PyRice - a Python package for query rice gene information
Install from source:
- Clone project from Github:
git clone https://github.com/SouthGreenPlatform/PyRice.git
Install from PyPI
-
If you install PyRice on your local machine:
pip install pyrice -
Now there is only version available (should use the latest version):
-
Verrsion 0.2.0: Update reference for gene from Oryzabase. Add 2 new databases PlantTFDB for PyRice
- If you install PyRice on your local machine, please follow these steps:
- Please check carefully the current version of Chrome on your computer before downloading
- Download the Chrome driver.
- After downloading, fill the file path lead to Chrome driver before querying:
from pyrice import utils utils.chrome_path = "the path of your Chrome driver"
- If you install PyRice on your local machine, please follow these steps:
-
Version 0.1.9: PyRice on Google Colab or other cloud platform. Updating the change output format.
-
Version 0.1.8: Addition of crawling JavaScript data with Selenium.
-
IN PROCESS: If you want to install the newest demo of PyRice:
!pip install -i https://test.pypi.org/simple/ pyrice
- To see demo of package: Demo_PyRice.ipynb
Instruction
Example of system search_gene
from pyrice.multi_query import MultiQuery
query = MultiQuery()
result = query.search_on_chromosome(chro="chr01", start_pos="1", end_pos="20000",
number_process = 4, dbs="all", save_path="./result/")
print("Output database:", result)Output database:
{'OsNippo01g010050': {
'msu7Name': {'LOC_Os01g01010'},
'raprepName': {'Os01g0100100'},
'contig': 'chr01', 'fmin': 2982,
'fmax': 10815},
'OsNippo01g010150': {
'msu7Name': {'LOC_Os01g01019'},
'raprepName': {'Os01g0100200'},
'contig': 'chr01',
'fmin': 11217,
'fmax': 12435},
...
'OsNippo01g010300': {
'msu7Name': {'LOC_Os01g01040'},
'raprepName': {'Os01g0100500'},
'contig': 'chr01',
'fmin': 16398,
'fmax': 20144}
}Example of system query_by_chromosome
from pyrice.multi_query import MultiQuery
query = MultiQuery()
result = query.query_by_chromosome(chro="chr01", start_pos="1", end_pos="20000",
number_process = 4, multi_processing=True,
multi_threading=True, dbs="all")
query.save(result, save_path="./result/",
format=["csv", "html", "json", "pkl"], hyper_link=False)
print("Output database:", result)Output database:
{'OsNippo01g010050': {
'rapdb': {
'Locus_ID': 'Os01g0100100',
'Description': 'RabGAP/TBC domain containing protein.',
'Oryzabase Gene Name Synonym(s)': 'Molecular Function: Rab GTPase activator activity (GO:0005097)',
...},
'gramene': {
'_id': 'Os01g0100100',
'name': 'Os01g0100100',
'biotype': 'protein_coding',
...},
...},
'OsNippo01g010150': {
'rapdb': {...},
'gramene': {...},
...},
...
}Example of system query_by_ids
from pyrice.multi_query import MultiQuery
query = MultiQuery()
result = query.query_by_ids(ids=["Os08g0164400", "Os07g0586200"],
locs=["LOC_Os10g01006", "LOC_Os07g39750"],
irics=["OsNippo01g010050", "OsNippo01g010300"],
number_process = 4, multi_processing=True, multi_threading=True, dbs="all")
query.save(result, save_path = "./result/",
format=["csv", "html", "json", "pkl"], hyper_link=False)
print("Output database:",result) Output database:
{'OsNippo01g010050': {
'rapdb': {
'Locus_ID': 'Os01g0100100',
'Description': 'RabGAP/TBC domain containing protein.',
'Position': '',
...},
'ic4r': {
'Anther_Normal': {'expression_value': '0.699962'},
'Anther_WT': {'expression_value': '13.9268'},
...},
...},
'OsNippo01g010300': {
'rapdb': {...},
'ic4r': {...},
...},
...
} Example of system query_new_database
from pyrice.multi_query import MultiQuery
query = MultiQuery()
result = query.query_new_database(atts=['AT4G32150'], number_process= 4,
multi_processing=True,multi_threading=True,dbs=['planteome'])
query.save(result, save_path="./result/",
format=["csv", "html", "json", "pkl"], hyper_link=False)
print("Output database:",result) Output database:
{'AT4G32150':
{'planteome':{
'service': '/api/search/annotation',
'status': 'success',
'arguments': {},
'comments': ['Results found for: annotation; queries: ; filters: '],
'data': [{...}]
...
}
...
}Example of Build Dictinary Module
from pyrice.build_dictionary import update_gene_dictionary, update_rapdb_oryzabase
update_gene_dictionary()
update_local_database(rapdb_url, oryzabase_url)Example of Search Module
You have to save file as .pkl and re-load it again to use search function.
from pyrice import utils
import pandas as pd
df1 = pd.read_pickle("./result1/data/db.pkl")
df2 = pd.read_pickle("./result2/data/db.pkl")
df = pd.concat([df1,df2])
result = utils.search(df,"Amino acid ")Example of SQL Query
You can execute a SQL query over a pandas dataframe. You have to install package Pandasql. The variable name is same with the table name in SQL query. Next, follow the code below to run SQL query:
import pandas as pd
from pandasql import sqldf
data = pd.read_pickle("./result/data/db.pkl")
data = data.astype(str)
sql = "SELECT * FROM data WHERE `oryzabase.CGSNL Gene Symbol` = 'TLP27' or `gramene.system_name` = 'oryza_sativa'"
pysqldf = lambda q: sqldf(q, globals())
print(pysqldf(sql))The variable name must be same with the table name in SQL query.
List of supported databases
Database_name: keywords
- Oryzabase : oryzabase
- RapDB : rapdb
- Gramene : gramene
- IC4R : ic4r
- SNP-Seek : snpseek
- Funricegene : funricegene_genekeywords, funricegene_faminfo, funricegene_geneinfo
- MSU : msu
- EMBL-EBI Expression Atlas : embl_ebi
- GWAS-ATLAS : gwas_atlas
- Planteome : planteome
- AgroLD : planttfdb_tf, planttfdb_target_gene
Keywords are value of arguments in query module.
List of exception
-
Server Exception
Throw when server response code is not 200.
Throw with the corresponding server response code.
-
Internet Connection Exceptioin
Throw requests.exceptions.RequestException
requests module exception.
-
Timeout Exception
Throw requests.exceptions.Timeout
requests module exception.
-
Database Exception
Throw when database description is not found.
