<p>Network was constructed using sequencing data obtained from 1000 Human Genomes project. We used 10 Kb upstream and downstream of rs1042538 (chr15: 91044408) for analysis. The size of circle is proportional to the frequency of the haplotype.</p
<p>Node sizes are proportional to haplotype frequencies. Variable positions are indicated along link...
<p>The area of each circle is proportional to the number of individuals exhibiting that haplotype. B...
<p>The size of the circles is proportional to the frequency of each haplotype. Haplotypes are connec...
<p>Haplotypes are displayed at network nodes and are symbolised by circles whose diameter is proport...
<p>Each haplotypes is shown as a circle with the size of the circle representing the haplotype frequ...
<p>Size of the circle is proportional to the number sampled. Dashes indicate hypothesised but unsamp...
<p>The network shows relationship among the 27 haplotypes based on the human Th2R/Th3R sequences fro...
<p>Haplotype circle sizes are proportional to frequency, and colour coded according to geographic sa...
<p>The area of each circle is proportional to the number of individuals exhibiting that haplotype (H...
<p>The network is based on the analysis of sequence data of the first haplotype block of 8634 bp len...
Each circle represents one haplotype and their size is proportional to the number of individuals pos...
<p>M–J network of three observed haplogroups (M49, M61 and M4b) shows the distribution of haplotypes...
<p>Circles are haplotypes. Sizes of these circles are proportional to haplotype frequency and branch...
<p>Haplotype circles are colour coded according to geographic locality, and circle size is proportio...
<p>The length of line between the haplotypes does not depend on the number of mutations. Each circle...
<p>Node sizes are proportional to haplotype frequencies. Variable positions are indicated along link...
<p>The area of each circle is proportional to the number of individuals exhibiting that haplotype. B...
<p>The size of the circles is proportional to the frequency of each haplotype. Haplotypes are connec...
<p>Haplotypes are displayed at network nodes and are symbolised by circles whose diameter is proport...
<p>Each haplotypes is shown as a circle with the size of the circle representing the haplotype frequ...
<p>Size of the circle is proportional to the number sampled. Dashes indicate hypothesised but unsamp...
<p>The network shows relationship among the 27 haplotypes based on the human Th2R/Th3R sequences fro...
<p>Haplotype circle sizes are proportional to frequency, and colour coded according to geographic sa...
<p>The area of each circle is proportional to the number of individuals exhibiting that haplotype (H...
<p>The network is based on the analysis of sequence data of the first haplotype block of 8634 bp len...
Each circle represents one haplotype and their size is proportional to the number of individuals pos...
<p>M–J network of three observed haplogroups (M49, M61 and M4b) shows the distribution of haplotypes...
<p>Circles are haplotypes. Sizes of these circles are proportional to haplotype frequency and branch...
<p>Haplotype circles are colour coded according to geographic locality, and circle size is proportio...
<p>The length of line between the haplotypes does not depend on the number of mutations. Each circle...
<p>Node sizes are proportional to haplotype frequencies. Variable positions are indicated along link...
<p>The area of each circle is proportional to the number of individuals exhibiting that haplotype. B...
<p>The size of the circles is proportional to the frequency of each haplotype. Haplotypes are connec...