Matches in Nanopublications for { <http://rdf.disgenet.org/resource/nanopub/NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_assertion> ?p ?o ?g. }
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- NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_assertion type Assertion NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_head.
- NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_assertion description "[In silico splicing factor binding analysis predicted SRSF1 to bind predominantly to the cancer associated exon 4B, hence, it was hypothesized that SRPK1 activates SRSF1 through phosphorylation, followed by SRSF1 binding to exon 4B and regulation of SLC39A14 splicing.]. Sentence from MEDLINE/PubMed, a database of the U.S. National Library of Medicine." NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_provenance.
- NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_assertion evidence source_evidence_literature NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_provenance.
- NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_assertion SIO_000772 20938052 NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_provenance.
- NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_assertion wasDerivedFrom befree-20150227 NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_provenance.
- NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_assertion wasGeneratedBy ECO_0000203 NP691369.RAKR1B4YDnACuHb0d6ICbDa-2AcboMvhwqQk8MQEdnBMg130_provenance.