- Staals, Raymond HJ;
- Zhu, Yifan;
- Taylor, David W;
- Kornfeld, Jack E;
- Sharma, Kundan;
- Barendregt, Arjan;
- Koehorst, Jasper J;
- Vlot, Marnix;
- Neupane, Nirajan;
- Varossieau, Koen;
- Sakamoto, Keiko;
- Suzuki, Takehiro;
- Dohmae, Naoshi;
- Yokoyama, Shigeyuki;
- Schaap, Peter J;
- Urlaub, Henning;
- Heck, Albert JR;
- Nogales, Eva;
- Doudna, Jennifer A;
- Shinkai, Akeo;
- van der Oost, John
CRISPR-Cas is a prokaryotic adaptive immune system that provides sequence-specific defense against foreign nucleic acids. Here we report the structure and function of the effector complex of the Type III-A CRISPR-Cas system of Thermus thermophilus: the Csm complex (TtCsm). TtCsm is composed of five different protein subunits (Csm1-Csm5) with an uneven stoichiometry and a single crRNA of variable size (35-53 nt). The TtCsm crRNA content is similar to the Type III-B Cmr complex, indicating that crRNAs are shared among different subtypes. A negative stain EM structure of the TtCsm complex exhibits the characteristic architecture of Type I and Type III CRISPR-associated ribonucleoprotein complexes. crRNA-protein crosslinking studies show extensive contacts between the Csm3 backbone and the bound crRNA. We show that, like TtCmr, TtCsm cleaves complementary target RNAs at multiple sites. Unlike Type I complexes, interference by TtCsm does not proceed via initial base pairing by a seed sequence.