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authorzsloan2020-04-29 16:34:58 -0500
committerzsloan2020-04-29 16:34:58 -0500
commit77e3974eebfc48e49af07e07c08cd312edd34b99 (patch)
tree52f8b901f274d76238dd3321329f4cda976a6e20
parent89324f71e4b11f8b8ee84b13c6b69cda446ac840 (diff)
downloadgenenetwork2-77e3974eebfc48e49af07e07c08cd312edd34b99.tar.gz
Changed a lot about how mapping scale is read and gave the option to change mapping scale when both scales are available
-rw-r--r--wqflask/wqflask/marker_regression/display_mapping_results.py25
-rw-r--r--wqflask/wqflask/marker_regression/rqtl_mapping.py48
-rw-r--r--wqflask/wqflask/marker_regression/run_mapping.py18
-rw-r--r--wqflask/wqflask/show_trait/show_trait.py89
-rw-r--r--wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js19
-rw-r--r--wqflask/wqflask/templates/mapping_results.html4
-rwxr-xr-xwqflask/wqflask/templates/show_trait_mapping_tools.html22
7 files changed, 177 insertions, 48 deletions
diff --git a/wqflask/wqflask/marker_regression/display_mapping_results.py b/wqflask/wqflask/marker_regression/display_mapping_results.py
index 2a53b60e..f70bc555 100644
--- a/wqflask/wqflask/marker_regression/display_mapping_results.py
+++ b/wqflask/wqflask/marker_regression/display_mapping_results.py
@@ -265,14 +265,12 @@ class DisplayMappingResults(object):
else:
self.colorCollection = [self.LRS_COLOR]
+ self.dataset.group.genofile = self.genofile_string.split(":")[0]
if self.mapping_method == "reaper" and self.manhattan_plot != True:
self.genotype = self.dataset.group.read_genotype_file(use_reaper=True)
else:
self.genotype = self.dataset.group.read_genotype_file()
- #if self.mapping_method == "rqtl_geno" and self.genotype.filler == True:
- # self.genotype = self.genotype.read_rdata_output(self.qtlresults)
-
#Darwing Options
try:
if self.selectedChr > -1:
@@ -1761,9 +1759,9 @@ class DisplayMappingResults(object):
break
if all_int:
- max_lrs_width = canvas.stringWidth("%d" % LRS_LOD_Max, font=LRSScaleFont) + 30
+ max_lrs_width = canvas.stringWidth("%d" % LRS_LOD_Max, font=LRSScaleFont) + 40
else:
- max_lrs_width = canvas.stringWidth("%2.1f" % LRS_LOD_Max, font=LRSScaleFont) + 20
+ max_lrs_width = canvas.stringWidth("%2.1f" % LRS_LOD_Max, font=LRSScaleFont) + 30
#draw the "LRS" or "LOD" string to the left of the axis
canvas.drawString(self.LRS_LOD, xLeftOffset - max_lrs_width - 15*(zoom-1), \
@@ -1899,13 +1897,16 @@ class DisplayMappingResults(object):
this_chr = str(self.ChrList[self.selectedChr][1]+1)
if self.selectedChr == -1 or str(qtlresult['chr']) == this_chr:
- if self.plotScale != "physic" and self.genotype.filler == True:
- if self.selectedChr != -1:
- start_cm = self.genotype[self.selectedChr - 1][0].cM
- Xc = startPosX + (qtlresult['Mb'] - start_cm)*plotXScale
- else:
- start_cm = self.genotype[previous_chr_as_int][0].cM
- Xc = startPosX + ((qtlresult['Mb']-start_cm-startMb)*plotXScale)*(((qtlresult['Mb']-start_cm-startMb)*plotXScale)/((qtlresult['Mb']-start_cm-startMb+self.GraphInterval)*plotXScale))
+ if self.plotScale != "physic" and self.mapping_method == "reaper" and not self.manhattan_plot:
+ Xc = startPosX + (qtlresult['cM']-startMb)*plotXScale
+ if hasattr(self.genotype, "filler"):
+ if self.genotype.filler:
+ if self.selectedChr != -1:
+ start_cm = self.genotype[self.selectedChr - 1][0].cM
+ Xc = startPosX + (qtlresult['Mb'] - start_cm)*plotXScale
+ else:
+ start_cm = self.genotype[previous_chr_as_int][0].cM
+ Xc = startPosX + ((qtlresult['Mb']-start_cm-startMb)*plotXScale)*(((qtlresult['Mb']-start_cm-startMb)*plotXScale)/((qtlresult['Mb']-start_cm-startMb+self.GraphInterval)*plotXScale))
else:
Xc = startPosX + (qtlresult['Mb']-startMb)*plotXScale
diff --git a/wqflask/wqflask/marker_regression/rqtl_mapping.py b/wqflask/wqflask/marker_regression/rqtl_mapping.py
index c1a56787..8c294460 100644
--- a/wqflask/wqflask/marker_regression/rqtl_mapping.py
+++ b/wqflask/wqflask/marker_regression/rqtl_mapping.py
@@ -11,7 +11,7 @@ from utility.tools import locate, TEMPDIR
import utility.logger
logger = utility.logger.getLogger(__name__ )
-def run_rqtl_geno(vals, samples, dataset, method, model, permCheck, num_perm, perm_strata_list, do_control, control_marker, manhattan_plot, pair_scan, cofactors):
+def run_rqtl_geno(vals, samples, dataset, mapping_scale, method, model, permCheck, num_perm, perm_strata_list, do_control, control_marker, manhattan_plot, pair_scan, cofactors):
## Get pointers to some common R functions
r_library = ro.r["library"] # Map the library function
r_c = ro.r["c"] # Map the c function
@@ -33,7 +33,13 @@ def run_rqtl_geno(vals, samples, dataset, method, model, permCheck, num_perm, pe
# genofilelocation = locate(crossname + ".RData", "genotype/rdata")
# cross_object = read_cross_from_rdata(genofilelocation) # Map the local GENOtoCSVR function
#except:
- generate_cross_from_geno(dataset)
+
+ if mapping_scale == "morgan":
+ scale_units = "cM"
+ else:
+ scale_units = "Mb"
+
+ generate_cross_from_geno(dataset, scale_units)
GENOtoCSVR = ro.r["GENOtoCSVR"] # Map the local GENOtoCSVR function
crossfilelocation = TMPDIR + crossname + ".cross"
if dataset.group.genofile:
@@ -47,6 +53,8 @@ def run_rqtl_geno(vals, samples, dataset, method, model, permCheck, num_perm, pe
else:
cross_object = calc_genoprob(cross_object, step=1, stepwidth="max")
+ logger.debug("VAL LEN:", len(vals))
+
pheno_string = sanitize_rqtl_phenotype(vals)
cross_object = add_phenotype(cross_object, pheno_string, "the_pheno") # Add the phenotype
@@ -94,11 +102,9 @@ def run_rqtl_geno(vals, samples, dataset, method, model, permCheck, num_perm, pe
perm_data_frame = scanone(cross_object, pheno_col = "the_pheno", n_perm = num_perm, model=model, method=method)
perm_output, suggestive, significant = process_rqtl_perm_results(num_perm, perm_data_frame) # Functions that sets the thresholds for the webinterface
- the_scale = check_mapping_scale(genofilelocation)
- return perm_output, suggestive, significant, process_rqtl_results(result_data_frame, dataset.group.species), the_scale
+ return perm_output, suggestive, significant, process_rqtl_results(result_data_frame, dataset.group.species)
else:
- the_scale = check_mapping_scale(genofilelocation)
- return process_rqtl_results(result_data_frame, dataset.group.species), the_scale
+ return process_rqtl_results(result_data_frame, dataset.group.species)
def generate_cross_from_rdata(dataset):
rdata_location = locate(dataset.group.name + ".RData", "genotype/rdata")
@@ -110,7 +116,7 @@ def generate_cross_from_rdata(dataset):
}
""" % (rdata_location))
-def generate_cross_from_geno(dataset): # TODO: Need to figure out why some genofiles have the wrong format and don't convert properly
+def generate_cross_from_geno(dataset, scale_units): # TODO: Need to figure out why some genofiles have the wrong format and don't convert properly
ro.r("""
trim <- function( x ) { gsub("(^[[:space:]]+|[[:space:]]+$)", "", x) }
@@ -127,21 +133,23 @@ def generate_cross_from_geno(dataset): # TODO: Need to figure out why som
type <- getGenoCode(header, 'type')
if(type == '4-way'){
genocodes <- c('1','2','3','4')
+ genodata <- read.csv(genotypes, sep='\t', skip=toskip, header=TRUE, na.strings=getGenoCode(header,'unk'), colClasses='character', comment.char = '#', crosstype="4way")
} else {
genocodes <- c(getGenoCode(header, 'mat'), getGenoCode(header, 'het'), getGenoCode(header, 'pat')) # Get the genotype codes
+ genodata <- read.csv(genotypes, sep='\t', skip=toskip, header=TRUE, na.strings=getGenoCode(header,'unk'), colClasses='character', comment.char = '#')
}
- genodata <- read.csv(genotypes, sep='\t', skip=toskip, header=TRUE, na.strings=getGenoCode(header,'unk'), colClasses='character', comment.char = '#')
cat('Genodata:', toskip, " ", dim(genodata), genocodes, '\n')
if(is.null(phenotype)) phenotype <- runif((ncol(genodata)-4)) # If there isn't a phenotype, generate a random one
if(is.null(sex)) sex <- rep('m', (ncol(genodata)-4)) # If there isn't a sex phenotype, treat all as males
outCSVR <- rbind(c('Pheno', '', '', phenotype), # Phenotype
c('sex', '', '', sex), # Sex phenotype for the mice
- cbind(genodata[,c('Locus','Chr', 'cM')], genodata[, 5:ncol(genodata)])) # Genotypes
+ cbind(genodata[,c('Locus','Chr', '%s')], genodata[, 5:ncol(genodata)])) # Genotypes
write.table(outCSVR, file = out, row.names=FALSE, col.names=FALSE,quote=FALSE, sep=',') # Save it to a file
require(qtl)
if(type == '4-way'){
cat('Loading in as 4-WAY\n')
- cross = read.cross(file=out, 'csvr', genotypes=genocodes, crosstype="4way", convertXdata=FALSE) # Load the created cross file using R/qtl read.cross
+ cross = read.cross(file=out, 'csvr', genotypes=genocodes)
+ #cross = read.cross(file=out, 'csvr', genotypes=genocodes, crosstype="4way", convertXdata=FALSE) # Load the created cross file using R/qtl read.cross
}else{
cat('Loading in as normal\n')
cross = read.cross(file=out, 'csvr', genotypes=genocodes) # Load the created cross file using R/qtl read.cross
@@ -152,7 +160,7 @@ def generate_cross_from_geno(dataset): # TODO: Need to figure out why som
}
return(cross)
}
- """ % (dataset.group.genofile))
+ """ % (dataset.group.genofile, scale_units))
def add_perm_strata(cross, perm_strata):
col_string = 'c("the_strata")'
@@ -300,20 +308,4 @@ def process_rqtl_results(result, species_name): # TODO: how to make this
marker['lod_score'] = output[i][2]
qtl_results.append(marker)
- return qtl_results
-
-def check_mapping_scale(genofile_location):
- scale = "physic"
- with open(genofile_location, "r") as geno_fh:
- for line in geno_fh:
- if line[0] == "@" or line[0] == "#":
-
- if "@scale" in line:
- scale = line.split(":")[1].strip()
- break
- else:
- continue
- else:
- break
-
- return scale \ No newline at end of file
+ return qtl_results \ No newline at end of file
diff --git a/wqflask/wqflask/marker_regression/run_mapping.py b/wqflask/wqflask/marker_regression/run_mapping.py
index 589be702..7449d8ce 100644
--- a/wqflask/wqflask/marker_regression/run_mapping.py
+++ b/wqflask/wqflask/marker_regression/run_mapping.py
@@ -156,6 +156,8 @@ class RunMapping(object):
self.transform = ""
self.score_type = "LRS" #ZS: LRS or LOD
self.mapping_scale = "physic"
+ if "mapping_scale" in start_vars:
+ self.mapping_scale = start_vars['mapping_scale']
self.num_perm = 0
self.perm_output = []
self.bootstrap_results = []
@@ -255,9 +257,9 @@ class RunMapping(object):
#if start_vars['pair_scan'] == "true":
# self.pair_scan = True
if self.permCheck and self.num_perm > 0:
- self.perm_output, self.suggestive, self.significant, results, self.mapping_scale = rqtl_mapping.run_rqtl_geno(self.vals, self.samples, self.dataset, self.method, self.model, self.permCheck, self.num_perm, perm_strata, self.do_control, self.control_marker, self.manhattan_plot, self.pair_scan, self.covariates)
+ self.perm_output, self.suggestive, self.significant, results= rqtl_mapping.run_rqtl_geno(self.vals, self.samples, self.dataset, self.mapping_scale, self.method, self.model, self.permCheck, self.num_perm, perm_strata, self.do_control, self.control_marker, self.manhattan_plot, self.pair_scan, self.covariates)
else:
- results, self.mapping_scale = rqtl_mapping.run_rqtl_geno(self.vals, self.samples, self.dataset, self.method, self.model, self.permCheck, self.num_perm, perm_strata, self.do_control, self.control_marker, self.manhattan_plot, self.pair_scan, self.covariates)
+ results = rqtl_mapping.run_rqtl_geno(self.vals, self.samples, self.dataset, self.mapping_scale, self.method, self.model, self.permCheck, self.num_perm, perm_strata, self.do_control, self.control_marker, self.manhattan_plot, self.pair_scan, self.covariates)
elif self.mapping_method == "reaper":
if "startMb" in start_vars: #ZS: Check if first time page loaded, so it can default to ON
if "additiveCheck" in start_vars:
@@ -429,7 +431,7 @@ class RunMapping(object):
with Bench("Trimming Markers for Table"):
self.trimmed_markers = trim_markers_for_table(results)
- chr_lengths = get_chr_lengths(self.mapping_scale, self.dataset, self.qtl_results)
+ chr_lengths = get_chr_lengths(self.mapping_scale, self.mapping_method, self.dataset, self.qtl_results)
#ZS: For zooming into genome browser, need to pass chromosome name instead of number
if self.dataset.group.species == "mouse":
@@ -643,7 +645,7 @@ def geno_db_exists(this_dataset):
except:
return "False"
-def get_chr_lengths(mapping_scale, dataset, qtl_results):
+def get_chr_lengths(mapping_scale, mapping_method, dataset, qtl_results):
chr_lengths = []
if mapping_scale == "physic":
for i, the_chr in enumerate(dataset.species.chromosomes.chromosomes):
@@ -666,8 +668,12 @@ def get_chr_lengths(mapping_scale, dataset, qtl_results):
this_chr = chr_as_num
highest_pos = 0
else:
- if float(result['Mb']) > highest_pos:
- highest_pos = float(result['Mb'])
+ if mapping_method == "reaper":
+ if float(result['cM']) > highest_pos:
+ highest_pos = float(result['cM'])
+ else:
+ if float(result['Mb']) > highest_pos:
+ highest_pos = float(result['Mb'])
return chr_lengths
diff --git a/wqflask/wqflask/show_trait/show_trait.py b/wqflask/wqflask/show_trait/show_trait.py
index 8883e627..40e344b8 100644
--- a/wqflask/wqflask/show_trait/show_trait.py
+++ b/wqflask/wqflask/show_trait/show_trait.py
@@ -22,6 +22,7 @@ from base import webqtlConfig
from base import webqtlCaseData
from wqflask.show_trait.SampleList import SampleList
from utility import webqtlUtil, Plot, Bunch, helper_functions
+from utility.tools import locate_ignore_error
from base.trait import GeneralTrait
from base import data_set
from db import webqtlDatabaseFunction
@@ -170,6 +171,17 @@ class ShowTrait(object):
self.genofiles = self.dataset.group.get_genofiles()
+ if "QTLReaper" or "R/qtl" in dataset.group.mapping_names: #ZS: No need to grab scales from .geno file unless it's using a mapping method that reads .geno files
+ if self.genofiles:
+ self.scales_in_geno = get_genotype_scales(self.genofiles)
+ else:
+ self.scales_in_geno = get_genotype_scales(self.dataset.group + ".geno")
+
+ if len(self.scales_in_geno) < 2:
+ hddn['mapping_scale'] = self.scales_in_geno[self.scales_in_geno.keys()[0]][0]
+ else:
+ self.scales_in_geno = {}
+
self.has_num_cases = has_num_cases(self.this_trait)
self.stats_table_width, self.trait_table_width = get_table_widths(self.sample_groups, self.has_num_cases)
@@ -239,6 +251,7 @@ class ShowTrait(object):
#hddn['control_marker'] = self.nearest_marker1+","+self.nearest_marker2
hddn['do_control'] = False
hddn['maf'] = 0.05
+ hddn['mapping_scale'] = "physic"
hddn['compare_traits'] = []
hddn['export_data'] = ""
hddn['export_format'] = "excel"
@@ -251,6 +264,7 @@ class ShowTrait(object):
short_description = short_description,
unit_type = trait_units,
dataset_type = self.dataset.type,
+ scales_in_geno = self.scales_in_geno,
data_scale = self.dataset.data_scale,
sample_group_types = self.sample_group_types,
sample_lists = sample_lists,
@@ -597,4 +611,77 @@ def get_categorical_variables(this_trait, sample_list):
if num_distinct < 10:
categorical_var_list.append(sample_list.attributes[attribute].name)
- return categorical_var_list \ No newline at end of file
+ return categorical_var_list
+
+def get_genotype_scales(genofiles):
+ geno_scales = {}
+ if type(genofiles) is list:
+ for the_file in genofiles:
+ file_location = the_file['location']
+ geno_scales[file_location] = get_scales_from_genofile(file_location)
+ else:
+ geno_scales[genofiles] = get_scales_from_genofile(genofiles)
+
+ return geno_scales
+
+def get_scales_from_genofile(file_location):
+ geno_path = locate_ignore_error(file_location, 'genotype')
+
+ if not geno_path: #ZS: This is just to allow the code to run when
+ return [["physic", "Mb"]]
+ cm_and_mb_cols_exist = True
+ cm_column = None
+ mb_column = None
+ with open(geno_path, "r") as geno_fh:
+ for i, line in enumerate(geno_fh):
+ if line[0] == "#" or line[0] == "@":
+ if "@scale" in line: #ZS: If the scale is made explicit in the metadata, use that
+ scale = line.split(":")[1].strip()
+ if scale == "morgan":
+ return [["morgan", "cM"]]
+ else:
+ return [["physic", "Mb"]]
+ else:
+ continue
+ if line[:3] == "Chr":
+ first_marker_line = i + 1
+ if line.split("\t")[2].strip() == "cM":
+ cm_column = 2
+ elif line.split("\t")[3].strip() == "cM":
+ cm_column = 3
+ if line.split("\t")[2].strip() == "Mb":
+ mb_column = 2
+ elif line.split("\t")[3].strip() == "Mb":
+ mb_column = 3
+ break
+
+ #ZS: This attempts to check whether the cM and Mb columns are 'real', since some .geno files have one column be a copy of the other column, or have one column that is all 0s
+ cm_all_zero = True
+ mb_all_zero = True
+ cm_mb_all_equal = True
+ for i, line in enumerate(geno_fh):
+ if first_marker_line <= i < first_marker_line + 10: #ZS: I'm assuming there won't be more than 10 markers where the position is listed as 0
+ if cm_column:
+ cm_val = line.split("\t")[cm_column].strip()
+ if cm_val != "0":
+ cm_all_zero = False
+ if mb_column:
+ mb_val = line.split("\t")[mb_column].strip()
+ if mb_val != "0":
+ mb_all_zero = False
+ if cm_column and mb_column:
+ if cm_val != mb_val:
+ cm_mb_all_equal = False
+ else:
+ if i > first_marker_line + 10:
+ break
+
+ #ZS: This assumes that both won't be all zero, since if that's the case mapping shouldn't be an option to begin with
+ if mb_all_zero:
+ return [["morgan", "cM"]]
+ elif cm_mb_all_equal:
+ return [["physic", "Mb"]]
+ elif cm_and_mb_cols_exist:
+ return [["physic", "Mb"], ["morgan", "cM"]]
+ else:
+ return [["physic", "Mb"]]
diff --git a/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js b/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js
index 478ed87e..7176a0da 100644
--- a/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js
+++ b/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js
@@ -165,6 +165,7 @@
url = "/loading";
$('input[name=method]').val("rqtl_geno");
$('input[name=selected_chr]').val($('#chr_rqtl_geno').val());
+ $('input[name=mapping_scale]').val($('#scale_rqtl_geno').val());
$('input[name=genofile]').val($('#genofile_rqtl_geno').val());
$('input[name=num_perm]').val($('input[name=num_perm_rqtl_geno]').val());
$('input[name=categorical_vars]').val(js_data.categorical_vars)
@@ -210,6 +211,7 @@
url = "/loading";
$('input[name=method]').val("reaper");
$('input[name=selected_chr]').val($('#chr_reaper').val());
+ $('input[name=mapping_scale]').val($('#scale_reaper').val());
$('input[name=genofile]').val($('#genofile_reaper').val());
$('input[name=num_perm]').val($('input[name=num_perm_reaper]').val());
$('input[name=control_marker]').val($('input[name=control_reaper]').val());
@@ -289,4 +291,21 @@
return toggle_enable_disable("#suggestive_lrs");
});
+ $('#genofile_rqtl_geno').change(function() {
+ geno_location = $(this).children("option:selected").val().split(":")[0]
+ $('#scale_rqtl_geno').empty()
+ the_scales = js_data.scales_in_geno[geno_location]
+ for (var i = 0; i < the_scales.length; i++){
+ $('#scale_rqtl_geno').append($("<option></option>").attr("value", the_scales[i][0]).text(the_scales[i][1]));
+ }
+ });
+ $('#genofile_reaper').change(function() {
+ geno_location = $(this).children("option:selected").val().split(":")[0]
+ $('#scale_reaper').empty()
+ the_scales = js_data.scales_in_geno[geno_location]
+ for (var i = 0; i < the_scales.length; i++){
+ $('#scale_reaper').append($("<option></option>").attr("value", the_scales[i][0]).text(the_scales[i][1]));
+ }
+ });
+
}).call(this);
diff --git a/wqflask/wqflask/templates/mapping_results.html b/wqflask/wqflask/templates/mapping_results.html
index 7e05be18..94ac0350 100644
--- a/wqflask/wqflask/templates/mapping_results.html
+++ b/wqflask/wqflask/templates/mapping_results.html
@@ -274,7 +274,11 @@
{% endif %}
<td align="right">{{marker.chr}}</td>
{% if plotScale != "physic" %}
+ {% if 'cM' in marker %}
+ <td align="right">{{ '%0.3f' | format(marker.cM|float) }}</td>
+ {% else %}
<td align="right">{{ '%0.3f' | format(marker.Mb|float) }}</td>
+ {% endif %}
{% else %}
<td align="right">{{ '%0.6f' | format(marker.Mb|float) }}</td>
{% endif %}
diff --git a/wqflask/wqflask/templates/show_trait_mapping_tools.html b/wqflask/wqflask/templates/show_trait_mapping_tools.html
index 777d4a2d..7c897409 100755
--- a/wqflask/wqflask/templates/show_trait_mapping_tools.html
+++ b/wqflask/wqflask/templates/show_trait_mapping_tools.html
@@ -121,6 +121,16 @@
</div>
{% if genofiles and genofiles|length>0 %}
<div class="mapping_method_fields form-group">
+ <label for="scale_select" style="text-align: right;" class="col-xs-3 control-label">Map Scale</label>
+ <div style="margin-left:20px;" class="col-xs-2 controls">
+ <select id="scale_reaper" class="form-control" style="width: 80px;">
+ {% for item in scales_in_geno[genofiles[0]['location']] %}
+ <option value="{{ item[0] }}">{{ item[1] }}</option>
+ {% endfor %}
+ </select>
+ </div>
+ </div>
+ <div class="mapping_method_fields form-group">
<label style="text-align: right;" for="genofiles" class="col-xs-3 control-label">Genotypes</label>
<div style="margin-left:20px;" class="col-xs-4 controls">
<select id="genofile_reaper" class="form-control">
@@ -225,7 +235,17 @@
</select>
</div>
</div>
- {% if genofiles and genofiles|length>0 %}
+ {% if genofiles and genofiles|length > 0 %}
+ <div class="mapping_method_fields form-group">
+ <label for="scale_select" style="text-align: right;" class="col-xs-3 control-label">Map Scale</label>
+ <div style="margin-left:20px;" class="col-xs-2 controls">
+ <select id="scale_rqtl_geno" class="form-control" style="width: 80px;">
+ {% for item in scales_in_geno[genofiles[0]['location']] %}
+ <option value="{{ item[0] }}">{{ item[1] }}</option>
+ {% endfor %}
+ </select>
+ </div>
+ </div>
<div class="mapping_method_fields form-group">
<label style="text-align:right;" for="genofiles" class="col-xs-3 control-label">Genotypes</label>
<div style="margin-left:20px;" class="col-xs-4 controls">