| { |
| "paper_id": "P01-1001", |
| "header": { |
| "generated_with": "S2ORC 1.0.0", |
| "date_generated": "2023-01-19T09:30:16.833894Z" |
| }, |
| "title": "Interpreting the human genome sequence, using stochastic grammars", |
| "authors": [ |
| { |
| "first": "Richard", |
| "middle": [], |
| "last": "Durbin", |
| "suffix": "", |
| "affiliation": { |
| "laboratory": "", |
| "institution": "The Sanger Centre Wellcome Trust Genome", |
| "location": { |
| "addrLine": "Campus Hinxton", |
| "postCode": "CB10 1SA", |
| "settlement": "Cambridge", |
| "country": "UK" |
| } |
| }, |
| "email": "rd@sanger.ac.uk" |
| } |
| ], |
| "year": "", |
| "venue": null, |
| "identifiers": {}, |
| "abstract": "The 3 billion base pair sequence of the human genome is now available, and attention is focusing on annotating it to extract biological meaning. I will discuss what we have obtained, and the methods that are being used to analyse biological sequences. In particular I will discuss approaches using stochastic grammars analogous to those used in computational linguistics, both for gene finding and protein family classification.", |
| "pdf_parse": { |
| "paper_id": "P01-1001", |
| "_pdf_hash": "", |
| "abstract": [ |
| { |
| "text": "The 3 billion base pair sequence of the human genome is now available, and attention is focusing on annotating it to extract biological meaning. I will discuss what we have obtained, and the methods that are being used to analyse biological sequences. In particular I will discuss approaches using stochastic grammars analogous to those used in computational linguistics, both for gene finding and protein family classification.", |
| "cite_spans": [], |
| "ref_spans": [], |
| "eq_spans": [], |
| "section": "Abstract", |
| "sec_num": null |
| } |
| ], |
| "body_text": [], |
| "back_matter": [], |
| "bib_entries": {}, |
| "ref_entries": {} |
| } |
| } |
