g

p

g

p

g

es for eight bins, which had the same size. For each bin, the

s of the transposon were counted and recorded. Each recorded

frequency was expressed as a bar with the height which was the

he number of the transposon insertions within a bin. For instance,

ertions were within the boundaries of the first bin. Therefore the

f the first bin was recorded as 1,277. The bottom-left panel of

2 shows this histogram of the transposon insertion distribution of

. The bottom-right panel of Figure 2.2 shows the probability

f the transposon insertions of this gene. Based on this histogram,

bution pattern can be analysed.

demo of density estimation of the transposon insertions within the gene isftu1

cisella Tularensis species. Top-left: the insertion distribution of the gene. Top-

t bins were designed to generate a histogram for analysing the insertion

for the gene. Bottom-left: the histogram constructed by counting the insertions

o the bins. Bottom-right: the probabilistic histogram converted from the

histogram.