CRISPR

CRISPR1-rbbp4

ID
ZDB-CRISPR-181022-1
Name
CRISPR1-rbbp4
Previous Names
None
Target
Sequence
5' - GATGACCCACGCGCTTGAG - 3'
ZFIN BLAST NCBI BLAST Ensembl
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
is60 rbbp4
Expression
Gene expression in Wild Types + CRISPR1-rbbp4
No data available
Phenotype
Phenotype resulting from CRISPR1-rbbp4
Phenotype Fish Figures
optic tectum nucleus broken, abnormal kca6Tg + CRISPR1-rbbp4 Fig. 6 with image from Schultz et al., 2018
optic tectum nucleus increased size, abnormal kca66Tg + CRISPR1-rbbp4 Fig. 6 with image from Schultz et al., 2018
Phenotype of all Fish created by or utilizing CRISPR1-rbbp4
Phenotype Fish Conditions Figures
head decreased size, abnormal rbbp4is60/is60 standard conditions Fig. 2 from Schultz-Rogers et al., 2022
retina ab1-casp3 labeling increased amount, abnormal rbbp4is60/is60 control Fig. 5 with image from Schultz et al., 2018
optic tectum apoptotic process increased occurrence, abnormal rbbp4is60/is60 control Fig. 5 with image from Schultz et al., 2018
midbrain apoptotic, abnormal rbbp4is60/is60 standard conditions Fig. 4Fig. 8Fig. 9Fig. 11 from Schultz-Rogers et al., 2022
ciliary marginal zone cell population proliferation decreased occurrence, abnormal rbbp4is60/is60 standard conditions Fig. 5 from Schultz-Rogers et al., 2022
midbrain decreased size, abnormal rbbp4is60/is60 standard conditions Fig. 4 from Schultz-Rogers et al., 2022
ciliary marginal zone atoh7 expression increased distribution, abnormal rbbp4is60/is60 standard conditions Fig. 6 from Schultz-Rogers et al., 2022
optic tectum apoptotic, abnormal rbbp4is60/is60 standard conditions Fig. 3Fig. 4 from Schultz-Rogers et al., 2022
retina apoptotic process increased occurrence, abnormal rbbp4is60/is60 control Fig. 5 with image from Schultz et al., 2018
eye decreased size, abnormal rbbp4is60/is60 control Fig. 2 from Schultz-Rogers et al., 2022
Fig. 5 with image from Schultz et al., 2018
retina cell population proliferation increased occurrence, abnormal rbbp4is60/is60 standard conditions Fig. 4Fig. 11 from Schultz-Rogers et al., 2022
ciliary marginal zone cdkn1ca expression absent, abnormal rbbp4is60/is60 standard conditions Fig. 6 from Schultz-Rogers et al., 2022
ciliary marginal zone ccnd1 expression increased distribution, abnormal rbbp4is60/is60 standard conditions Fig. 6 from Schultz-Rogers et al., 2022
retina decreased size, abnormal rbbp4is60/is60 standard conditions Fig. 5 from Schultz-Rogers et al., 2022
midbrain cell population proliferation increased occurrence, abnormal rbbp4is60/is60 standard conditions Fig. 4Fig. 7 from Schultz-Rogers et al., 2022
brain decreased size, abnormal rbbp4is60/is60 control Fig. 2 from Schultz-Rogers et al., 2022
Fig. 5 with image from Schultz et al., 2018
optic tectum decreased size, abnormal rbbp4is60/is60 standard conditions Fig. 4 from Schultz-Rogers et al., 2022
ceratobranchial cartilage malformed, abnormal rbbp4is60/is60 standard conditions Fig. 2 from Schultz-Rogers et al., 2022
optic tectum ab1-casp3 labeling increased amount, abnormal rbbp4is60/is60 control Fig. 5 with image from Schultz et al., 2018
ceratohyal cartilage malformed, abnormal rbbp4is60/is60 standard conditions Fig. 2 from Schultz-Rogers et al., 2022
retina apoptotic, abnormal rbbp4is60/is60 standard conditions Fig. 4Fig. 8Fig. 9Fig. 11 from Schultz-Rogers et al., 2022
ciliary marginal zone stem cell mislocalised, abnormal rbbp4is60/is60 standard conditions Fig. 5 from Schultz-Rogers et al., 2022
optic tectum nucleus increased size, abnormal kca6Tg + CRISPR1-rbbp4 control Fig. 6 with image from Schultz et al., 2018
optic tectum nucleus broken, abnormal kca6Tg + CRISPR1-rbbp4 control Fig. 6 with image from Schultz et al., 2018
optic tectum nucleus increased size, abnormal kca66Tg + CRISPR1-rbbp4 control Fig. 6 with image from Schultz et al., 2018
optic tectum nucleus broken, abnormal kca66Tg + CRISPR1-rbbp4 control Fig. 6 with image from Schultz et al., 2018
midbrain apoptotic, ameliorated rbbp4is60/is60 + MO4-tp53 standard conditions Fig. 9 from Schultz-Rogers et al., 2022
retina apoptotic, ameliorated rbbp4is60/is60 + MO4-tp53 standard conditions Fig. 9 from Schultz-Rogers et al., 2022
retina cell population proliferation increased occurrence, exacerbated rb1is54/is54; rbbp4is60/is60 standard conditions Fig. 7 from Schultz-Rogers et al., 2022
retina apoptotic, abnormal rb1is54/is54; rbbp4is60/is60 standard conditions Fig. 8 from Schultz-Rogers et al., 2022
midbrain cell population proliferation increased occurrence, exacerbated rb1is54/is54; rbbp4is60/is60 standard conditions Fig. 7 from Schultz-Rogers et al., 2022
ceratohyal cartilage morphology, ameliorated rbbp4is60/is60; is61Tg standard conditions Fig. 2 from Schultz-Rogers et al., 2022
brain normal size, ameliorated rbbp4is60/is60; is61Tg standard conditions Fig. 2 from Schultz-Rogers et al., 2022
eye normal size, ameliorated rbbp4is60/is60; is61Tg standard conditions Fig. 2 from Schultz-Rogers et al., 2022
ceratobranchial cartilage morphology, ameliorated rbbp4is60/is60; is61Tg standard conditions Fig. 2 from Schultz-Rogers et al., 2022
head normal size, ameliorated rbbp4is60/is60; is61Tg standard conditions Fig. 2 from Schultz-Rogers et al., 2022
retina cell population proliferation normal occurrence, ameliorated rbbp4is60/is60; tp53is55/is55 standard conditions Fig. 11 from Schultz-Rogers et al., 2022
retina apoptotic, ameliorated rbbp4is60/is60; tp53is55/is55 standard conditions Fig. 11 from Schultz-Rogers et al., 2022
retina cell population proliferation increased occurrence, abnormal rbbp4is60/is60; tp53is55/is55 standard conditions Fig. 11 from Schultz-Rogers et al., 2022
midbrain apoptotic, ameliorated rbbp4is60/is60; tp53is55/is55 standard conditions Fig. 11 from Schultz-Rogers et al., 2022
Citations
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