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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 12353 scientific papers returned from the database with the search filters currently being used below.
There are 12353 scientific papers returned from the database with the search filters currently being used below.
Sequential actions of Pax3 and Pax7 drive xanthophore development in zebrafish neural crest
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Citation:
Dev Biol.2008 May 15;317(2):508-22. Epub 2008 Mar 14. Epub:
Not Epub Abstract:
The Pax3/7 gene family has a fundamental and conserved role during neural crest formation. In people, PAX3 mutation causes... Organism or Cell Type:
zebrafish Citation Extract: Minchin JE, Hughes SM. Sequential actions of Pax3 and Pax7 drive xanthophore development in zebrafish neural crest. Dev Biol.2008 May 15;317(2):508-22. Epub 2008 Mar 14.. |
Signal-dependent regulation of splicing via phosphorylation of Sam68
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Citation:
Nature. 2002 Dec 12;420(6916):691-5 Epub:
Not Epub Abstract:
Evolution of human organismal complexity from a relatively small number of genes--only approximately twice that of worm or fly... Delivery Method:
Electroporation Organism or Cell Type:
cell culture: mouse EL-4 T-lymphoma cells Citation Extract: Matter N, Herrlich P, Konig H. Signal-dependent regulation of splicing via phosphorylation of Sam68. Nature. 2002 Dec 12;420(6916):691-5. |
Skin exposure to micro- and nano-particles can cause haemostasis in zebrafish larvae
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Citation:
Thromb Haemost. 2010 Feb 19;103(4). [Epub ahead of print] Epub:
Not Epub Abstract:
Low mass ambient exposure to airborne particles is associated with atherothrombotic events that may be a consequence of the... Organism or Cell Type:
zebrafish Citation Extract: McLeish JA, Chico TJ, Taylor HB, Tucker C, Donaldson K, Brown SB. Skin exposure to micro- and nano-particles can cause haemostasis in zebrafish larvae. Thromb Haemost. 2010 Feb 19;103(4). [Epub ahead of print]. |
Smad1 and Smad5 differentially regulate embryonic hematopoiesis
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Citation:
Blood. 2007 Dec 1;110(12):3881-90. Epub 2007 Aug 29 Epub:
Not Epub Abstract:
The BMP signaling pathway regulates multiple steps of hematopoiesis, mediated through receptor-regulated Smads, including Smad1... Organism or Cell Type:
zebrafish Citation Extract: McReynolds LJ, Gupta S, Figueroa ME, Mullins MC, Evans T. Smad1 and Smad5 differentially regulate embryonic hematopoiesis. Blood. 2007 Dec 1;110(12):3881-90. Epub 2007 Aug 29. |
Small heat shock protein HSPB1 regulates growth of embryonic zebrafish craniofacial muscles
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Citation:
Exp Cell Res. 2013;[Epub ahead of print] http://dx.doi.org/10.1016/j.yexcr.2013.01.002 Epub:
Not Epub Abstract:
The small heat shock protein HspB1 (Hsp27) is abundantly expressed in embryonic muscle tissues of a wide variety of vertebrate... Delivery Method:
Microinjection Organism or Cell Type:
zebrafish Citation Extract: Middleton RC, Shelden EA. Small heat shock protein HSPB1 regulates growth of embryonic zebrafish craniofacial muscles. Exp Cell Res. 2013;[Epub ahead of print] http://dx.doi.org/10.1016/j.yexcr.2013.01.002. |
Sox2 is required for maintenance and regeneration, but not initial development, of hair cells in the zebrafish inner ear
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Citation:
Dev Biol. 2010 Feb 15;338(2):262-9. Epub 2009 Dec 16 Epub:
Not Epub Abstract:
Sox2 has been variously implicated in maintenance of pluripotent stem cells or, alternatively, early stages of cell... Delivery Method:
Microinjection Organism or Cell Type:
zebrafish Citation Extract: Millimaki BB, Sweet EM, Riley BB. Sox2 is required for maintenance and regeneration, but not initial development, of hair cells in the zebrafish inner ear. Dev Biol. 2010 Feb 15;338(2):262-9. Epub 2009 Dec 16. |
Spatial and temporal 'knock down' of gene expression by electroporation of double-stranded RNA and morpholinos into early postimplantation mouse embryos
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Citation:
Mech Dev. 2002 Oct;118(1-2):57 Epub:
Not Epub Abstract:
Here we report the use of double-stranded RNA (dsRNA) and morpholino technologies to specifically 'knock down' gene... Delivery Method:
Electroporation Organism or Cell Type:
Mouse embryo Citation Extract: Mellitzer G, Hallonet M, Chen L, Ang S. Spatial and temporal 'knock down' of gene expression by electroporation of double-stranded RNA and morpholinos into early postimplantation mouse embryos. Mech Dev. 2002 Oct;118(1-2):57. |
Specific and effective gene knock-down in early chick embryos using morpholinos but not pRFPRNAi vectors
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Citation:
Mech Dev. 2008 Nov-Dec;125(11-12):947-62. Epub 2008 Sep 3. Epub:
Not Epub Abstract:
In the chick embryo, two methods are now used for studying the developmental role of genes by loss-of-function approaches:... Organism or Cell Type:
chick embryo Citation Extract: Mende M, Christophorou NA, Streit A. Specific and effective gene knock-down in early chick embryos using morpholinos but not pRFPRNAi vectors. Mech Dev. 2008 Nov-Dec;125(11-12):947-62. Epub 2008 Sep 3.. |
Sphingosine 1-Phosphate Receptor Signaling Regulates Proper Embryonic Vascular Patterning
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Citation:
J Biol Chem. 2013 January 25; 288(4): 2143–2156. Epub:
Not Epub Abstract:
Sphingosine 1-phosphate (S1P) binds G-protein-coupled receptors (S1P1–5) to regulate a multitude of physiological effects,... Delivery Method:
Microinjection Organism or Cell Type:
zebrafish Citation Extract: Mendelson K, Zygmunt T, Torres-Vazquez J, Evans T, Hla T. Sphingosine 1-Phosphate Receptor Signaling Regulates Proper Embryonic Vascular Patterning. J Biol Chem. 2013 January 25; 288(4): 2143–2156. . |
Src modulates contractile vascular smooth muscle function via regulation of focal adhesions
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Citation:
J Cell Physiol. 2012;227(11):3585-92. http://dx.doi.org/10.1002/jcp.24062 Epub:
Not Epub Abstract:
Src is a known regulator of focal adhesion turnover in migrating cells; but, in contrast, Src is generally assumed to play... Citation Extract: Min J, Reznichenko M, Poythress RH, Gallant CM, Vetterkind S, Li Y, Morgan KG. Src modulates contractile vascular smooth muscle function via regulation of focal adhesions. J Cell Physiol. 2012;227(11):3585-92. http://dx.doi.org/10.1002/jcp.24062. |