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Morpholino Publication Database
This database contains citations and abstracts for research using Morpholino oligos, as well as some review articles incorporating Morpholino data. You can search the content using the filter boxes below.
There are 12132 scientific papers returned from the database with the search filters currently being used below.
There are 12132 scientific papers returned from the database with the search filters currently being used below.
Transcription cofactor Vgl-2 is required for skeletal muscle differentiation
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Citation:
Genesis. 2004 Aug;39(4):273-9 Epub:
Not Epub Abstract:
TEF-1 transcription factors regulate gene expression in skeletal muscle but are not muscle-specific. Instead, TEF-1 factors... Organism or Cell Type:
cell culture: myogenic C(2)C(12) cells and chick embryos Citation Extract: Chen HH, Maeda T, Mullett SJ, Stewart AF. Transcription cofactor Vgl-2 is required for skeletal muscle differentiation. Genesis. 2004 Aug;39(4):273-9. |
Treatment with Myf5-morpholino results in somite patterning and brain formation defects in zebrafish
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Citation:
Differentiation. 2002 Oct;70(8):447-56 Epub:
Not Epub Abstract:
Myf-5 is a stage-dependent transcription factor associated with somitogenesis. To study its biological functions in zebrafish,... Delivery Method:
Microinjection Organism or Cell Type:
zebrafish Citation Extract: Chen YH, Tsai HJ. Treatment with Myf5-morpholino results in somite patterning and brain formation defects in zebrafish. Differentiation. 2002 Oct;70(8):447-56. |
Use of zebrafish and knockdown technology to define proprotein convertase activity
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Citation:
Methods Mol Biol. 2011;768:273-96 Epub:
Not Epub Abstract:
The Zebrafish (Danio rerio) is a powerful and well-established tool used extensively for the study of early vertebrate... Organism or Cell Type:
zebrafish Citation Extract: Chitramuthu BP, Bennett HP. Use of zebrafish and knockdown technology to define proprotein convertase activity. Methods Mol Biol. 2011;768:273-96. |
Vascular Endothelial Growth Factor Receptor 1 (VEGFR1) Morpholino Increases Graft Survival in a Murine Penetrating Keratoplasty Model
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Citation:
Invest Ophthalmol Vis Sci. 2012;[Epub ahead of print] doi:10.1167/iovs.12-10408 Epub:
Not Epub Abstract:
Purpose: This study sought to determine whether a Vascular Endothelial Growth Factor Receptor 1 (VEGFR1)-specific morpholino... Delivery Method:
Injection, subconjunctival Organism or Cell Type:
mice Citation Extract: Cho YK, Zhang X, Uehara H, Young JR, Archer B, Ambati B. Vascular Endothelial Growth Factor Receptor 1 (VEGFR1) Morpholino Increases Graft Survival in a Murine Penetrating Keratoplasty Model. Invest Ophthalmol Vis Sci. 2012;[Epub ahead of print] doi:10.1167/iovs.12-10408 . |
Vascular Endothelial Growth Factor Receptor 1 morpholino decreases angiogenesis in a murine corneal suture model
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Citation:
IOVS. 2011;[epub ahead of print] doi:10.1167/iovs.11-8391 Epub:
Not Epub Abstract:
Purpose: This study sought to determine whether a VEGFR1-specific morpholino could induce the alternative splicing of Flt-1 pre... Delivery Method:
Injection, corneal Organism or Cell Type:
mice Citation Extract: Cho YK, Uehara H, Young JR, Archer B, Zhang X, Ambati B. Vascular Endothelial Growth Factor Receptor 1 morpholino decreases angiogenesis in a murine corneal suture model. IOVS. 2011;[epub ahead of print] doi:10.1167/iovs.11-8391. |
Wnt-dependent epithelial transitions drive pharyngeal pouch formation
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Citation:
Dev Cell. 2013 Feb 11;24(3):296-309. doi: 10.1016/j.devcel.2012.12.003. Epub 2013 Jan 31. Epub:
Not Epub Abstract:
The pharyngeal pouches, which form by budding of the foregut endoderm, are essential for segmentation of the vertebrate face.... Delivery Method:
Microinjection Organism or Cell Type:
zebrafish Citation Extract: Choe CP, Collazo A, Trinh le A, Pan L, Moens CB, Crump JG. Wnt-dependent epithelial transitions drive pharyngeal pouch formation. Dev Cell. 2013 Feb 11;24(3):296-309. doi: 10.1016/j.devcel.2012.12.003. Epub 2013 Jan 31.. |
Xenopus Dab2 is required for embryonic angiogenesis
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Citation:
BMC Dev Biol. 2006 Dec 19;6:63. Epub:
Not Epub Abstract:
ABSTRACT: BACKGROUND: The molecular mechanisms governing the formation of the embryonic vascular system remain poorly... Organism or Cell Type:
Xenopus Citation Extract: Cheong SM, Choi SC, Han JK. Xenopus Dab2 is required for embryonic angiogenesis. BMC Dev Biol. 2006 Dec 19;6:63.. |
Xenopus Kazrin interacts with ARVCF-catenin, spectrin and p190B RhoGAP, and modulates RhoA activity and epithelial integrity
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Citation:
J Cell Sci. 2010 Dec 1;123(Pt 23):4128-44. Epub 2010 Nov 9 Epub:
Not Epub Abstract:
In common with other p120-catenin subfamily members, Xenopus ARVCF (xARVCF) binds cadherin cytoplasmic domains to enhance... Organism or Cell Type:
Xenopus Citation Extract: Cho K, Vaught TG, Ji H, Gu D, Papasakelariou-Yared C, Horstmann N, Jennings JM, Lee M, Sevilla LM, Kloc M, Reynolds AB, Watt FM, Brennan RG, Kowalczyk AP, McCrea PD. Xenopus Kazrin interacts with ARVCF-catenin, spectrin and p190B RhoGAP, and modulates RhoA activity and epithelial integrity. J Cell Sci. 2010 Dec 1;123(Pt 23):4128-44. Epub 2010 Nov 9. |
Zebrafish Agr2 Is Required for Terminal Differentiation of Intestinal Goblet Cells
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Citation:
PLoS ONE. 2012;7(4):e34408. doi:10.1371/journal.pone.0034408 Epub:
Not Epub Abstract:
Background Mammalian Anterior Gradient 2 (AGR2) is a protein disulfide isomerase that is required for the production of... Delivery Method:
Microinjection Organism or Cell Type:
zebrafish Citation Extract: Chen YC, Lu YF, Li IC, Hwang SPL. Zebrafish Agr2 Is Required for Terminal Differentiation of Intestinal Goblet Cells. PLoS ONE. 2012;7(4):e34408. doi:10.1371/journal.pone.0034408. |
Zebrafish as a genomics research model
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Citation:
Curr Pharm Biotechnol. 2004 Oct;5(5):409-13 Epub:
Not Epub Abstract:
The zebrafish (Danio rerio) is a recent addition to the genomic scientists' repertoire of vertebrate animal model systems... Delivery Method:
not applicable Organism or Cell Type:
zebrafish Citation Extract: Chen E, Ekker SC. Zebrafish as a genomics research model. Curr Pharm Biotechnol. 2004 Oct;5(5):409-13. |