abnormal s940Tg + CRISPR1-irx3b + CRISPR2-irx3b control Fig. 6 with image from Naylor et al., 2018
corpuscles of Stannius embryonic organ development decreased process quality, abnormal s940Tg + CRISPR1-irx3b + CRISPR2-irx3b chemical treatment by environment: compound E Fig. 6 with image from Naylor et al., 2018
corpuscles of Stannius embryonic organ development decreased process quality, abnormal s940Tg + CRISPR1-irx3b + CRISPR2-irx3b control Fig. 6 with image from Naylor et al., 2018
Citations