Pauli Measurements are the most important measurements in both theoretical and experimental aspects of quantum information science. In this paper, we explore the power of Pauli measurements in the state tomography related problems. Firstly, we show that the \textit{quantum state tomography} problem of n-qubit system can be accomplished with O(ϵ210n) copies of the unknown state using Pauli measurements. As a direct application, we studied the \textit{quantum overlapping tomography} problem introduced by Cotler and Wilczek in Ref. \cite{Cotler_2020}. We show that the sample complexity is O(ϵ210k⋅log((kn)/δ))) for quantum overlapping tomography of k-qubit reduced density matrices among n is quantum system, where 1−δ is the confidential level, and ϵ is the trace distance error. This can be achieved using Pauli measurements. Moreover, we prove that Ω(ϵ2log(n/δ)) copies are needed. In other words, for constant k, joint, highly entangled, measurements are not asymptotically more efficient than Pauli measurements.