TALEN

TALEN2-vegfaa

ID
ZDB-TALEN-180411-1
Name
TALEN2-vegfaa
Previous Names
None
Target
Target Sequence 1
5' - TATTTGATACAGTTAT - 3'
Target Sequence 2
5' - ACAGCAGACAGATGGAG - 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
zf1090 vegfaa
zf1091 vegfaa
Expression
Gene expression in Wild Types + TALEN2-vegfaa
No data available
Phenotype
Phenotype resulting from TALEN2-vegfaa
No data available
Phenotype of all Fish created by or utilizing TALEN2-vegfaa
Phenotype Fish Conditions Figures
heart structure, abnormal vegfaazf1090/zf1090 control Fig. 4 with image from Zhu et al., 2017
ventricular myocardium bmp4 expression mislocalised, abnormal vegfaazf1090/zf1090 control Fig. 4 with image from Zhu et al., 2017
heart increased length, abnormal vegfaazf1090/zf1090 control Fig. 4 with image from Zhu et al., 2017
heart linear, abnormal vegfaazf1090/zf1090 control Fig. 4 with image from Zhu et al., 2017
cardioblast migration to the midline involved in heart field formation delayed, abnormal vegfaazf1090/zf1090 control Fig. 3 with image from Zhu et al., 2017
heart decreased width, abnormal vegfaazf1090/zf1090 control Fig. 4 with image from Zhu et al., 2017
heart hypotrophic, abnormal vegfaazf1090/zf1090 control Fig. 4 with image from Zhu et al., 2017
presumptive cardiac ventricle primitive heart tube cardioblast migration to the midline involved in heart field formation delayed, abnormal vegfaazf1090/zf1090 control Fig. 3 with image from Zhu et al., 2017
heart looping process quality, abnormal vegfaazf1090/zf1090 control Fig. 4 with image from Zhu et al., 2017
whole organism anterior-posterior axis decreased length, abnormal vegfaazf1090/zf1090 (AB) standard conditions Fig. 1 from Jin et al., 2017
axial blood vessel efnb2a expression absent, abnormal vegfaazf1090/zf1090 (AB) standard conditions Fig. 2 from Jin et al., 2017
axial blood vessel dab2 expression increased distribution, abnormal vegfaazf1090/zf1090 (AB) standard conditions Fig. 2 from Jin et al., 2017
axial blood vessel hey2 expression absent, abnormal vegfaazf1090/zf1090 (AB) standard conditions Fig. 2 from Jin et al., 2017
pericardium edematous, abnormal vegfaazf1090/zf1090 (AB) standard conditions Fig. 1 from Jin et al., 2017
blood circulation disrupted, abnormal vegfaazf1090/zf1090 (AB) standard conditions Fig. 1 from Jin et al., 2017
heart cardiac muscle cell decreased amount, abnormal vegfaazf1090/zf1090; f2Tg control Fig. 5 with image from Zhu et al., 2017
cardiac ventricle cardiac muscle cell decreased amount, abnormal vegfaazf1090/zf1090; f2Tg control Fig. 5 with image from Zhu et al., 2017
heart tube formation decreased occurrence, abnormal vegfaazf1090/zf1090; la116Tg; sd7Tg control Fig. 1 with image from Zhu et al., 2017
cardiac ventricle hypotrophic, abnormal vegfaazf1090/zf1090; la116Tg; sd7Tg control Fig. 1 with image from Zhu et al., 2017
heart linear, abnormal vegfaazf1090/zf1090; la116Tg; sd7Tg control Fig. 1 with image from Zhu et al., 2017
heart valve malformed, abnormal vegfaazf1090/zf1090; la116Tg; sd7Tg control Fig. 1 with image from Zhu et al., 2017
endocardium endothelial cell accumulation heart anatomical space, abnormal vegfaazf1090/zf1090; la116Tg; sd7Tg control Fig. 1 with image from Zhu et al., 2017
heart structure, abnormal vegfaazf1090/zf1090; la116Tg; sd7Tg control Fig. 1 with image from Zhu et al., 2017
heart looping process quality, abnormal vegfaazf1090/zf1090; la116Tg; sd7Tg control Fig. 1 with image from Zhu et al., 2017
atrium hypotrophic, abnormal vegfaazf1090/zf1090; la116Tg; sd7Tg control Fig. 1 with image from Zhu et al., 2017
dorsal longitudinal anastomotic vessel absent, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 2 from Jin et al., 2017
posterior cardinal vein blood vessel endothelial cell increased amount, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 3 from Jin et al., 2017
dorsal aorta blood vessel endothelial cell absent, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 3 from Jin et al., 2017
dorsal aorta absent, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 2 from Jin et al., 2017
intersegmental vessel angiogenic sprout decreased length, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 4 from Jin et al., 2017
cerebellar central artery angiogenic sprout decreased amount, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 5 from Jin et al., 2017
metencephalic artery absent, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 6 from Jin et al., 2017
mesencephalic vein absent, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 6 from Jin et al., 2017
intersegmental vessel angiogenic sprout decreased amount, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 4 from Jin et al., 2017
cerebellar central artery decreased amount, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 5 from Jin et al., 2017
mesencephalic artery absent, abnormal vegfaazf1090/zf1090; s843Tg standard conditions Fig. 5Fig. 6 from Jin et al., 2017
cerebellar central artery angiogenic sprout decreased amount, abnormal vegfaazf1091/zf1091; s843Tg standard conditions Fig. 5 from Jin et al., 2017
mesencephalic artery absent, abnormal vegfaazf1091/zf1091; s843Tg standard conditions Fig. 5 from Jin et al., 2017
cerebellar central artery decreased amount, abnormal vegfaazf1091/zf1091; s843Tg standard conditions Fig. 5 from Jin et al., 2017
Citations