Updated project metadata. Alternative Lengthening of Telomeres (ALT) cancer cells are a subset of cancers that depend on the homologous recombination mechanism to extend their telomere length independent of telomerase. ALT cells contain elevated levels of the telomeric-repeat containing long noncoding RNA (TERRA), which is an RNA transcribed by RNA polymerase II and can form RNA:DNA (R-loops) hybrids at telomeres. Lines of evidence have shown that the formation of R-loops at telomeres could be one of the mechanisms to trigger DNA repair to lengthen telomeres. We perform iDRiP-MS, a method to capture specific RNA interacting protein by UV light crosslinking using antisense probe capture (Chu et al., 2017a; Minajigi et al., 2015), to explore the TERRA interactomes in human ALT cancer cell. Our TERRA interactome data reveals that TERRA interacts with an extensive subset of DNA repair proteins in ALT cells including the endonuclease XPF, suggesting that TERRA R-loops activate DDR via XPF to promote homologous recombination and telomere replication to drive ALT.