- 1 General help
- 2 Tab Descriptions
The QuickSearch tool on the FlyBase home page allows searching across all FlyBase reports. Forms for searching specific types of data have been separated into ‘tabs’, arrayed at the top of the QuickSearch window. Information on how to use each of the QuickSearch tabs can be found below.
Links to specific help for each tab:
- Search FlyBase tab
- Data Class tab
- Expression tab
- GAL4 etc tab
- Gene Groups tab
- GO tab
- Human Disease tab
- Orthologs tab
- Phenotype tab
- Protein Domains tab
- References tab
Also see this publication:
- Marygold SJ, Antonazzo G, Attrill H, Costa M, Crosby MA, Dos Santos G, Goodman JL, Gramates LS, Matthews BB, Rey AJ, Thurmond J; FlyBase Consortium. (2016)
- Exploring FlyBase Data Using QuickSearch.
- Curr. Protoc. Bioinformatics 56:1.31.1-1.31.23 (FBrf0234167)
All tabs search data for all species included in FlyBase. An option to filter by species is provided in the resulting hit-list.
Several QuickSearch tabs search FlyBase data by making use of controlled vocabulary (CV) terms. These tabs provide intuitive domain-specific searches of FlyBase reports based on the Gene Ontology (GO) controlled vocabulary, on anatomical, developmental-stage-specific or phenotypic class terms used to annotate phenotypes, and on anatomical and/or developmental-stage-specific terms used to annotate gene expression. Combinations of CV terms can be searched using the forms in these tabs. An auto-completion feature is active wherever a search term should come from a CV, to assist you in choosing terms that will match records in FlyBase. The various controlled vocabularies used in FlyBase can also be searched or browsed by clicking on the "Vocabularies" button above the QuickSearch box on the home page.
The QuickSearch auto-completion feature is active in tabs that search FlyBase using controlled Vocabulary terms. Since only terms that are in the controlled Vocabulary will match records in FlyBase, the auto-completion feature suggests CV terms that are compatible with what you have typed. Selecting a term from the suggestion list reduces the possibility of a search returning nothing because the search term is not one that is used by FlyBase curators. The various controlled vocabularies used in FlyBase can also be searched or browsed by clicking on the "Vocabularies" button above the QuickSearch box on the home page.
Some tabs for non-CV-based searches also use the auto-complete feature. Several of the searchable fields available in the References tab are enhanced with auto-completion, which helps prevent searches that fail due to mis-spelled names or mis-remembered journal titles. Most of the data classes searchable under the Data Class tab have auto-completion associated with them as well.
The QuickSearch auto-completion feature overrides your browser’s auto-completion function. Important Note -- In the Data Class and References tabs, the auto-complete function must be selected. If the auto-complete button is not checked, your browser's auto-complete function may operate and will offer options based on your history rather than valid FlyBase terms.
The coordinated auto-completion feature is active for tabs in which several search terms may be used simultaneously for a search. When a term has been entered in one of these fields, the coordinated auto-completion for the other fields is aware of the term already typed, and suggests only terms that actually occur in combination with the first term in FlyBase reports. Here is an example of how it works in the Expression tab:
In the Expression tab, text box fields for Stage, Tissue, and Cell Loc. (cell location) are displayed. The auto-completion for these three fields is coordinated in the following sense: Suppose you enter "fertilized egg stage" in the Stage text box. When you move your focus to the Tissue text box, auto-complete there will show only four options; "egg", "female pronucleus", "fertilized egg", and "male pronucleus". This is because, out of the multitude of CV terms available for the Tissue field, only these four terms have actually been used in combination with "fertilized egg stage" by curators in an annotation captured in the FlyBase database. If you enter any other term in the Tissue text box, even though it may be a valid CV term for that field, your search would return zero hits, because there are no FlyBase reports containing that combination of CV terms.
Using the terms suggested by the auto-completion feature ensures that you do not enter terms that would be mutually exclusive (or are simply not used by curators) in FlyBase reports. Terms suggested by the auto-completion should always return results. If the coordinated auto-completion does not offer a term you wish to enter in a field, it is because this term does not appear in combination with some other term you have entered elsewhere on the form. In this case you should try another combination.
When you use QuickSearch you can add the asterisk character ( * ) to the beginning or the end of a search term. This is recognized as a “wild card” and will find all terms that contain your search term at the end or beginning of a phrase, respectively. You can also flank your search term with wild card characters to find all phrases containing your search term. For example, you can find the genes that start with 'ft' by entering 'ft*'. (Search the Genes data class either under the Simple tab by selecting the 'Genes' data class from the result summary table, or under the Data Class tab by selecting 'genes' from the Data Class drop-down menu.) The result of this search lists fat (ft) and fushi tarazu (ftz), as you would expect, and also fruitless (fru), because it has the synonym 'fty'.
Please note that wild cards cannot be used in numeric fields (year, etc).
Search FlyBase tab
This tab performs a comprehensive search of text-searchable FlyBase data. This includes most fields from all data classes of reports.
Enter one or more search terms in the box. The search term box of the Simple tab supports a number of additional features that can be used to narrow or broaden the query. A wildcard character (*) can be appended, prepended or added within a search term to broaden the query. When specifying multiple terms, a Boolean ‘AND’ is used for searches by default and does not require any special notation (e.g. a search for ‘neurogenesis microtubule polymerization’ will return only hits that have all of those three terms somewhere in the record). A Boolean ‘OR’ can be added to find records that have one or another of a list of specified terms (e.g. ‘cnn OR cbs’). To exclude certain terms from the results, prefix the term(s) to be excluded with a ‘-’ character (e.g. ‘Parkinson -CG5680’). Finally, results can be specified to contain an exact phrase by surrounding the search term with double quotes (e.g. “SH3 domain”).
Click on the 'Search' button or press 'enter'. The search returns a result page summarizing the matching records by data type. Clicking on one of these data types takes you to a secondary result page containing a table of individual matches within that data type. Click on any of these to view its report page. QuickSearch also places your query text in a resubmission form on the result summary page, where you can edit or refine the phrase directly and search again, without having to start over.
The QuickSearch auto-completion feature is not active in this tab.
Data Class tab
The Data Class tab allows searches that are restricted to only a single chosen data type.
Choose from among the data types offered in the Data Class dropdown menu. There is also an "All data classes" option.
Choose to search just "ID/Symbol/Name" or search "All text" by clicking the appropriate box.
Enter a symbol appropriate to the selected data type in the "Enter text" box. Clicking the "QuickSearch autocomplete" option will enable the autocomplete function, which allows you to choose from among valid symbols for the selected data type. The QuickSearch auto-completion feature is active for most of the data classes in this tab.
Important Note -- The auto-complete function must be selected. If the auto-complete button is not checked, your browser's auto-complete function may operate and will offer options based on your history rather than valid FlyBase terms.
Search for genes according to expression patterns:
The top part of the tab contains a form allowing searching of curated statements that describe published accounts of transcript and polypeptide expression as well as expression associated with reporter constructs and insertions. Choose the expression pattern you wish to search for. The form has input boxes for Developmental Stage, Anatomy/Cell Type, and Cellular Component. The coordinated auto-completion feature will assist you in finding an appropriate controlled vocabulary (CV) terms or combination of terms that have been used during the curation of each descriptor. Please note that if you fill one of the three boxes, the autocompleted options you will be offered in the other two boxes will include only terms that have been used with the term you have entered into the box or boxes you have already filled. You do not need to fill every box to search.
You can refine this search further by choosing to add qualifier terms. Click the "+" sign above the search boxes to bring up additional search boxes for entering qualifier terms. The coordinated auto-completion feature will provide you with a list of CV terms that have been used by curators to modify or limit the associated main term. The auto-completion for the qualifier terms is fully coordinated across all of these fields, in the sense that choosing a term for (e.g.) the Developmental Stage input will affect which qualifier terms are suggested for the Anatomy/Cell Type or Cellular Component. qualifier fields. Please note: many embryonic expression patterns, such as "pair rule expression pattern" are spatial qualifiers, not anatomy terms; you can search for such terms by filling the Anatomy/Cell Type qualifier box while leaving the Anatomy/Cell Type box unfilled.
Running the search will take you to a hit list of genes to which the search terms have been associated. To see other classes of hits (Alleles, Insertions, Recombinant Constructs), click on the associated green box at the top of the results page. To see the curated expression patterns, click on an item in the hit list and open the "Expression Data" section of the corresponding report. If you are looking for expression patterns of GAL4 or other binary drivers or lacZ or GFP reporters, use the new GAL4 etc tab. Alternatively, choose the green box labeled "Alleles", click one of the blue arrows in the Symbol column to sort alphabetically, then scroll until you reach symbols that start with the text "Ecol\lacZ" (lacZ reporters) or "Scer\GAL4" (GAL4 drivers). Expression data is associated with the insertion or transgenic construct associated with the allele; the associated insertion or construct can be found on the allele report under the General Information section at the top of the report, under the fields "Associated Insertion(s)" and "Carried in Constructions". Alternatively, you can select all the alleles of interest in the Alleles hitlist, then select the Batch Download option from the HitList Conversion Tools button. In the Select Fields menu, choose "Associated insertion(s)" and "Carried in construct", found under the "Nature of the Allele" heading. This will generate a hitlist of the insertions and constructs to which the desired driver or reporter expression pattern have been curated.
The bottom section of this tab contains a dropdown menu with links to a variety of RNA-Seq Search tools. GBrowse allows you to visually examine RNA-Seq expression levels in particular regions of the genome. The RNA-Seq Profile Search can be used to search for genes that have a specific expression pattern of interest. RNA-Seq Similarity Search allows you to search for genes with a similar pattern of expression to the input gene. RNA-Seq by Region allows the comparison of RNA-Seq signals in a given region across samples or to compare signal between two regions in a single sample. You can find a more detailed description of these RNA-Seq search options on the RNA-Seq overview page. There are video tutorials available for RNA-Seq in GBrowse, RNA-Seq Profile Search, and RNA-Seq Similarity Search.
GAL4 etc tab
The GAL4 etc tab allows searches for GAL4 and other binary system drivers, and for non-binary reporters, by temporal-spatial expression pattern as curated from the literature.
Driver/Reporter Choose from among five Driver/Reporter options: GAL4, QF, or LexA binary drivers, or lacZ or GFP reporters.
Output format options Choose the Output format: Integrated Table or List. The List output provides a faceted hitlist consisting of alleles, insertions, transgenic constructs, and stocks. The Integrated Table output provides a customized table view of the hitlist. This format shows the connection between particular alleles, insertions, constructs, and stocks; additionally, the Relevant Expression Statements column lists the anatomy, stage, and/or GO cellular component controlled vocabulary term that triggered the search result. The Integrated Table view also pre-sorts drivers/reporters with a publically available stock to the top of the hitlist.
Search by expression pattern Choose the expression pattern you wish to search for. The form has input boxes for Developmental Stage, Anatomy or Cell Type, and Cellular Component. The coordinated auto-completion feature will assist you in finding an appropriate controlled vocabulary (CV) terms or combination of terms that have been used during the curation of each descriptor. Please note that if you fill one of the three boxes, the autocompleted options you will be offered in the other two boxes will include only terms that have been used with the term you have entered into the box or boxes you have already filled.
Search with qualifier terms You can refine this search further by choosing to add qualifier terms. Click the “+” sign above the search boxes to bring up additional search boxes for entering qualifier terms. The coordinated auto-completion feature will provide you with a list of CV terms that have been used by curators to modify or limit the associated main term. The auto-completion for the qualifier terms is fully coordinated across all of these fields, in the sense that choosing a term for (e.g.) the Stage input will affect which qualifier terms are suggested for the Anatomy/Cell Type or Cellular Component qualifier fields. Please note: many embryonic expression patterns, such as pair rule expression pattern are spatial qualifiers, not anatomy terms; you can search for such terms by filling the Anatomy/Cell Type qualifier box while leaving the Anatomy/Cell Type box unfilled.
Choosing the correct search stringency It is important to note that you should fill only as many fields as you need; for this tab, you should usually leave the Cellular Component field unfilled. Also note that this tool supports searching a set of hierarchical controlled vocabularies. For example, if you search GAL4 drivers for the anatomy term "imaginal disc", you will get not only the list of all such drivers annotated with the term imaginal disc, but also all terms that have an is_a relationship (e.g., wing disc, eye disc) or part_of relationship (e.g., imaginal disc posterior compartment, wing pouch) to "imaginal disc". The terms that appear in the Relevant Expression Pattern column of the Integrated Table hitlist can assist you in choosing a more specific search term; you can also use the Vocabularies tool to find controlled vocabulary terms.
Accessing the full expression pattern Note: Many drivers and reporters may be expressed at other developmental stages and/or in other tissues or cell types than the pattern you searched for; clicking through to the Insertion Reports or Construct Reports of your hits will allow you to see the complete curated expression pattern of the drivers or reporters in your hitlist.
Gene Groups tab
This tab searches FlyBase-curated 'Gene Groups' - sets of genes/gene products that are acknowledged to form a biological group, such as members of a gene family (e.g. Actins, Wnts), subunits of a protein complex (e.g. proteasome, ribosome), or some other functional grouping (e.g. cadherins or caspases).
To use, either start typing and select the appropriate Gene Group name from the auto-complete suggestions, or enter your own text, using wildcard(s) (*) if desired. Then click the 'Search' button or press 'enter'. The resulting hits will be Gene Groups that wholly or partially match your search term. Alternatively, enter the symbol, name or ID of a gene in the search box to retrieve those Gene Groups to which that gene belongs.
Click the 'browse' link at the bottom of the panel to see a full list of Gene Groups.
Search the Gene Ontology (GO) controlled vocabulary directly. You can search all GO terms or limit your search to the molecular function, biological process, or cellular component GO vocabularies by selecting from the "Data Field" dropdown menu.
Results are in the form of a hit list of matching GO terms. Clicking on the term of interest takes you to the term report from which, among other things, you can get a list of genes that are annotated with that GO term; look in the Records annotated with this exact term section. Note, as the GO is an ontology, all child terms will possess the property of the parent, therefore consider using Records annotated with this term OR any of its CHILDREN TERMS to get a complete gene list.
Please see the Vocabularies help page for more information.
The QuickSearch auto-completion feature is active in this tab.
Human Disease tab
Search Human Disease Model Reports and the Disease Ontology (DO) by entering a disease, human disease-associated gene, or Drosophila melanogaster gene, into the search box. This search supports a great deal of flexibility in search text.
You can search by disease using:
- Disease Ontology (DO) term (e.g., autosomal dominant Parkinson Disease 1)
- DOID (e.g., DOID:0060367 or 0060367)
- Human Disease Model name (e.g., Parkinson disease 1)
- Human Disease Model ID (e.g., FBhh0000006)
- OMIM phenotype term (e.g., PARKINSON DISEASE 1, AUTOSOMAL DOMINANT)
- OMIM phenotype ID (e.g., 168601)
- disease synonym (e.g., PD1).
You can search by human disease-associated gene using:
- HGNC (Human Gene Nomenclature Committee) gene symbol (e.g., SNCA)
- HGNC ID (e.g., 11138)
- OMIM genotype symbol (e.g. ALSIN)
- OMIM genotype ID (e.g., 606352)
You can search by Drosophila melanogaster gene using:
- FlyBase gene symbol (e.g., Sod1)
- FlyBase gene name (e.g., superoxide dismutase 1)
- FlyBase gene ID (e.g., FBgn0003462)
Please note that for HGNC and OMIM IDs, you can search only using the digits of the ID number; so 11138 or 606352 work as search terms, but HGNC:11138 or OMIM:606352 do not.
Please note that disease synonyms work only for exact synonyms that have been attached to a Human Disease Model or to a DO term. So, the search string "ALS" fails to find the disease "amyotrophic lateral sclerosis 4", as "ALS4" is a synonym for that disease, but "ALS" is not. Addition of a wild card (e.g., ALS*) will, in many cases, get around this issue.
The QuickSearch auto-completion feature is active in this tab; auto-completion works for
- Disease Ontology terms and DOIDs (digits only)
- Human Disease Model names and IDs
- OMIM phenotype terms
- HGNC gene symbols and IDs
- FlyBase gene symbols, names, and IDs
The results are a hit list of matching Disease Ontology CV terms, Human Disease Model Reports, Drosophila melanogaster genes associated with a Human Disease Model, and Drosophila melanogaster alleles with a models_of relationship to a Disease Ontology term. Clicking on the Disease Ontology term of interest takes you to a term report from which, among other things, you can get a list of all genes or alleles that have been used to model, or interact with a model, of that disease in flies; you can also get to Human Disease Model Reports, which compile all of the disease model-related information on that disease in FlyBase. Please see the Vocabularies help page for more information. Human Disease Model, Gene, and Allele hits take you to the corresponding report.
Click the 'browse' button to see a full list of Human Disease Model Reports. This list has been organized as an index, so that you can easily browse to your disease; for example, Machado-Joseph disease is redundantly listed as Machado-Joseph disease, under polyglutamine diseases, and under spinocerebellar ataxia.
This tab can be used to quickly search for orthologs of D. melanogaster, human or other model organism genes, as provided by the DRSC Integrative Ortholog Prediction Tool (DIOPT) or OrthoDB. The DIOPT dataset integrates ortholog predictions for humans and 9 model organisms from multiple tools and algorithms. (Further documentation is here.) The OrthoDB dataset (as implemented in FlyBase) comprises ~50 species, biased towards those that are closely related to D. melanogaster, and arranged into 5 ‘orthology groups’: Drosophila species, non-Drosophila Dipterans, non-Dipteran Insects, non-Insect Arthropods, non-Arthropod Metazoa. A related video tutorial can be found at Using the Orthology search tool.
To use, first select the input species by clicking on the Species dropdown menu. Next, enter one or more gene symbols/IDs in the adjacent Gene(s) box - multiple entries are accepted and need to be separated by spaces. (Response time will be proportional to the number of entries.) Then, select one or more output species using the check-boxes. Where the input species is D. melanogaster, there is a choice between searching for orthologs in 'humans and model organisms' (the DIOPT dataset) or in 'Drosophila species, insects etc' (the OrthoDB dataset). Finally, click the Search button or press ‘enter’.
The symbols/IDs that may be entered in the Gene(s) box depends on the 'input species', as follows:
|Input species||Allowable symbols/IDs (example)|
|H. sapiens||HGNC gene symbol (e.g. CDK1) or gene ID (e.g. HGNC:1722); OMIM ID (e.g. OMIM_GENE:116940); NCBI Gene ID (e.g. '983); Ensembl ID (e.g. ENSG00000170312)|
|R. norvegicus||RGD gene symbol (e.g. Cdk1) or gene ID (e.g. 2319); NCBI Gene ID (e.g. 54237)|
|M. musculus||MGI gene symbol (e.g. Cdk1) or gene ID (e.g. MGI:88351); NCBI Gene ID (e.g. 12534)|
|X. tropicalis||XenBase gene symbol (e.g. cdk1) or gene ID (e.g. XB-GENE-482750); NCBI Gene ID (e.g. 394503)|
|D. rerio||ZFIN gene symbol (e.g. cdk1) or gene ID (e.g. ZDB-GENE-010320-1); NCBI Gene ID (e.g. 80973)|
|D. melanogaster||FlyBase gene symbol (e.g. Cdk1), annotation symbol (e.g. CG5363), or gene ID (e.g. FBgn0004106); NCBI Gene ID (e.g. 34411)|
|C. elegans||WormBase gene symbol (e.g. cdk-1) or gene ID (e.g. WBGene00000405); NCBI Gene ID (e.g. 176374)|
|A. thaliana||Araport gene symbol (e.g. CDC2) or gene ID (e.g. AT3G48750); NCBI Gene ID (e.g. 824036)|
|S. cerevisiae||SGD gene symbol (e.g. CDC28) or gene ID (e.g. S000000364); NCBI Gene ID (e.g. 852457)|
|S. pombe||PomBase gene symbol (e.g. cdc2); NCBI Gene ID (e.g. 2539869)|
Note that symbol-based searches are case-sensitive - to ensure validity, users should select a gene symbol from the auto-suggest list that appears when typing. (Auto-suggest works only for the first entered symbol.) Also note that this tool does not support searching using gene fullnames.
On the results page, the top row shows the search term, species, the matched gene symbol, and any relevant links to Gene Reports. Below this are the column headers, followed by the list of ortholog predictions arranged by species. For DIOPT-based searches, the columns are:
- Ortholog Gene: official gene symbol, as used in the relevant model organism database
- Ortholog Gene Reports: links to report pages at model organism databases, NCBI, Ensembl and/or OMIM
- Score: the number of tools that support a given orthologous gene-pair relationship compared to the total number of tools that compute orthology relationships for those two species (expressed as "X of Y")
- Best Score: either ‘yes’ or ‘no’, indicating whether the given ortholog has the highest score for the query gene within that species
- Best Rev Score: either ‘yes’ or ‘no’, indicating whether the query gene has the highest score for the given ortholog in the reciprocal search; also includes a link to show the full results of performing the reciprocal search (among those species selected in the original query)
- Source: list of individual ortholog prediction tools that support a given orthologous gene-pair relationship
- Align: link to an alignment between the given orthologous gene-pairs on the DIOPT site
- Transgene in Fly: link to a FlyBase Gene Report for a non-Drosophila gene, indicating that that gene has been expressed transgenically in Drosophila
The results page for OrthoDB-based searches is similar, except that the DIOPT-specific columns are absent and the ‘Source’ column lists only ‘OrthoDB’. The 'orthology group' to which the species belongs is shown on the right side of each species line.
In cases where there are multiple hits to a single search term (as may happen when a numerical ID is entered), then all hits together with their predicted orthologs are shown in the results table.
Clicking on the Save results as tsv file text at the top of the results page will download all the results shown in that page to a file in tab separated value format, with one orthologous gene-pair per line. For DIOPT-based searches, it has the following columns:
- query_context: the entered search term
- query_species: the selected input species
- query_gene: the matched input gene symbol
- target_species: the selected output species
- ortholog_gene: official gene symbol, as used in the relevant model organism database
- ortholog_gene_reports: gene IDs at model organism databases, NCBI, Ensembl and/or OMIM
- source: list of individual ortholog prediction tools that support a given orthologous gene-pair relationship
- score: a simple score indicating the number of tools that support a given orthologous gene-pair relationship
- best_score: either ‘yes’ or ‘no’ to indicate whether the given ortholog has the highest score for the query gene
- best_reverse_score: either ‘yes’ or ‘no’ to indicate whether the query gene has the highest score for the given ortholog in the reciprocal search
- transgene_in_fly: Where applicable, the FlyBase gene ID and symbol for a non-Drosophila gene where that gene has been expressed transgenically in Drosophila
The columns for OrthoDB-based searches are similar, except that the DIOPT-specific columns are absent and the ‘Source’ column lists only ‘OrthoDB’.
For DIOPT-based searches, clicking on the Exclude scores <3 text at the top of the results page will remove any ortholog calls with a DIOPT score less than 3 (i.e. only 1 or 2 individual prediction tools support that particular call), which is useful if the unfiltered list is long owing to many low scoring calls. The text switches to Show scores <3, and clicking again reverts back to the full list.
This tool allows searching for alleles that have particular phenotypes. The form is divided into two portions, which may be used independently or in combination.
The top section searches for alleles with a particular phenotypic class (e.g. "lethal" or "behavior defective"). You can refine this search further using the refinement boxes, searching for a phenotype that occurs at a particular developmental stage (e.g. an embryonic stage) and/or under particular conditions (e.g. "recessive" or "heat sensitive").
The bottom section searches for alleles that show a phenotype in a particular tissue or cell type (e.g. "wing" or "RP2 neuron"). This uses terms from the controlled vocabulary or cellular component terms from the Gene Ontology controlled vocabulary. Again, you can refine this search further using the refinement boxes.
A coordinated auto-completion feature will assist you in finding the appropriate controlled vocabulary (CV) terms that have been used during the curation of each phenotype. The refinement boxes will only suggest terms that have been curated in combination with the main search term. Please note that this auto-completion works within the two sections, but not between them. This means it is possible even when using auto-completion suggestions, to search on a combination of terms entered in both sections of this form that will return zero hits.
Please see the related Video Tutorial 'Finding genes with similar phenotypes'.
Protein Domains tab
Search for genes whose product(s) have a specified domain, repeat or site, or belong to a particular protein family, as defined by InterPro. (See the InterPro FAQs page for an explanation of different signature types.)
To use, either start typing and select an InterPro term from the auto-complete suggestions (recommended) or enter your own term, using wildcard(s) (*) if desired. Then click the 'Search' button or press 'enter'. Resulting hits will be genes whose protein products are associated with an InterPro signature that wholly or partially matches your search term. E.g. A search for 'Ubiquitin' will retrieve hits to the InterPro family 'Ubiquitin', as well as other InterPro signatures that contain that word ('Ubiquitin domain', 'Ubiquitin conserved site' etc.). If you wish to retrieve hits annotated with a specific InterPro signature, then the InterPro ID (e.g. 'IPR019956') should be used.
This tab searches the extensive FlyBase bibliography. To use, first select which fields you wish to search by checking the appropriate box(es) at the top, then enter one or more search term(s) as appropriate. Note that certain fields allow the use of Boolean operators (AND, OR, NOT), the year field supports mathematical comparison symbols (>,>=,<,<=) and range indicators (-,--,..), and the FlyBase auto-complete feature is active in applicable fields. wildcard(s) (*) can be added to any search term except for 'Year'. This functionality is summarized in the following table:
|Field||Boolean terms accepted?||Auto-complete active?||Wild cards accepted?||Example|
|Author||Yes||Yes||Yes||Smith NOT Johnson|
|All report fields||No||No||Yes||dpp|