Ejemplo n.º 1
0
    def __init__(self,
                 seqrecord,
                 draw_type='simple',
                 gene_to_draw=None,
                 feature_class_qualifier='ft_description',
                 feature_name_qualifier='hit_name',
                 **kwargs):

        self.seqrecord = seqrecord
        self.panel = Panel(**kwargs)
        self.feature_class_qualifier = feature_class_qualifier
        self.feature_name_qualifier = feature_name_qualifier

        if draw_type == 'simple':
            ref_obj_track = tracks.BaseTrack(
                features.Simple(
                    1,
                    len(self.seqrecord),
                    height=1.5,
                    name=seqrecord.name,
                    color_by_cm=True,
                    track_lines=3,
                    alpha=1,
                ))
            self.panel.add_track(ref_obj_track)
            self.draw_features()
        elif draw_type == 'gene structure':
            self.draw_features_ordered_by_gene_struct(gene_code=gene_to_draw)
Ejemplo n.º 2
0
def drawFeatures2(tks, highlight=[], filename=None, color=None, **kwargs):
    from biograpy import Panel, tracks, features
    panel = Panel(fig_width=500,
                  fig_height=150,
                  fig_dpi=100,
                  padding=10,
                  grid='both')
    for feats in tks:
        test_track = tracks.BaseTrack(name='X', height=.2)
        for feat in feats:
            if feat.location.strand == -1:
                arr = "larrow,pad=0.6"
            else:
                arr = "rarrow,pad=0.6"
            q = feat.qualifiers
            tag = q['locus_tag'][0]
            test_track.append(
                features.GenericSeqFeature(
                    feat,
                    name=tag,
                    boxstyle=arr,
                ))
        panel.add_track(test_track)
    if filename == None:
        filename = 'genediagram'
    panel.save(filename + '.png')
    panel.close()
    return filename + '.png'
Ejemplo n.º 3
0
def doWork(args):
    panel = Panel(fig_width=900, padding=25, grid=None, xmin=0)
    seq_length = 0
    for gff in args.gffs:
        seqrecord = GFF.parse(gff).next()
        if len(seqrecord) > seq_length:
            seq_length = len(seqrecord)
        #seqrecord = SeqIO.parse(args.infile, "genbank").next()
        cds_track = tracks.BaseTrack(sort_by='collapse')
        for feature in seqrecord.features:
            if feature.type == 'CDS':
                #print feature.qualifiers['product']
                if feature.qualifiers['product'][0] == 'hypothetical protein':
                    col = '#BDBDBD'
                else:
                    col = '#2B8CBE'
                feat = features.GenericSeqFeature(feature,
                                                  color_by_cm=False,
                                                  fc=col)
                cds_track.append(feat)
            elif feature.type == 'source':
                cds_track.append(
                    features.GenericSeqFeature(feature,
                                               color_by_cm=False,
                                               alpha=0.0,
                                               fc='1.0',
                                               ec='1.0'))
            else:
                cds_track.append(
                    features.GenericSeqFeature(feature,
                                               color_by_cm=False,
                                               fc='0.0',
                                               ec='0.0'))
        panel.add_track(cds_track)
    panel.save(args.outfile, xmin=0, xmax=seq_length)
Ejemplo n.º 4
0
 def test_simple_features(self):
     panel=Panel(fig_width=1000)#initialize a drawer
     test_track = tracks.BaseTrack(features.Simple(name='feat1',start=100,end=756,),
         features.Simple(name='feat2',start=300,end=1056,),
         features.Simple(name='feat3',start=600,end=1356,),
         features.Simple(name='feat4',start=800,end=1356,),
         features.Simple(name='feat5',start= 1357,end=1806,),
         name = 'test')
     panel.add_track(test_track)
     fh = tempfile.TemporaryFile()
     panel.save(fh, format='png')
     fh.seek(0)
     img = Image.open(fh)
     #self.assertEqual(img.size, (1000, 220))
     self.assertEqual(img.format, 'PNG')
Ejemplo n.º 5
0
    if is_gene_name_replace_protein_name:
        m = re.search('([^.]+)', seq_title)
        seq_title = m.group(1)
    else:
        pass
    print seq_title

    for domain_obj in domain_objs:
        print domain_obj.start

    # draw domain structure using BioGraPy
    panel = Panel(fig_dpi=100)

    #if not test_track:
    test_track = tracks.BaseTrack(name=seq_title, sort_by=None)

    for index, domain_obj in enumerate(domain_objs):
        dfeat = None
        feat = SeqFeature.SeqFeature()
        start, stop = domain_obj.start, domain_obj.stop
        #feat.location = SeqFeature.FeatureLocation(start, stop)
        feat.location = SeqFeature.FeatureLocation(1, 100)
        feats.append(feat)
        domain_names.append(domain_obj.short_name)
        if is_domain_on_same_line:
            continue
        if is_domain_on_diff_line:
            colors_4_this_domain = [domain_colors[domain_obj.short_name]]
            colors_4_this_domain = 'y'
            if index == 0:
Ejemplo n.º 6
0
    def draw_features(self):
        tracks2draw = dict()
        feat_collector = {
        }  #store complex feature grouping. drawing for witch it is called later
        for feature in self.seqrecord.features:
            if feature.type not in tracks2draw:
                tracks2draw[feature.type] = tracks.BaseTrack(name=feature.type)
            feature_name = ''
            if feature.id != '<unknown id>':
                feature_name = feature.id
            if self.feature_name_qualifier in feature.qualifiers:
                if isinstance(feature.qualifiers[self.feature_name_qualifier],
                              list):
                    feature_name = feature.qualifiers[
                        self.feature_name_qualifier][0]
                elif isinstance(
                        feature.qualifiers[self.feature_name_qualifier], str):
                    feature_name = feature.qualifiers[
                        self.feature_name_qualifier]
            '''draw segmented features '''
            drawn = False
            if feature.sub_features:
                for sub_feature in feature.sub_features:  #detect 'join subfeature and calls the appropriate feature
                    if sub_feature.location_operator == 'join':
                        grfeat = features.SegmentedSeqFeature(
                            feature,
                            name=feature_name,
                        )
                        tracks2draw[feature.type].add_feature(grfeat)
                        drawn = True
                        break

            else:
                if not drawn:
                    '''Add here feature specific visualizations '''
                    if feature.type == 'gene':  #'gene' specific visualization
                        grfeat = features.GeneSeqFeature(
                            feature,
                            name=feature_name,
                        )
                        tracks2draw[feature.type].add_feature(grfeat)
                    elif feature.location.start.position == feature.location.end.position:  #single point feature
                        grfeat = features.SinglePositionFeature(
                            feature,
                            name=feature_name,
                        )
                        tracks2draw[feature.type].add_feature(grfeat)
                    elif 'transmembrane' in feature.type.lower(
                    ):  #add TM handling, cannot handle multiple TM annotations
                        if feature.type in tracks2draw:
                            del tracks2draw[feature.type]
                        if not 'transmembrane' in feat_collector:
                            feat_collector['transmembrane'] = dict(
                                TM=[],
                                cyto=[],
                                non_cyto=[],
                            )
                        feat_collector['transmembrane']['TM'].append(feature)
                        if 'name' not in feat_collector['transmembrane']:
                            feat_collector['transmembrane'][
                                'name'] = feature_name
                    elif 'topological domain' in feature.type.lower(
                    ):  #handles topological domains from uniprot
                        if feature.type in tracks2draw:
                            del tracks2draw[feature.type]
                        if not 'transmembrane' in feat_collector:
                            feat_collector['transmembrane'] = dict(TM=[],
                                                                   cyto=[],
                                                                   non_cyto=[])
                        if 'description' in feature.qualifiers:
                            cyto = False
                            if isinstance(feature.qualifiers['description'],
                                          list):
                                for d in feature.qualifiers['description']:
                                    if d.lower() == 'cytoplasmic':
                                        cyto = True
                            else:
                                if feature.qualifiers['description'].lower(
                                ) == 'cytoplasmic':
                                    cyto = True
                            if cyto:
                                feat_collector['transmembrane']['cyto'].append(
                                    feature)
                            else:
                                feat_collector['transmembrane'][
                                    'non_cyto'].append(feature)
                    elif 'cytoplasm' in feature.type.lower():  #risky!!
                        if feature.type in tracks2draw:
                            del tracks2draw[feature.type]
                        if not 'transmembrane' in feat_collector:
                            feat_collector['transmembrane'] = dict(TM=[],
                                                                   cyto=[],
                                                                   non_cyto=[])
                        if ('not' in feature.type.lower()) or (
                                'non' in feature.type.lower()):
                            feat_collector['transmembrane']['non_cyto'].append(
                                feature)
                        else:
                            feat_collector['transmembrane']['cyto'].append(
                                feature)

                    elif feature.type == 'beta_strand':  #add secondary structure handling
                        if feature.type in tracks2draw:
                            del tracks2draw[feature.type]
                        if not 'SecStructFeature' in feat_collector:
                            feat_collector['secondary structure'] = dict(
                                betas=[], alphah=[], coil=[])
                        feat_collector['secondary structure']['betas'].append(
                            feature)
                    elif feature.type == 'alpha_helix':  #add secondary structure handling
                        if feature.type in tracks2draw:
                            del tracks2draw[feature.type]
                        if not 'secondary structure' in feat_collector:
                            feat_collector['secondary structure'] = dict(
                                betas=[], alphah=[], coil=[])
                        feat_collector['secondary structure']['alphah'].append(
                            feature)
                    elif feature.type == 'peptide_coil':  #add secondary structure handling
                        if feature.type in tracks2draw:
                            del tracks2draw[feature.type]
                        if not 'secondary structure' in feat_collector:
                            feat_collector['secondary structure'] = dict(
                                betas=[], alphah=[], coil=[])
                        feat_collector['secondary structure']['coil'].append(
                            feature)
                    else:  #generic feature
                        if 'score' in feature.qualifiers:  #color by score
                            try:
                                color_by_score = False
                                if isinstance(feature.qualifiers['score'],
                                              list):
                                    score = float(
                                        feature.qualifiers['score'][0])
                                    if 0 <= score <= 1:
                                        feat_score = score
                                        color_by_score = True
                                else:
                                    score = float(feature.qualifiers['score'])
                                    if 0 <= score <= 1:
                                        feat_score = score
                                        color_by_score = True
                                if color_by_score:
                                    grfeat = features.GenericSeqFeature(
                                        feature,
                                        name=feature_name,
                                        score=feat_score,
                                        use_score_for_color=True,
                                        cm='RdYlGn')
                                else:
                                    raise ValueError(
                                        'Score value cannot be handled, should be a float between 0 and 1. Actual value: %f'
                                        % score)
                            except:  #draw normal feature
                                grfeat = features.GenericSeqFeature(
                                    feature, name=feature_name)
                        else:
                            grfeat = features.GenericSeqFeature(
                                feature, name=feature_name)
                        tracks2draw[feature.type].add_feature(grfeat)
        '''draw complex features '''
        for feat_group in feat_collector:
            if feat_group not in tracks2draw:
                tracks2draw[feat_group] = tracks.BaseTrack(name=feat_group)
            if feat_group == 'transmembrane':
                grfeat = features.TMFeature(
                    fill_color='k',
                    cyto_color='r',
                    #cyto_label = 'in',
                    non_cyto_color='g',
                    non_cyto_linestyle='-',
                    #non_cyto_label = 'out',
                    TM_ec='orange',
                    TM_fc='orange',
                    TM_label='',
                    **feat_collector[feat_group])
            elif feat_group == 'secondary structure':
                grfeat = features.SecStructFeature(
                    **feat_collector[feat_group])
            tracks2draw[feat_group].add_feature(grfeat)
        '''add tracks to panel'''
        for key in sorted(tracks2draw.keys()):
            self.panel.add_track(tracks2draw[key])

        if self.seqrecord.letter_annotations:
            per_letter_feats = []
            ymax = ymin = 0
            for quality in self.seqrecord.letter_annotations:
                if isinstance(self.seqrecord.letter_annotations[quality][0],
                              (int, float)):
                    '''draw numeric per letter annotation as line plot feature '''
                    feat = features.PlotFeature(
                        self.seqrecord.letter_annotations[quality],
                        range(
                            1,
                            len(self.seqrecord.letter_annotations[quality]) +
                            1),
                        label=str(quality),
                    )
                    per_letter_feats.append(feat)
                    if min(self.seqrecord.letter_annotations[quality]) <= ymin:
                        ymin = min(self.seqrecord.letter_annotations[quality])
                    if max(self.seqrecord.letter_annotations[quality]) >= ymax:
                        ymax = max(self.seqrecord.letter_annotations[quality])

            per_letter_track = tracks.PlotTrack(ymin=ymin, ymax=ymax)
            for feat in per_letter_feats:
                per_letter_track.append(feat)
            self.panel.add_track(per_letter_track)
from biograpy import Panel, tracks, features
from Bio import SeqFeature

panel = Panel(fig_width=900)

test_track = tracks.BaseTrack(name = 'domains', sort_by = None, cm = 'Set3')

feat = SeqFeature.SeqFeature()
feat.location = SeqFeature.FeatureLocation(100, 300)

dfeat = features.DomainFeature([feat], name = 'test domain 1', seq_line = (1, 766))
test_track.append(dfeat)

dfeat = features.DomainFeature([feat],name = 'test domain 1', height = 1.5, seq_line = (1, 766))
test_track.append(dfeat)

dfeat = features.DomainFeature([feat],name = 'test domain 1', height = 1.5, boxstyle = 'round4, rounding_size=1.4',  seq_line = (1, 766))
test_track.append(dfeat)

dfeat = features.DomainFeature([feat],name = 'test domain 1',height = 1.5, boxstyle = 'larrow, pad = 0',  seq_line = (1, 766))
test_track.append(dfeat)

dfeat = features.DomainFeature([feat], name = 'test domain 1',height = 1.5, boxstyle = 'round ',  seq_line = (1, 766))
test_track.append(dfeat)

feat2 = SeqFeature.SeqFeature()
feat2.location = SeqFeature.FeatureLocation(500, 700)

dfeat = features.DomainFeature([feat,feat2], name = 'test domain 1',height = 1.5, boxstyle = 'roundtooth, pad = 0.1, tooth_size=1.2',  seq_line = (1, 766), alpha = 0.7)
test_track.append(dfeat)
Ejemplo n.º 8
0
from biograpy import Panel, tracks, features
panel = Panel(fig_width=1000, )  #initialize a drawer
test_track = tracks.BaseTrack(features.Simple(
    name='feat1',
    start=100,
    end=756,
),
                              features.Simple(
                                  name='feat2',
                                  start=300,
                                  end=1056,
                              ),
                              features.Simple(
                                  name='feat3',
                                  start=600,
                                  end=1356,
                              ),
                              features.Simple(
                                  name='feat4',
                                  start=800,
                                  end=1356,
                              ),
                              features.Simple(
                                  name='feat5',
                                  start=1357,
                                  end=1806,
                              ),
                              name='test')
panel.append(test_track)

panel.save('test.png')