Exemplo n.º 1
0
 def test_highlight_plot(self, crange):
     bplot = kplot.BigWigPlot(self.bigwig_path)
     gplot = kplot.GenePlot(self.gtf_path)
     high = kplot.HighlightAnnotation(self.peak_path)
     gfig = kplot.GenomicFigure([bplot, gplot, high])
     fig, axes = gfig.plot("chr11:{}-{}".format(*crange))
     p1 = high.patches[0]
     assert gplot.ax.transAxes.transform(
         (0,
          0))[1] == pytest.approx(p1._transform.transform(p1.get_xy())[1])
Exemplo n.º 2
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 def test_geneplot(self, collapse, squash_group):
     squash, group_by = squash_group
     gplot = kplot.GenePlot(self.gtf_path,
                            collapse=collapse,
                            squash=squash,
                            group_by=group_by)
     gfig = kplot.GenomicFigure([gplot])
     selector = "chr11:77490000-77500000"
     fig, axes = gfig.plot(selector)
     assert len(axes[0].patches) == (19 if squash else 49)
     plt.close(fig)
Exemplo n.º 3
0
 def test_invert_x_independent_x(self, crange):
     offset = 150000
     bplot = kplot.BigWigPlot(self.bigwig_path)
     gplot = kplot.GenePlot(self.gtf_path)
     gfig = kplot.GenomicFigure([bplot, gplot], invert_x=True)
     fig, axes = gfig.plot("chr11:{}-{}".format(*crange))
     ax_lim = axes[0].get_xlim()
     assert (ax_lim[0] > ax_lim[1]
             for ax_lim in (a.get_xlim() for a in axes))
     bplot = kplot.BigWigPlot(self.bigwig_path, invert_x=True)
     gplot = kplot.GenePlot(self.gtf_path)
     gfig = kplot.GenomicFigure([bplot, gplot], independent_x=True)
     fig, axes = gfig.plot([
         "chr11:{}-{}".format(*crange),
         "chr11:{}-{}".format(crange[0] + offset, crange[1] + offset)
     ])
     ax_lim = [ax.get_xlim() for ax in axes]
     abs_tol = 10000
     assert ax_lim[0][0] == pytest.approx(crange[1], abs=abs_tol)
     assert ax_lim[0][1] == pytest.approx(crange[0], abs=abs_tol)
     assert ax_lim[1][0] == pytest.approx(crange[1] + offset, abs=abs_tol)
     assert ax_lim[1][1] == pytest.approx(crange[0] + offset, abs=abs_tol)
Exemplo n.º 4
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def gene(parameters):
    parser = parsers.gene_parser()
    args = parser.parse_args(parameters)

    genes_file = os.path.expanduser(args.genes)

    p = kplt.GenePlot(genes_file,
                      feature_types=args.feature_types,
                      color_neutral=args.color_neutral,
                      color_forward=args.color_forward,
                      color_reverse=args.color_reverse,
                      color_score=args.color_score,
                      box_height=args.box_height,
                      font_size=args.font_size,
                      arrow_size=args.arrow_size,
                      line_width=args.line_width,
                      group_by=args.group_by,
                      show_labels=args.show_labels,
                      collapse=args.collapse,
                      squash=args.squash,
                      label_field=args.label_field)

    return p, args
Exemplo n.º 5
0
gd7_microc_plot = fancplot.HicPlot(gd7_microc, vmin=1e-03,
                                     vmax=1e-01, norm="log",
                                     draw_minor_ticks=False, title="gd7")

control_microc = fanc.load(os.path.join("data", "micro-c", "merged",
                                        "control", "hic",
                                        "control_" + res + ".hic"),
                               mode="r")
control_microc_plot = fancplot.HicPlot(control_microc, vmin=1e-03,
                                           vmax=1e-01, norm="log",
                       draw_minor_ticks=False, title="control")


genes = "external_data/flybase/dmel-all-r6.30.gtf.gz"
genes_plot = fancplot.GenePlot(genes, squash=True, group_by="gene_symbol",
                               aspect=0.15, label_field="gene_symbol",
                               show_labels=False, draw_minor_ticks=False)

rnaseq_dict = {name: os.path.join("external_data", "koenecke_2016_2017", "rnaseq_aligned",
                                  name + "_sorted_filtered_merged_canonical_chrs_rnaseq.bw")
               for name in ["gd7", "tlrm910", "tl10b"]}

h3k27ac_dict = {name: os.path.join("external_data", "koenecke_2016_2017", "chipseq_aligned",
                                   "H3K27ac_" + name + "_sorted_filtered_merged_canonical_chrs.bw")
                for name in ["gd7", "tl10b"]}
h3k27ac_dict["Tollrm910"] = os.path.join("external_data", "extra_chip-seq", "chipseq_aligned",
                                   "H3K27ac_Tollrm910_sorted_filtered_merged_canonical_chrs.bw")

h3k27me3_dict = {name: os.path.join("external_data", "koenecke_2016_2017", "chipseq_aligned",
                                   "H3K27me3_" + name + "_sorted_filtered_merged_canonical_chrs.bw")
                for name in ["gd7", "tl10b"]}
Exemplo n.º 6
0
def plot_regions(regions):

    h = fanc.load(os.path.join("data", "hic", "merged", "3-4h", "hic",
                               "3-4h_2kb.hic"),
                  mode="r")
    h_plot = fancplot.HicPlot(h,
                              vmin=1e-03,
                              vmax=1e-01,
                              norm="log",
                              draw_minor_ticks=False)

    genes = "external_data/flybase/dmel-all-r6.30.gtf.gz"
    genes_plot = fancplot.GenePlot(genes,
                                   squash=True,
                                   group_by="gene_symbol",
                                   aspect=0.15,
                                   label_field="gene_symbol",
                                   show_labels=False,
                                   draw_minor_ticks=False)

    rnaseq_dict = {
        name:
        os.path.join("external_data", "koenecke_2016_2017", "rnaseq_aligned",
                     name + "_sorted_filtered_merged_canonical_chrs_rnaseq.bw")
        for name in ["gd7", "tlrm910", "tl10b"]
    }
    h3k27ac_dict = {
        name: os.path.join(
            "external_data", "koenecke_2016_2017", "chipseq_aligned",
            "H3K27ac_" + name + "_sorted_filtered_merged_canonical_chrs.bw")
        for name in ["gd7", "tl10b"]
    }
    h3k27ac_dict["Tollrm910"] = os.path.join(
        "external_data", "extra_chip-seq", "chipseq_aligned",
        "H3K27ac_Tollrm910_sorted_filtered_merged_canonical_chrs.bw")

    rnaseq_ylim = fancplot.helpers.LimitGroup()
    h3k27ac_ylim = fancplot.helpers.LimitGroup()
    polii_ylim = fancplot.helpers.LimitGroup()

    # polii_chip_early = os.path.join("external_data", "blythe_2015", "aligned",
    #                           "PolII-pSer5_NC14-early_sorted_filtered_merged_canonical_chrs.bw")
    # polii_chip_mid = os.path.join("external_data", "blythe_2015", "aligned",
    #                           "PolII-pSer5_NC14-middle_sorted_filtered_merged_canonical_chrs.bw")
    polii_chip_late = os.path.join(
        "external_data", "blythe_2015", "aligned",
        "PolII-pSer5_NC14-late_sorted_filtered_merged_canonical_chrs.bw")

    # polii_early_plot = fancplot.LinePlot(polii_chip_early, fill=True, plot_kwargs={'color': "black"},
    #                                  draw_minor_ticks=False, aspect=0.05,
    #                                  ylim=polii_ylim, n_yticks=2)
    # polii_mid_plot = fancplot.LinePlot(polii_chip_mid, fill=True, plot_kwargs={'color': "black"},
    #                                  draw_minor_ticks=False, aspect=0.05,
    #                                  ylim=polii_ylim, n_yticks=2)
    polii_late_plot = fancplot.LinePlot(polii_chip_late,
                                        fill=True,
                                        plot_kwargs={'color': "black"},
                                        draw_minor_ticks=False,
                                        aspect=0.05,
                                        ylim=polii_ylim,
                                        n_yticks=2)

    rnaseq_plot_gd7 = fancplot.LinePlot(rnaseq_dict['gd7'],
                                        fill=True,
                                        plot_kwargs={'color': "#648fff"},
                                        draw_minor_ticks=False,
                                        aspect=0.05,
                                        n_yticks=2)

    h3k27ac_plot_gd7 = fancplot.LinePlot(h3k27ac_dict['gd7'],
                                         fill=True,
                                         plot_kwargs={'color': "#648fff"},
                                         draw_minor_ticks=False,
                                         aspect=0.05,
                                         ylim=h3k27ac_ylim,
                                         n_yticks=2)

    rnaseq_plot_Tollrm910 = fancplot.LinePlot(rnaseq_dict['tlrm910'],
                                              fill=True,
                                              plot_kwargs={'color': "#dc267f"},
                                              draw_minor_ticks=False,
                                              aspect=0.05,
                                              n_yticks=2)

    h3k27ac_plot_Tollrm910 = fancplot.LinePlot(
        h3k27ac_dict['Tollrm910'],
        fill=True,
        plot_kwargs={'color': "#dc267f"},
        draw_minor_ticks=False,
        aspect=0.05,
        ylim=h3k27ac_ylim,
        n_yticks=2)

    rnaseq_plot_toll10b = fancplot.LinePlot(rnaseq_dict['tl10b'],
                                            fill=True,
                                            plot_kwargs={'color': "#ffb000"},
                                            draw_minor_ticks=False,
                                            aspect=0.05,
                                            n_yticks=2)

    h3k27ac_plot_toll10b = fancplot.LinePlot(h3k27ac_dict['tl10b'],
                                             fill=True,
                                             plot_kwargs={'color': "#ffb000"},
                                             draw_minor_ticks=False,
                                             aspect=0.05,
                                             ylim=h3k27ac_ylim,
                                             n_yticks=2)

    gd7_enh = "data/supplementary_tables/gd7_candidate_enhancers.bed"
    gd7_enh_plot = fancplot.GenomicFeaturePlot(gd7_enh,
                                               aspect=0.02,
                                               color="#648fff",
                                               draw_minor_ticks=False)

    Tollrm910_enh = "data/supplementary_tables/Tollrm910_candidate_enhancers.bed"
    Tollrm910_enh_plot = fancplot.GenomicFeaturePlot(Tollrm910_enh,
                                                     aspect=0.02,
                                                     color="#dc267f",
                                                     draw_minor_ticks=False)

    toll10b_enh = "data/supplementary_tables/Toll10B_candidate_enhancers.bed"
    toll10b_enh_plot = fancplot.GenomicFeaturePlot(toll10b_enh,
                                                   aspect=0.02,
                                                   color="#ffb000",
                                                   draw_minor_ticks=False)

    plots = [
        h_plot,
        # ins_plot,
        # boundaries_plot,
        genes_plot,
        # hk_plot,
        # polii_early_plot, polii_mid_plot,
        polii_late_plot,
        rnaseq_plot_gd7,
        rnaseq_plot_Tollrm910,
        rnaseq_plot_toll10b,
        h3k27ac_plot_gd7,
        h3k27ac_plot_Tollrm910,
        h3k27ac_plot_toll10b,
        gd7_enh_plot,
        Tollrm910_enh_plot,
        toll10b_enh_plot
    ]

    with PdfPages(output_file) as pdf:
        with fancplot.GenomicFigure(plots, ticks_last=True) as gfig:
            for name, region, rnaseq_ylim in regions:
                logging.info(region)
                fig, axes = gfig.plot(region)
                axes[3].set_ylim([0, rnaseq_ylim])
                axes[4].set_ylim([0, rnaseq_ylim])
                axes[5].set_ylim([0, rnaseq_ylim])
                pdf.savefig()
def plot_region(name, region):
    output_file = os.path.join("figures", "figure_4_panels", name + ".pdf")
    logging.info("Working on %s", name)
    logging.info("Will write output to %s", output_file)

    gd7_nc14_hic = fanc.load(os.path.join("data", "hic", "merged", "gd7-nc14",
                                          "hic", "gd7-nc14_5kb.hic"),
                             mode="r")
    gd7_nc14_hic_plot = fancplot.HicPlot(gd7_nc14_hic,
                                         norm="log",
                                         vmin=1e-03,
                                         vmax=1e-01,
                                         draw_minor_ticks=False,
                                         title="gd7",
                                         max_dist='250kb')
    gd7_nc14_diff = fanc.load(os.path.join(
        "data", "hic", "merged", "gd7-nc14", "hic",
        "diff_control-nc14_gd7-nc14_5kb.hic"),
                              mode="r")
    gd7_nc14_diff_plot = fancplot.HicPlot(gd7_nc14_diff,
                                          norm="lin",
                                          colormap='bwr_r',
                                          vmin=-0.01,
                                          vmax=0.01,
                                          draw_minor_ticks=False,
                                          max_dist='250kb')

    Tollrm910_nc14_hic = fanc.load(os.path.join("data", "hic", "merged",
                                                "Tollrm910-nc14", "hic",
                                                "Tollrm910-nc14_5kb.hic"),
                                   mode="r")
    Tollrm910_nc14_hic_plot = fancplot.HicPlot(Tollrm910_nc14_hic,
                                               norm="log",
                                               vmin=1e-03,
                                               vmax=1e-01,
                                               draw_minor_ticks=False,
                                               title="Tollrm910",
                                               max_dist='250kb')
    Tollrm910_nc14_diff = fanc.load(os.path.join(
        "data", "hic", "merged", "Tollrm910-nc14", "hic",
        "diff_control-nc14_Tollrm910-nc14_5kb.hic"),
                                    mode="r")
    Tollrm910_nc14_diff_plot = fancplot.HicPlot(Tollrm910_nc14_diff,
                                                norm="lin",
                                                colormap='bwr_r',
                                                vmin=-0.01,
                                                vmax=0.01,
                                                draw_minor_ticks=False,
                                                max_dist='250kb')

    Toll10B_nc14_hic = fanc.load(os.path.join("data", "hic", "merged",
                                              "Toll10B-nc14", "hic",
                                              "Toll10B-nc14_5kb.hic"),
                                 mode="r")
    Toll10B_nc14_hic_plot = fancplot.HicPlot(Toll10B_nc14_hic,
                                             norm="log",
                                             vmin=1e-03,
                                             vmax=1e-01,
                                             draw_minor_ticks=False,
                                             title="Toll10B",
                                             max_dist='250kb')
    Toll10B_nc14_diff = fanc.load(os.path.join(
        "data", "hic", "merged", "Toll10B-nc14", "hic",
        "diff_control-nc14_Toll10B-nc14_5kb.hic"),
                                  mode="r")
    Toll10B_nc14_diff_plot = fancplot.HicPlot(Toll10B_nc14_diff,
                                              norm="lin",
                                              colormap='bwr_r',
                                              vmin=-0.01,
                                              vmax=0.01,
                                              draw_minor_ticks=False,
                                              max_dist='250kb')

    genes = "external_data/flybase/dmel-all-r6.30.gtf.gz"
    genes_plot = fancplot.GenePlot(genes,
                                   squash=True,
                                   group_by="gene_symbol",
                                   aspect=0.15,
                                   label_field="gene_symbol",
                                   show_labels=False,
                                   draw_minor_ticks=False)

    rnaseq_dict = {
        name:
        os.path.join("external_data", "koenecke_2016_2017", "rnaseq_aligned",
                     name + "_sorted_filtered_merged_canonical_chrs_rnaseq.bw")
        for name in ["gd7", "tlrm910", "tl10b"]
    }

    h3k27ac_dict = {
        name: os.path.join(
            "external_data", "koenecke_2016_2017", "chipseq_aligned",
            "H3K27ac_" + name + "_sorted_filtered_merged_canonical_chrs.bw")
        for name in ["gd7", "tl10b"]
    }
    h3k27ac_dict["Tollrm910"] = os.path.join(
        "external_data", "extra_chip-seq", "chipseq_aligned",
        "H3K27ac_Tollrm910_sorted_filtered_merged_canonical_chrs.bw")

    h3k27me3_dict = {
        name: os.path.join(
            "external_data", "koenecke_2016_2017", "chipseq_aligned",
            "H3K27me3_" + name + "_sorted_filtered_merged_canonical_chrs.bw")
        for name in ["gd7", "tl10b"]
    }
    h3k27me3_dict["Tollrm910"] = os.path.join(
        "external_data", "extra_chip-seq", "chipseq_aligned",
        "H3K27me3_Tollrm910_sorted_filtered_merged_canonical_chrs.bw")

    # ins_dict = {name: os.path.join("data", "boundaries", name + "_2kb_8.bw")
    #             for name in ["gd7-nc14", "Tollrm910-nc14", "Toll10B-nc14", "3-4h"]}

    rnaseq_ylim = fancplot.helpers.LimitGroup()
    rnaseq_ylim = [0, 10]
    h3k27ac_ylim = fancplot.helpers.LimitGroup()
    h3k27me3_ylim = fancplot.helpers.LimitGroup()

    rnaseq_plot_gd7 = fancplot.LinePlot(rnaseq_dict['gd7'],
                                        fill=False,
                                        plot_kwargs={'color': "#648fff"},
                                        draw_minor_ticks=False,
                                        aspect=0.05,
                                        ylim=rnaseq_ylim,
                                        n_yticks=2)

    h3k27ac_plot_gd7 = fancplot.LinePlot(h3k27ac_dict['gd7'],
                                         fill=False,
                                         plot_kwargs={'color': "#648fff"},
                                         draw_minor_ticks=False,
                                         aspect=0.05,
                                         ylim=h3k27ac_ylim,
                                         n_yticks=2)
    h3k27me3_plot_gd7 = fancplot.LinePlot(h3k27me3_dict['gd7'],
                                          fill=False,
                                          plot_kwargs={'color': "#648fff"},
                                          draw_minor_ticks=False,
                                          aspect=0.05,
                                          ylim=h3k27me3_ylim,
                                          n_yticks=2)

    rnaseq_plot_Tollrm910 = fancplot.LinePlot(rnaseq_dict['tlrm910'],
                                              fill=False,
                                              plot_kwargs={'color': "#dc267f"},
                                              draw_minor_ticks=False,
                                              aspect=0.05,
                                              ylim=rnaseq_ylim,
                                              n_yticks=2)

    h3k27ac_plot_Tollrm910 = fancplot.LinePlot(
        h3k27ac_dict['Tollrm910'],
        fill=False,
        plot_kwargs={'color': "#dc267f"},
        draw_minor_ticks=False,
        aspect=0.05,
        ylim=h3k27ac_ylim,
        n_yticks=2)
    h3k27me3_plot_Tollrm910 = fancplot.LinePlot(
        h3k27me3_dict['Tollrm910'],
        fill=False,
        plot_kwargs={'color': "#dc267f"},
        draw_minor_ticks=False,
        aspect=0.05,
        ylim=h3k27me3_ylim,
        n_yticks=2)

    rnaseq_plot_toll10b = fancplot.LinePlot(rnaseq_dict['tl10b'],
                                            fill=False,
                                            plot_kwargs={'color': "#ffb000"},
                                            draw_minor_ticks=False,
                                            aspect=0.05,
                                            ylim=rnaseq_ylim,
                                            n_yticks=2)

    h3k27ac_plot_toll10b = fancplot.LinePlot(h3k27ac_dict['tl10b'],
                                             fill=False,
                                             plot_kwargs={'color': "#ffb000"},
                                             draw_minor_ticks=False,
                                             aspect=0.05,
                                             ylim=h3k27ac_ylim,
                                             n_yticks=2)
    h3k27me3_plot_toll10b = fancplot.LinePlot(h3k27me3_dict['tl10b'],
                                              fill=False,
                                              plot_kwargs={'color': "#ffb000"},
                                              draw_minor_ticks=False,
                                              aspect=0.05,
                                              ylim=h3k27me3_ylim,
                                              n_yticks=2)

    gd7_enh = "data/supplementary_tables/gd7_candidate_enhancers.bed"
    gd7_enh_plot = fancplot.GenomicFeaturePlot(gd7_enh,
                                               aspect=0.02,
                                               color="#648fff",
                                               draw_minor_ticks=False)

    Tollrm910_enh = "data/supplementary_tables/Tollrm910_candidate_enhancers.bed"
    Tollrm910_enh_plot = fancplot.GenomicFeaturePlot(Tollrm910_enh,
                                                     aspect=0.02,
                                                     color="#dc267f",
                                                     draw_minor_ticks=False)

    toll10b_enh = "data/supplementary_tables/Toll10B_candidate_enhancers.bed"
    toll10b_enh_plot = fancplot.GenomicFeaturePlot(toll10b_enh,
                                                   aspect=0.02,
                                                   color="#ffb000",
                                                   draw_minor_ticks=False)

    plots = [
        gd7_nc14_hic_plot, gd7_nc14_diff_plot, rnaseq_plot_gd7,
        h3k27ac_plot_gd7, gd7_enh_plot, h3k27me3_plot_gd7,
        Tollrm910_nc14_hic_plot, Tollrm910_nc14_diff_plot,
        rnaseq_plot_Tollrm910, h3k27ac_plot_Tollrm910, Tollrm910_enh_plot,
        h3k27me3_plot_Tollrm910, Toll10B_nc14_hic_plot, Toll10B_nc14_diff_plot,
        rnaseq_plot_toll10b, h3k27ac_plot_toll10b, toll10b_enh_plot,
        h3k27me3_plot_toll10b, genes_plot
    ]

    with fancplot.GenomicFigure(plots, ticks_last=True) as gfig:
        fig, axes = gfig.plot(region)
        fig.savefig(output_file)
Exemplo n.º 8
0
p_dir = fancplot.LinePlot(directionality_single, ax=ax_dir, style='mid', plot_kwargs={'color': '#79C7C5'},
                          draw_tick_legend=False, draw_minor_ticks=False)
p_dir.plot(triangular_plotting_region)
ax_dir.set_xticks([triangular_plotting_region.start,
                   triangular_plotting_region.center,
                   triangular_plotting_region.end])
ax_dir.set_ylabel('Directionality\nindex 1Mb')

# 13. Genes
genes = fanc.load(genes_file)
p_genes = fancplot.GenePlot(genes, feature_types=('exon',),
                            color_score=False, box_height=0.9, show_labels=True,
                            label_field='gene_name', font_size=7, arrow_size=0, show_arrows=False,
                            line_width=1, group_by='gene_id', draw_tick_legend=False,
                            draw_tick_labels=True, draw_minor_ticks=False,
                            ax=ax_genes, squash=True, min_gene_size=3000,
                            collapse=False,
                            include={
                                'gene_type': {'processed_transcript', 'rRNA',
                                              'protein_coding', 'IG_V_gene'}
                            })
p_genes.plot(triangular_plotting_region)
ax_genes.set_xticks([triangular_plotting_region.start,
                     triangular_plotting_region.center,
                     triangular_plotting_region.end])

# 14. CTCF enrichment
p_ctcf = fancplot.LinePlot(ctcf, ax=ax_ctcf, style='mid', plot_kwargs={'color': 'black'}, fill=False,
                           draw_tick_labels=False)
p_ctcf.plot(triangular_plotting_region)
ax_ctcf.set_xticks([triangular_plotting_region.start,