Preferred Label : factor ixa;
MeSH definition : Activated form of factor IX. This activation can take place via the intrinsic pathway
by the action of factor XIa and calcium, or via the extrinsic pathway by the action
of factor VIIa, thromboplastin, and calcium. Factor IXa serves to activate factor
X to Xa by cleaving the arginyl-leucine peptide bond in factor X.; Activated form of factor IX. This activation can take place via the intrinsic pathway
of blood coagulation by the action of factor XIa and calcium, or via the extrinsic
pathway by the action of factor VIIa, thromboplastin, and calcium. Factor IXa serves
to activate factor X to Xa by cleaving the arginyl-leucine peptide bond in factor
X.;
MeSH synonym : factor ix, activated; factor ixa, coagulation; coagulation factor ixa; blood coagulation factor ix, activated; activated factor ix; Factor 9A; Factor Nine A;
CISMeF synonym : ixa, coagulation factor;
Registry Number MeSH : EC 3.4.21.22;
MeSH annotation : /defic CHRISTMAS DISEASE;
Wikipedia link : https://en.wikipedia.org/wiki/Factor ixa;
Is substance : O;
UNII : EC 3.4.21.22;
Origin ID : D015949;
UMLS CUI : C0015494;
Allowable qualifiers
Automatic exact mappings (from CISMeF team)
Currated CISMeF NLP mapping
Indexing information
- RB 006 [MeSH Supplementary Concept]
Record concept(s)
Related MeSH Supplementary Concept(s)
Related MeSH term(s)
See also
See also inter- (CISMeF)
Semantic type(s)
UMLS correspondences (same concept)
Activated form of factor IX. This activation can take place via the intrinsic pathway
by the action of factor XIa and calcium, or via the extrinsic pathway by the action
of factor VIIa, thromboplastin, and calcium. Factor IXa serves to activate factor
X to Xa by cleaving the arginyl-leucine peptide bond in factor X.
Activated form of factor IX. This activation can take place via the intrinsic pathway
of blood coagulation by the action of factor XIa and calcium, or via the extrinsic
pathway by the action of factor VIIa, thromboplastin, and calcium. Factor IXa serves
to activate factor X to Xa by cleaving the arginyl-leucine peptide bond in factor
X.