Preferred Label : Two-Hybrid system techniques;
MeSH definition : Screening techniques first developed in yeast to identify genes encoding interacting
proteins. Variations are used to evaluate interplay between proteins and other molecules.
Two-hybrid techniques refer to analysis for protein-protein interactions, one-hybrid
for DNA-protein interactions, three-hybrid interactions for RNA-protein interactions
or ligand-based interactions. Reverse n-hybrid techniques refer to analysis for mutations
or other small molecules that dissociate known interactions.;
MeSH synonym : two hybrid assay; two hybrid method; two hybrid system technics; two-hybrid assay; two-hybrid assays; two-hybrid method; two-hybrid methods; two-hybrid system technic; two-hybrid system technics; two-hybrid system technique; method, two-hybrid; technics, two-hybrid system; techniques, two-hybrid system; technique, two-hybrid system; technic, two-hybrid system; assay, two-hybrid; assays, two-hybrid; methods, two-hybrid; two hybrid system techniques;
MeSH Hyperonym : n-Hybrid system techniques; System Technique, n-Hybrid; System Techniques, n-Hybrid; Technique, n-Hybrid System; Techniques, n-Hybrid System; n Hybrid System Techniques; n-Hybrid System Technique;
MeSH hyponym : yeast Two-Hybrid system techniques; Yeast Two Hybrid System Techniques; Yeast Two-Hybrid System; System, Yeast Two-Hybrid; Systems, Yeast Two-Hybrid; Two-Hybrid System, Yeast; Two-Hybrid Systems, Yeast; Yeast Two Hybrid System; Yeast Two-Hybrid Systems; Yeast Two-Hybrid Assay; Assay, Yeast Two-Hybrid; Assays, Yeast Two-Hybrid; Two-Hybrid Assay, Yeast; Two-Hybrid Assays, Yeast; Yeast Two Hybrid Assay; Yeast Two-Hybrid Assays;
Related MeSH term : yeast Three-Hybrid system techniques; Three-Hybrid system techniques; reverse Two-Hybrid system techniques; One-Hybrid system techniques; yeast One-Hybrid system techniques; reverse Three-Hybrid system techniques; reverse One-Hybrid system techniques; One Hybrid System Techniques; One-Hybrid System Technique; Technique, One-Hybrid System; Techniques, One-Hybrid System; One-Hybrid System Technics; One Hybrid System Technics; One-Hybrid System Technic; Technic, One-Hybrid System; Technics, One-Hybrid System; Reverse One Hybrid System Techniques; Reverse Two Hybrid System Techniques; Technique, Three-Hybrid System; Techniques, Three-Hybrid System; Three Hybrid System Techniques; Three-Hybrid System Technique; Tri-Hybrid System Techniques; Technique, Tri-Hybrid System; Techniques, Tri-Hybrid System; Tri Hybrid System Techniques; Tri-Hybrid System Technique; Three-Hybrid System Technics; Technic, Three-Hybrid System; Technics, Three-Hybrid System; Three Hybrid System Technics; Three-Hybrid System Technic; Yeast One Hybrid System Techniques; Yeast Three Hybrid System Techniques; Yeast Three-Hybrid System; System, Yeast Three-Hybrid; Systems, Yeast Three-Hybrid; Three-Hybrid System, Yeast; Three-Hybrid Systems, Yeast; Yeast Three Hybrid System; Yeast Three-Hybrid Systems; Yeast Three-Hybrid Assay; Assay, Yeast Three-Hybrid; Assays, Yeast Three-Hybrid; Three-Hybrid Assay, Yeast; Three-Hybrid Assays, Yeast; Yeast Three Hybrid Assay; Yeast Three-Hybrid Assays; Reverse Three Hybrid System Techniques;
Origin ID : D020798;
UMLS CUI : C0752172;
Allowable qualifiers
- Record concept(s)
- See also
- Semantic type(s)
Screening techniques first developed in yeast to identify genes encoding interacting
proteins. Variations are used to evaluate interplay between proteins and other molecules.
Two-hybrid techniques refer to analysis for protein-protein interactions, one-hybrid
for DNA-protein interactions, three-hybrid interactions for RNA-protein interactions
or ligand-based interactions. Reverse n-hybrid techniques refer to analysis for mutations
or other small molecules that dissociate known interactions.
