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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 12371 scientific papers returned from the database with the search filters currently being used below.
There are 12371 scientific papers returned from the database with the search filters currently being used below.
Vivo-Morpholinos: A non-peptide transporter delivers Morpholinos into a wide array of mouse tissues
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Citation:
BioTechniques. 2008 Dec;45(6):616-26 Epub:
Not Epub Abstract:
We have developed a new transporter structure that provides effective delivery ofMorpholino antisense oligomers into a wide... Delivery Method:
Vivo-Morpholino (Vivo-Porter moiety) Organism or Cell Type:
EGFP splice-reporter mice, mdx mice, cell cultures Citation Extract: Morcos PA, Li YF, Jiang S. Vivo-Morpholinos: A non-peptide transporter delivers Morpholinos into a wide array of mouse tissues. BioTechniques. 2008 Dec;45(6):616-26. |
Xenopus neurula left-right asymmetry is respeficied by microinjecting TGF-b5 protein
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Citation:
Int J Dev Biol 2003 47:15-29 Epub:
Not Epub Abstract:
A variety of TGF-b-related ligands regulate the left-right asymmetry of vertebrates but the involvement of TGF-bs in left-right... Delivery Method:
Microinjection Organism or Cell Type:
Xenopus laevis Citation Extract: Mogi K, Gogo M, Ohno E, Azumi Y, Takeuchi S, Toyoizumi R. Xenopus neurula left-right asymmetry is respeficied by microinjecting TGF-b5 protein. Int J Dev Biol 2003 47:15-29. |
YY1 regulates the neural crest associated slug gene in Xenopus laevis
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Citation:
J Biol Chem. 2004 Nov 5;279(45):46826-34. Epub 2004 Aug 23. Epub:
Not Epub Abstract:
Slug gene expression is associated with the specification and migration of neural crest cells in the African clawed frog... Delivery Method:
Microinjection Organism or Cell Type:
Xenopus laevis Citation Extract: Morgan MJ, Woltering JM, In Der Rieden PM, Durston AJ, Thiery JP. YY1 regulates the neural crest associated slug gene in Xenopus laevis. J Biol Chem. 2004 Nov 5;279(45):46826-34. Epub 2004 Aug 23.. |
Zebrafish miR-1 and miR-133 shape muscle gene expression and regulate sarcomeric actin organization
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Citation:
Genes Dev. 2009 Feb 24. [Epub ahead of print] Epub:
Not Epub Abstract:
microRNAs (miRNAs) represent approximately 4% of the genes in vertebrates, where they regulate deadenylation, translation, and... Organism or Cell Type:
zebrafish Citation Extract: Mishima Y, Abreu-Goodger C, Staton AA, Stahlhut C, Shou C, Cheng C, Gerstein M, Enright AJ, Giraldez AJ. Zebrafish miR-1 and miR-133 shape muscle gene expression and regulate sarcomeric actin organization. Genes Dev. 2009 Feb 24. [Epub ahead of print]. |
β-adrenergic signaling promotes posteriorization in Xenopus early development
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Citation:
Dev Growth Differ. 2013 Mar 3. doi: 10.1111/dgd.12046. [Epub ahead of print] Epub:
Not Epub Abstract:
Adrenaline (also known as Epinephrine) is a hormone, which works as major regulator of various biological events such stages of... Delivery Method:
Microinjection Organism or Cell Type:
Xenopus Citation Extract: Mori S, Moriyama Y, Yoshikawa K, Furukawa T, Kuroda H. β-adrenergic signaling promotes posteriorization in Xenopus early development. Dev Growth Differ. 2013 Mar 3. doi: 10.1111/dgd.12046. [Epub ahead of print]. |
FGF3 and FGF8 mediate a rhombomere 4 signaling activity in the zebrafish hindbrain
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Citation:
Development. 2002. 129(16):3825-3837 Epub:
Not Epub Abstract:
The segmentation of the vertebrate hindbrain into rhombomeres is highly conserved, but how early hindbrain patterning is... Delivery Method:
Microinjection Organism or Cell Type:
zebrafish Citation Extract: Maves L, Jackman W, Kimmel CB. FGF3 and FGF8 mediate a rhombomere 4 signaling activity in the zebrafish hindbrain. Development. 2002. 129(16):3825-3837. |
A comprehensive analysis of Delta signaling in pre-gastrular sea urchin embryos
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Citation:
Dev Biol. 2012 Apr 1;364(1):77-87. doi: 10.1016/j.ydbio.2012.01.017. Epub 2012 Jan 27 Epub:
Not Epub Abstract:
In sea urchin embryos Delta signaling specifies non-skeletogenic mesoderm (NSM). Despite the identification of some direct... Delivery Method:
Microinjection Organism or Cell Type:
Sea urchin, Strongylocentrotus purpuratus Citation Extract: Materna SC, Davidson EH. A comprehensive analysis of Delta signaling in pre-gastrular sea urchin embryos. Dev Biol. 2012 Apr 1;364(1):77-87. doi: 10.1016/j.ydbio.2012.01.017. Epub 2012 Jan 27. |
A histone H1 variant is required for erythrocyte maturation in medaka
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Citation:
Int J Dev Biol. 2008;52(7):887-92 Epub:
Not Epub Abstract:
Three histone H1 variants were identified in medaka fish and their sequence characteristics were analyzed. This paper reports... Organism or Cell Type:
medaka embryos Citation Extract: Matsuoka O, Shindo N, Arai D, Higashinakagawa T. A histone H1 variant is required for erythrocyte maturation in medaka. Int J Dev Biol. 2008;52(7):887-92. |
A morpholino-based screen to identify novel genes involved in craniofacial morphogenesis
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Citation:
Dev Dyn. 2013;[Epub ahead of print] doi:10.1002/dvdy.23969 Epub:
Not Epub Abstract:
BACKGROUND: The regulatory mechanisms underpinning facial development are conserved between diverse species. Therefore, results... Organism or Cell Type:
zebrafish Citation Extract: Melvin VS, Feng W, Hernandez-Lagunas L, Artinger KB, Williams T. A morpholino-based screen to identify novel genes involved in craniofacial morphogenesis. Dev Dyn. 2013;[Epub ahead of print] doi:10.1002/dvdy.23969. |
A potent and specific morpholino antisense inhibitor of hepatitis C translation in mice
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Citation:
Hepatology. 2003 Aug;38(2):503-8 Epub:
Not Epub Abstract:
Hepatitis C virus (HCV) is an RNA virus infecting one in every 40 people worldwide. Current treatments are ineffective and HCV... Delivery Method:
in vivo: injection Organism or Cell Type:
mice Citation Extract: McCaffrey AP, Meuse L, Karimi M, Contag CH, Kay MA. A potent and specific morpholino antisense inhibitor of hepatitis C translation in mice. Hepatology. 2003 Aug;38(2):503-8. |