Category:BGT DNA Compaction Peptide(B29890)
From BiomedGT
BGT_DNA Compaction Peptide(B29890)
Lexical
Concept Code: B29890
(N)
Preferred Name: DNA Compaction Peptide
Coding Scheme: BGT (09.06a )
Synonym: DNA Compaction Peptide (PT) (Source: NCI)
Definition: A synthetic peptide used to formulate and deliver deoxyribonucleic acids (DNA, usually in plasmid form) in gene therapy. The carrier peptides may condense plasmids into nano-particles with a hydrodynamic diameter ranging from 40 to 200 nm, which are sterically stable for long periods of time. Peptide-based gene delivery systems are used for transfection in a variety of cell lines. (NCI04) (Source: NCI)
URI: http://ncicb.nci.nih.gov/xml/owl/EVS/BiomedGT.owl#B29890
Properties
Semantic_Type: Pharmacologic Substance
Semantic_Type: Amino Acid, Peptide, or Protein
NCI_META_CUI: CL319982
Associations
Parent: Drug_Vehicle (primitive)
Form:LexWiki_BGT_Form
| BGT Concept Type(P365) | N + |
| BGT NCI META CUI(P208) | CL319982 +info.pngNCI META CUI lookup |
| BGT Semantic Type(P106) | Pharmacologic Substance +info.pngSemantic Type lookup , and Amino Acid, Peptide, or Protein +info.pngSemantic Type lookup |
| BGT Synonym(P104) | DNA Compaction Peptide + |
| DCTerms hasVersion(hasVersion) | BGT/Versions/09.06a + |
| Has default form | LexWiki BGT Form + |
| LexWiki Concept Code | B29890 + |
| LexWiki Definition | A synthetic peptide used to formulate and … A synthetic peptide used to formulate and deliver deoxyribonucleic acids (DNA, usually in plasmid form) in gene therapy. The carrier peptides may condense plasmids into nano-particles with a hydrodynamic diameter ranging from 40 to 200 nm, which are sterically stable for long periods of time. Peptide-based gene delivery systems are used for transfection in a variety of cell lines. (NCI04) (Source: NCI) riety of cell lines. (NCI04) (Source: NCI) |
| LexWiki Preferred Name | DNA Compaction Peptide + |
| LexWiki URI | http://ncicb.nci.nih.gov/xml/owl/EVS/BiomedGT.owl#B29890 + |
| SKOS inScheme(inScheme) | BGT + |
This category currently contains no articles or media.
