Watson and Crick's DNA structure
GPTKB entity
Statements (60)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
DNA model
|
| gptkbp:awardedBy |
gptkb:Francis_Crick
gptkb:Maurice_Wilkins gptkb:James_Watson |
| gptkbp:base |
adenine and thymine
cytosine and guanine |
| gptkbp:composedOf |
nucleotides
|
| gptkbp:description |
double helix
helical structure major groove minor groove |
| gptkbp:established |
gptkb:Francis_Crick
gptkb:James_Watson |
| gptkbp:features |
hydrogen bonds
antiparallel strands base pairing phosphate backbone |
| https://www.w3.org/2000/01/rdf-schema#label |
Watson and Crick's DNA structure
|
| gptkbp:impact |
molecular biology
genetics biotechnology |
| gptkbp:influenced |
gene therapy
personalized medicine biomedical research genomic studies synthetic biology |
| gptkbp:influencedBy |
gptkb:Chargaff's_rules
Rosalind_Franklin's_X-ray_diffraction |
| gptkbp:publishedIn |
Nature
|
| gptkbp:recognizedBy |
gptkb:Nobel_Prize_in_Physiology_or_Medicine
|
| gptkbp:relatedTo |
gptkb:mRNA
DNA replication biochemistry evolution mutation translation cell biology protein synthesis transcription bioinformatics evolutionary biology forensic science genetic engineering genetic variation heredity tRNA molecular genetics chromosomes ribosomes genetic code RNA structure eukaryotic_cells prokaryotic_cells |
| gptkbp:significance |
explains genetic information transmission
|
| gptkbp:usedIn |
DNA sequencing
CRISPR technology gene mapping cloning genetic diagnostics |
| gptkbp:yearEstablished |
1953
|