view lipory.py @ 5:2654bcd9b14d draft default tip

planemo upload commit f33bdf952d796c5d7a240b132af3c4cbd102decc
author cpt
date Fri, 05 Jan 2024 05:53:35 +0000
parents b79df4966ebb
children
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#!/usr/bin/env python
import re
import sys
import argparse
import logging
from Bio import SeqIO
from CPT_GFFParser import gffParse, gffWrite, gffSeqFeature
from gff3 import feature_lambda, feature_test_type, get_id
from Bio.SeqFeature import SeqFeature, FeatureLocation

logging.basicConfig(level=logging.INFO)
log = logging.getLogger(__name__)


def find_lipoprotein(gff3_file, fasta_genome, lipobox_mindist=10, lipobox_maxdist=40):
    seq_dict = SeqIO.to_dict(SeqIO.parse(fasta_genome, "fasta"))

    CASES = [
        re.compile(
            "^.{%s,%s}[ILMFTV][^REKD][GAS]C" % (lipobox_mindist, lipobox_maxdist)
        ),
        re.compile("^.{%s,%s}AW[AGS]C" % (lipobox_mindist, lipobox_maxdist)),
        # Make sure to not have multiple cases that share matches, will introduce duplicate features into gff3 file
    ]

    for record in gffParse(gff3_file, base_dict=seq_dict):
        good_features = []

        genes = list(
            feature_lambda(
                record.features, feature_test_type, {"type": "gene"}, subfeatures=True
            )
        )
        for gene in genes:
            cdss = list(
                feature_lambda(
                    gene.sub_features,
                    feature_test_type,
                    {"type": "CDS"},
                    subfeatures=False,
                )
            )
            if len(cdss) == 0:
                continue

            for cds in cdss:
                try:
                    tmpseq = str(
                        cds.extract(record.seq).translate(table=11, cds=True)
                    ).replace("*", "")
                except:
                    continue

                for case in CASES:
                    m = case.search(tmpseq)
                    if m:
                        if cds.location.strand > 0:
                            start = cds.location.start + (3 * (m.end() - 4))
                            end = cds.location.start + (3 * m.end())
                        else:
                            start = cds.location.end - (3 * (m.end() - 4))
                            end = cds.location.end - (3 * m.end())

                        tmp = gffSeqFeature(
                            FeatureLocation(
                                min(start, end),
                                max(start, end),
                                strand=cds.location.strand,
                            ),
                            type="Lipobox",
                            qualifiers={
                                "source": "CPT_LipoRy",
                                "ID": "%s.lipobox" % get_id(gene),
                            },
                        )
                        tmp.qualifiers["sequence"] = str(
                            tmp.extract(record).seq.translate()
                        )

                        gene.sub_features.append(tmp)
                        good_features.append(gene)

            record.features = good_features
        yield [record]


if __name__ == "__main__":
    parser = argparse.ArgumentParser(description="Filter out lipoproteins", epilog="")
    parser.add_argument(
        "gff3_file", type=argparse.FileType("r"), help="Naive ORF Calls"
    )
    parser.add_argument(
        "fasta_genome", type=argparse.FileType("r"), help="Fasta genome sequence"
    )

    parser.add_argument(
        "--lipobox_mindist",
        type=int,
        help="Minimum distance in codons to start of lipobox",
        default=10,
    )
    parser.add_argument(
        "--lipobox_maxdist",
        type=int,
        help="Maximum distance in codons to start of lipobox",
        default=40,
    )

    args = parser.parse_args()

    args = vars(parser.parse_args())
    for record in find_lipoprotein(**args):
        record[0].annotations = {}
        gffWrite(record, sys.stdout)