CRISPR

CRISPR1-apln

ID
ZDB-CRISPR-151016-3
Name
CRISPR1-apln
Previous Names
  • Z000165 (1)
Target
Sequence
5' - GAATGTGAAGATCTTGACGC - 3'
ZFIN BLAST NCBI BLAST Ensembl UCSC BLAT
Disclaimer
Although ZFIN verifies reagent sequence data, we recommend that you conduct independent sequence analysis before ordering any reagent.
Note
None
Genome Resources
Target Location
Constructs
No data available
Genomic Features
Genomic Feature Affected Genomic Regions
mu267 apln
Expression
Gene expression in Wild Types + CRISPR1-apln
No data available
Phenotype
Phenotype resulting from CRISPR1-apln
No data available
Phenotype of all Fish created by or utilizing CRISPR1-apln
Phenotype Fish Conditions Figures
pericardium edematous, abnormal aplnmu267/mu267 + MO1-apln standard conditions Fig. S6 with image from Kwon et al., 2016
pericardium edematous, abnormal aplnmu267/+ + MO1-apln standard conditions Fig. S6 with image from Kwon et al., 2016
regenerating tissue cell population proliferation decreased occurrence, abnormal aplnmu267/mu267; hu5333Tg cryoablation: heart Fig. 1 with image from Marín-Juez et al., 2019
blood vessel endothelial cell cell population proliferation decreased occurrence, abnormal aplnmu267/mu267; hu5333Tg cryoablation: heart Fig. 1 with image from Marín-Juez et al., 2019
angiogenic sprout decreased length, abnormal aplnmu267/mu267; y1Tg standard conditions Figure 4 with image from Helker et al., 2020
trunk sprouting angiogenesis decreased occurrence, abnormal aplnmu267/mu267; y1Tg standard conditions Figure 4 with image from Helker et al., 2020
trunk sprouting angiogenesis disrupted, abnormal aplnmu267/mu267; y1Tg standard conditions Figure 4 with image from Helker et al., 2020
angioblast cell migration from lateral mesoderm to midline process quality, abnormal apelazf439/+; aplnmu267/+; y1Tg control Fig. 2 with image from Helker et al., 2015
angioblast cell migration from lateral mesoderm to midline process quality, abnormal apelazf439/+; aplnmu267/mu267; y1Tg control Fig. 2 with image from Helker et al., 2015
angioblast cell migration from lateral mesoderm to midline arrested, abnormal apelazf439/zf439; aplnmu267/+; y1Tg control Fig. 2 with image from Helker et al., 2015
angioblast cell migration from lateral mesoderm to midline process quality, abnormal apelazf439/zf439; aplnmu267/+; y1Tg control Fig. 2 with image from Helker et al., 2015
angioblast cell migration from lateral mesoderm to midline process quality, abnormal apelazf439/zf439; aplnmu267/mu267; y1Tg control Fig. 2 with image from Helker et al., 2015
angioblast cell migration from lateral mesoderm to midline arrested, abnormal apelazf439/zf439; aplnmu267/mu267; y1Tg control Fig. 2 with image from Helker et al., 2015
trunk sprouting angiogenesis decreased occurrence, abnormal apelazf439/zf439; aplnmu267/mu267; y1Tg standard conditions Figure 1 with image from Helker et al., 2020
parachordal vessel agenesis, abnormal aplnmu267/mu267; bns9Tg; ubs1Tg standard conditions Fig. 4 with image from Kwon et al., 2016
trunk sprouting angiogenesis disrupted, abnormal aplnmu267/mu267; y1Tg + MO4-dll4 standard conditions Figure 4 with image from Helker et al., 2020
angiogenic sprout decreased length, abnormal aplnmu267/mu267; y1Tg + MO4-dll4 standard conditions Figure 4 with image from Helker et al., 2020
trunk sprouting angiogenesis decreased occurrence, abnormal aplnmu267/mu267; y1Tg + MO4-dll4 standard conditions Figure 4 with image from Helker et al., 2020
Citations
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