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توضیحات

Resources for grounding protein complexes and families from text and describing their hierarchical relationships.

ویژگی	مقدار
سیستم عامل	-
نام فایل	famplex-0.0.4
نام	famplex
نسخه کتابخانه	0.0.4
نگهدارنده	[]
ایمیل نگهدارنده	[]
نویسنده	Famplex Developers, Harvard Medical School
ایمیل نویسنده	-
آدرس صفحه اصلی	https://github.com/sorgerlab/famplex
آدرس اینترنتی	https://pypi.org/project/famplex/
مجوز	-

# FamPlex [![Build Status](https://travis-ci.org/sorgerlab/famplex.svg?branch=master)](https://travis-ci.org/sorgerlab/famplex) *FamPlex* is a collection of resources for grounding protein families and complexes from text and describing their hierarchical relationships. Resources were developed by manual curation for use by natural language processing and biological modeling teams in the [DARPA Big Mechanism](http://www.darpa.mil/program/big-mechanism) and [Communicating with Computers](http://www.darpa.mil/program/communicating-with-computers) programs. The open access publication describing FamPlex is available here: * John A. Bachman, Benjamin M. Gyori and Peter K. Sorger, [FamPlex: a resource for entity recognition and relationship resolution of human protein families and complexes in biomedical text mining](https://bmcbioinformatics.biomedcentral.com/articles/10.1186/s12859-018-2211-5). (2018) BMC Bioinformatics 19(1):248 Note: FamPlex used to be called Bioentities, and was renamed to better reflect the focus of the resource on protein families, complexes, and their lexical synonyms. The repository contains the following files: * ```relations.csv```. Defines membership of specific genes/proteins in families and protein complexes. For example, ```PIK3CA isa PI3K_p110```, where PI3K_p110 represents the class of catalytic subunits of PI3K; and ```PI3K_p110 partof PI3K```, where PI3K represents a named complex consisting of a catalytic and regulatory subunit. * ```equivalences.csv```. Defines mappings between outside namespaces and the FamPlex namespace. * ```entities.csv```. A registry of the families and complexes defined in the FamPlex namespace. * ```descriptions.csv```. Descriptions and citations of some entities. Contains three columns: the FamPlex name, pipe separated reference CURIEs, and a textual description. * ```grounding_map.csv```. Explicit mapping of text strings to identifiers in biological databases. * ```gene_prefixes.csv```. Patterns of prefixes and suffixes on named entities. * ```check_references.py```. A script to check the integrity and completeness of the cross-references among the various files. ## Entities, Relations and Equivalences *FamPlex* contains resources for defining the relationships between genes/proteins and their membership in families and named complexes. Entities defined within the FamPlex namespace are listed in the ```entities.csv``` file. Cross-referencing the entries among the various files maintains consistency and prevents errors. Relationships are defined in ```relations.csv``` as a triples using two relationships: * ```isa```, denoting membership in a family; * ```partof```, denoting membership in a protein complex. These two relationships can be combined to capture complex hierarchical relationships, including sub-families (families within families) and complexes consisting of families of related subunits (e.g., PI3K, NF-kB). The ```relations.csv``` file consists of five columns: (1) the namespace for the subject (e.g., ```HGNC``` for gene names, ```UP``` for Uniprot, or ```FPLX``` for the FamPlex namespace), (2) the identifier for the subject, (3) the relationship (```isa``` or ```partof```), (4) the namespace for the object, and (5) the identifier for the object. The ```equivalences.csv``` file consists of three columns (1) the namespace of an outsite entity (e.g. ```BEL```, ```PFAM```), (2) the identifier of the outside entity in the namespace given in the first column, and (3) the equivalent entity in the ```FPLX``` namespace. ## Grounding Map Using mechanisms extracted from text mining to explain biological datasets requires that the entities in text are correctly grounded to the canonical names and IDs of genes, proteins, and chemicals. The problem is that simple lookups based on string matching often fail, particularly for protein families and named complexes, which appear frequently in text but lack corresponding entries in databases. The grounding map addresses this by providing explicit grounding for frequently encountered entities in the biological literature. The text strings were drawn from a corpus of roughly 32,000 papers focused on growth factor signaling in cancer. Entities are grounded to the following databases: * Genes/proteins: [Uniprot](http://www.uniprot.org) * Chemicals: [PubChem](https://pubchem.ncbi.nlm.nih.gov/), [CHEBI](https://www.ebi.ac.uk/chebi/), and [HMDB](http://www.hmdb.ca/) (for metabolites) * Biological processes: [GO](http://geneontology.org/) and [MeSH](http://www.ncbi.nlm.nih.gov/mesh) * Protein families and named complexes: grounded to entities defined within the FamPlex repository in the ```entities.csv``` and ```relations.csv``` files, and to identifiers in [PFAM](http://pfam.xfam.org/) and [Interpro](https://www.ebi.ac.uk/interpro/) when possible. ## Gene prefixes The file ```gene_prefixes.csv``` enumerates prefixes and suffixes frequently appended to named entities. Some of these represent subtleties of experimental context (for example, that a protein of interest was tagged with a fluorescent protein in an experiment) that can safely be ignored when determining the logic of a sentence. However, others carry essential meaning: for example, a sentence describing the effect of 'AKT shRNA' on a downstream target has the opposite meaning of a sentence involving 'AKT', because 'AKT shRNA' represents inhibition of AKT by genetic silencing. The patterns included in this file were found by manually reviewing 70,000 named entities extracted by the REACH parser from a corpus of roughly 32,000 papers focused on growth factor signaling. **Important note: the prefixes/suffixes may be applied additively, for example ```Myr-Flag-Akt1```, indicating myristoylated, FLAG-tagged AKT1; or ```GFP-KRAS-G12V```, indicating GFP-tagged KRAS with a G12V mutation.** The file contains three columns: 1. A case-sensitive pattern, e.g., ```mEGFP-{Gene name}```, where ```{Gene name}``` represents a protein/gene name. 2. A category, described below. 3. Notes: spelling out acronyms, etc. The category of the prefix/suffix determines whether it can be stripped off with minimal effect on the meaning, or whether it carries meaning that needs to be incorporated by a parser. The categories are as follows: * ```experimental context```. Protein tags, gene delivery techniques, etc. **Can generally be ignored.** * ```species```. Prefixes denoting human, mouse, primate, or mammalian versions of a gene. **In most use cases can be ignored.** * ```generic descriptor```. Additional words extracted by the entity recognizer that might designate that an entity is a "protein", a "protease", "transcription factor", etc. **In most use cases can be ignored.** * ```mrna grounding```. In most cases, entities can be grounded to proteins; in the case of ```{Gene name} mRNA```, the entity **must be explicitly grounded as an mRNA.** * ```protein state```. Designate activation state, post-translational modification, cellular localization, etc. **Must be captured by the parser.** * ```inhibition```. Designate protein forms or interventions that represent an inhibition of the protein, that is, a loss-of-function experiment. Have the effect of switching the polarity of the extracted mechanism. For example, the sentence "DUSP6 silencing leads to MAPK1 phosphorylation" indicates that DUSP6 **inhibits** MAPK1 phosphorylation. **Must be captured by the parser.** ## Python Package FamPlex is available as a Python package on PyPi and can be installed with the command $ pip install famplex The package provides utilities for loading resource files and working with the graph of FamPlex relations. If the famplex repository has been cloned instead of pip installed, resource files will not be directly available to the package. Running the command $ python update_resources.py at the top level of the repo will copy the files to where they are needed. This should be run anytime the user has made changes to the top level resource files that they would like to be available in the package. ## Contributing Contributions are welcome! Please submit pull requests via the main sorgerlab/famplex repository: https://github.com/sorgerlab/famplex If making additions or revisions to the CSV files take care to handle quotations and newlines correctly. This allows diffs to be handled correctly so changes can be reviewed. Please submit updates via pull requests on Github. The CSV files in the FamPlex repo are set up to be edited natively using Microsoft Excel. The CSV files in the repo have Windows line terminators ('\r\n'), and are not ragged (i.e., missing entries in a row are padded out with empty strings to reach the full width of the longest row). To preserve correct newlines, take the following steps: 1. If saving from Excel (Windows or Mac OS X), save to the "Windows Comma Separated (.csv)" format. 2. If reading (or writing) the files using a Python script, use the following set of csv format parameters:: csvreader = csv.reader(f, delimiter=',', quotechar='"', quoting=csv.QUOTE_MINIMAL, lineterminator='\r\n') 3. If editing the files on Linux, post-process files using ```unix2dos``` or a similar program. When you're done, run `tox` to verify the integrity of the updates you've made and to generate new exports.

نیازمندی

مقدار	نام
-	requests
-	tqdm
-	pandas
-	click
-	jinja2
-	pytest

نحوه نصب

نصب پکیج whl famplex-0.0.4:

pip install famplex-0.0.4.whl

نصب پکیج tar.gz famplex-0.0.4:

pip install famplex-0.0.4.tar.gz