Data processing: database and file management or data structures – Database design – Data structure types
Reexamination Certificate
2001-01-03
2002-03-26
Choules, Jack (Department: 2177)
Data processing: database and file management or data structures
Database design
Data structure types
C702S020000, C707S793000
Reexamination Certificate
active
06363399
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates generally to relational databases for storing and retrieving biological information. More particularly the invention relates to systems and methods for providing full-length cDNA sequences in a relational format allowing retrieval in a client-server environment.
Informatics is the study and application of computer and statistical techniques to the management of information. In genome projects, bioinformatics includes the development of methods to search databases quickly, to analyze nucleic acid sequence information, and to predict protein sequence and structure from DNA or RNA sequence data.
Increasingly, molecular biology is shifting from the laboratory bench to the computer desktop. Today's researchers require advanced quantitative analyses, database comparisons, and computational algorithms to explore the relationships between sequence and phenotype. Thus, by all accounts, researchers cannot and will not be able to avoid using computer resources to explore gene expression, gene sequencing, and molecular structure.
One use of bioinformatics involves studying genes differentially or commonly expressed in different tissues or cell lines (e.g. normal and cancerous tissue). Such expression information is of significant interest in pharmaceutical research. The sequence tag method involves generation of a large number (e.g., thousands) of Expressed Sequence Tags (“ESTs”) from cDNA libraries (each produced from a different tissue or sample). ESTs are partial transcript sequences that may cover different parts of the cDNA(s) of a gene, depending on cloning and sequencing strategy. Each EST includes about 50 to 300 nucleotides. If it is assumed that the number of tags is proportional to the abundance of transcripts in the tissue or cell type used to make the cDNA library, then any variation in the relative frequency of those tags, stored in computer databases, can be used to detect the differential abundance and potentially the expression of the corresponding genes.
To make EST information manipulation easy to perform and understand, sophisticated computer database systems have been developed. In one database system, developed by Incyte Pharmaceuticals, Inc. of Palo Alto, Calif., abundance levels of mRNA species represented in a given sample are electronically recorded and annotated with information available from public sequence databases such as GenBank. The resulting information is stored in a relational database that may be employed to establish a cDNA profile for a given tissue and to evaluate changes in gene expression caused by disease progression, pharmacological treatment, aging, etc.
While relational database systems such as those developed by Incyte Pharmaceuticals, Inc. provide great power and flexibility in analyzing gene expression information, this area of technology is still in its infancy and further improvements in relational database systems and their content will help accelerate biological research for numerous applications.
SUMMARY OF THE INVENTION
The present invention provides relational database systems for storing biomolecular sequence information in a manner that allows sequences to be catalogued and searched according to one or more characteristics. The sequence information of the database is generated by one or more “projects” which are concerned with identifying the full-length coding sequence of a gene (i.e., mRNA). The projects involve the extension of an initial sequenced portion of a clone of a gene of interest (e.g., an EST) by a variety of methods which use conventional molecular biological techniques, recently developed adaptations of these techniques, and certain novel database applications. Data accumulated in these projects may be provided to the database of the present invention throughout the course of the projects and may be available to database users (subscribers) throughout the course of these projects for research, product (i.e., drug) development, and other purposes.
In a preferred embodiment, the database of the present invention and its associated projects may provide sequence and related data in amounts and forms not previously available. The present invention preferably makes partial and full-length sequence information for a given gene available to a user both during the course of the data acquisition and once the full-length sequence of the gene has been elucidated. The database also preferably provides a variety of tools for analysis and manipulation of the data, including Northern analysis and Expression summaries. The present invention should permit more complete and accurate annotation of sequence data, as well as the study of relationships between genes of different tissues, systems or organisms, and ultimately detailed expression studies of full-length gene sequences.
The invention provides a computer system including a database having sequence records containing information identifying one or more projects to which each of the sequence records belong. Each project groups together one or more biomolecular sequences generated during work to obtain a full-length gene sequence from a shorter sequence. The computer system also has a user interface allowing a user to selectively view information regarding one or more projects. The biomolecular sequences may include nucleic acid or amino acid sequences. The user interface may allow users to view at least three levels of project information including a project information results level listing at least some of the projects in said database, a sequence information results level listing at least some of the sequences associated with a given project, and a sequence retrieval results level sequentially listing monomers which comprise a given sequence.
A method of using a computer system and a computer program product to present information pertaining to a plurality of sequence records stored in a database are also provided by the present invention. The sequence records contain information identifying one or more projects to which each of the sequence records belong. Each of the projects groups one or more biomolecular sequences generated during work to obtain a full-length gene sequence from a shorter sequence. The method and program involve providing an interface for entering query information relating to one or more projects, locating data corresponding to the entered query information, and displaying the data corresponding to the entered query information.
Additionally, the invention provides a method of using a computer system to present information pertaining to a plurality of sequence records stored in a database. The sequence records contains information identifying one or more projects to which each of the sequence records belong. Each of the projects groups one or more biomolecular sequences generated during work to obtain a full-length gene sequence from a shorter sequence. The method involves displaying a list of one or more project identifiers, determining which project identifier or identifiers from the list is selected by a user, then displaying a second list of one or more biomolecular sequence identifiers associated with the selected project identifier or identifiers, determining which sequence identifier or identifiers from the second list has been selected by a user, and displaying a third list of one or more sequences corresponding to the selected sequence identifier or identifiers. Following the display of the third list, a determination may be made whether and which sequence from the third list has been selected by a user. If a sequence is selected, a sequence alignment search of the selected sequence against other databased sequences may be initiated, and the results of the alignment search displayed.
For Electronic Northern analysis, the invention further provides a computer system including a database having sequence records containing information identifying one or more projects to which each of the sequence records belong, each of said projects grouping one or more biomolecular sequences generated
Akerblom Ingrid E.
Au-Young Janice
Cheng Rachel J.
Hibbert Harold
Hillman Jennifer L.
Beyer Weaver & Thomas LLP
Choules Jack
Incyte Genomics Inc.
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