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We present a 2-dimensional Peano continuum $\mathbb{T}\subseteq \mathbb{R}^3$ with the following properties: (1) There is a universal covering projection $q:\overline{\mathbb{T}}\rightarrow \mathbb{T}$ with uncountable fundamental group $π_1(\overline{\mathbb{T}})$; (2) For every $1\not=[\overlineα]\in π_1(\overline{\mathbb{T}},\ast)$, there is a covering projection $r:(E,e)\rightarrow (\overline{\mathbb{T}},\ast)$ such that $[\overlineα]\not\in r_\#π_1(E,e)$; (3) There is no universal covering projection $r:E\rightarrow \overline{\mathbb{T}}$; (4) The universal object $p:\widetilde{\mathbb{T}}\rightarrow \mathbb{T}$ in the category of fibrations with unique path lifting (and path-connected total space) over $\mathbb{T}$ has trivial fundamental group $π_1(\widetilde{\mathbb{T}})=1$; (5) $p:\widetilde{\mathbb{T}}\rightarrow \mathbb{T}$ is not a path component of an inverse limit of covering projections over $\mathbb{T}$.