Matches in Nanopublications for { <http://rdf.disgenet.org/resource/nanopub/NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_assertion> ?p ?o ?g. }
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- NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_assertion type Assertion NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_head.
- NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_assertion description "[Combined with our previous findings that CYP3A4, not CYP24, plays the dominant role in hydroxylation of 1,25(OH)2D3 in human liver and intestine, our results indicate that SXR has a dual role in mediating vitamin D catabolism and drug-induced osteomalacia.]. Sentence from MEDLINE/PubMed, a database of the U.S. National Library of Medicine." NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_provenance.
- NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_assertion evidence source_evidence_literature NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_provenance.
- NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_assertion SIO_000772 16691293 NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_provenance.
- NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_assertion wasDerivedFrom befree-20150227 NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_provenance.
- NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_assertion wasGeneratedBy ECO_0000203 NP343581.RAvMQCRMeGF_8iPCbTek2rW6m7ru5OmZdxnR7dU--8l8I130_provenance.