Continuity of the Characteristic Function of a RV
There is a typo: it should be $$|\phi(t+u)-\phi(t)|=\left|\int (e^{i(t+u)x}-e^{itx})\mathrm dF(x)\right|\leqslant\int \left|e^{iux}-1\right|\mathrm dF(x).$$ Now take a sequence $\left( u_n\right) $ which converges to $0$ and put $f_n(x):=\left|e^{iu_nx}-1\right|$. Then $f_n(x)\to 0$ for each $x$ and $\left |f_n(x)\right|\leqslant 2$ which is integrable (when $\mathbb R$ is endowed with the probability measure $\mathbb P_X$) so we conclude by the dominated convergence theorem that $\lim_{n\to\infty}\int\left|e^{iu_nx}-1\right|dF(x)=0$ and so $\phi$ is uniformly continuous on $\mathbb R$.
Note that if the random variable is integrable we don't need the dominated convergence theorem, since we can write $$\left|\phi(t+u)-\phi(t)\right|\leqslant\int \left|e^{iux}-1\right|dF(x)=2\int\left|\sin(ux/2)\right|\mathrm dF(x)\leqslant \left|u\right|\int \left|x\right|\mathrm dF(x).$$