CRISPR (Clustered Regularly Interspersed Short Palindromic Repeats)-mediated defense against invading nucleic acids is a process recently discovered in prokaryotes, which includes recognition and incorporation of invading genetic elements, transcription and processing of CRISPR-RNA (crRNA) and targeting the invaders through base pair recognition. In the type I-E CRISPR-Cas system, Cse2 is proposed to provide a platform to facilitate the targeting of the invading dsDNA by crRNA. Here we report the crystal structure of Meiothermus ruber Cse2 at 2.8 angstrom. M. ruber Cse2 adopts an a-helical bundle scaffold, harbors a positive surface for nucleic acid binding and a conserved dimer interface with strikingly low buried surface area. M. ruber Cse2 selectively binds to G-rich crRNA sequence, which is stripped off from the Cse2-crRNA and Cascade-crRNA complexes by ssDNA or dsDNA with complementary sequence. Stable M. ruber Cascade is readily formed by co-expression of M. ruber Cascade proteins together with G-rich crRNA in vitro. Docking of M. ruber Cse2 structures into the Escherichia coli Cascade Cryo-EM envelope reveals a curved elongated shallow groove for ssRNA binding, which adopts a similar dimer interface discovered by high-resolution crystal structure of Cse2 within E. Coli Cascade. Taken together, our data provides the structural insights into crRNA G-rich sequence recognition by M. ruber Cse2 and reveals the potential structural mechanism for M. ruber Cascade assembly and function. (C) 2015 Elsevier Inc. All rights reserved.