Quantitative Profiling of In Vivo-assembled RNA-Protein Complexes Using a Novel Integrated Proteomic Approach

Tsai, Becky Pinjou; Wang, Xiaorong; Huang, Lan; Waterman, Marian L.

doi:10.1074/mcp.m110.007385

Cited by 90 publications

(77 citation statements)

References 58 publications

(108 reference statements)

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“…Another recently published strategy is the MS2-BioTRAP. This involves affinity purification of biotin-tagged MS2 loops of RNA, and it thus allows the isolation of protein-RNA complexes assembled in vivo through their RNA moiety [29].…”

Section: Reconstitution In Vitro Ofmentioning

confidence: 99%

See 1 more Smart Citation

Investigation of protein–RNA interactions by mass spectrometry—Techniques and applications

Schmidt

Kramer

Urlaub

2012

Journal of Proteomics

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Section: Reconstitution In Vitro Ofmentioning

confidence: 99%

“…Background protein-binding showed equal abundance in both samples, whereas specifically binding proteins showed high enrichment in the pull-down experiments using the bait RNA [54]. A similar strategy that implements SILAC has been introduced by Tsai et al [29]. They used MS2-BioTRAP (see above) to identify and quantify LEF1 IRES RNA-binding proteins.…”

mentioning

confidence: 96%

Investigation of protein–RNA interactions by mass spectrometry—Techniques and applications

Schmidt

Kramer

Urlaub

2012

Journal of Proteomics

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“…The combination of these two technologies may provide a very accurate portrait of how mRNA secondary structures control the translation of the cancer genome. Furthermore, techniques such as high-throughput sequencing of RNA isolated by crosslinking immunoprecipitation (HITS-CLIP) and affinity RNA purification followed by mass spectrometry have successfully identified cis-regulatory elements and specific regulatory factors associated with RNAs (Ji et al 2004;Darnell et al 2011;Tsai et al 2011;Darnell and Richter 2012). Such technologies could be used to characterize the mRNAs and the translational complex directly bound to eIFs such as eIF3, eIF4G, eIF5B, and eIF4A.…”

Section: Translational Control In Cancer Etiologymentioning

confidence: 99%

Translational Control in Cancer Etiology

Ruggero

2012

Cold Spring Harbor Perspectives in Biology

303

207

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The link between perturbations in translational control and cancer etiology is becoming a primary focus in cancer research. It has now been established that genetic alterations in several components of the translational apparatus underlie spontaneous cancers as well as an entire class of inherited syndromes known as "ribosomopathies" associated with increased cancer susceptibility. These discoveries have illuminated the importance of deregulations in translational control to very specific cellular processes that contribute to cancer etiology. In addition, a growing body of evidence supports the view that deregulation of translational control is a common mechanism by which diverse oncogenic pathways promote cellular transformation and tumor development. Indeed, activation of these key oncogenic pathways induces rapid and dramatic translational reprogramming both by increasing overall protein synthesis and by modulating specific mRNA networks. These translational changes promote cellular transformation, impacting almost every phase of tumor development. This paradigm represents a new frontier in the multihit model of cancer formation and offers significant promise for innovative cancer therapies. Current research, in conjunction with cutting edge technologies, will further enable us to explore novel mechanisms of translational control, functionally identify translationally controlled mRNA groups, and unravel their impact on cellular transformation and tumorigenesis.

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“…SILAC determines the intensity of specific ''light'' and ''heavy'' peptide pairs that are mass shifted from each other due to metabolic labeling of the proteome with isotopeenriched amino acids (Mann 2006). So far, SILAC-based quantitative mass spectrometry for the identification of RNA-associated proteins has been used to investigate selected mRNA fragments (Butter et al 2009;Tsai et al 2011;Ward et al 2011;Scheibe et al 2012) or polyadenylated RNA on a global scale (Baltz et al 2012). For the first time, we here apply quantitative interaction proteomics to systematically and comprehensively determine proteins interacting with a noncoding repetitive RNA, leading to the identification of novel interactors with a role in TERRA homeostasis and its association with telomeres.…”

mentioning

confidence: 99%

Quantitative interaction screen of telomeric repeat-containing RNA reveals novel TERRA regulators

et al. 2013

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Telomeres are actively transcribed into telomeric repeat-containing RNA (TERRA), which has been implicated in the regulation of telomere length and heterochromatin formation. Here, we applied quantitative mass spectrometry (MS)-based proteomics to obtain a high-confidence interactome of TERRA. Using SILAC-labeled nuclear cell lysates in an RNA pulldown experiment and two different salt conditions, we distinguished 115 proteins binding specifically to TERRA out of a large set of background binders. While TERRA binders identified in two previous studies showed little overlap, using quantitative mass spectrometry we obtained many candidates reported in these two studies. To test whether novel candidates found here are involved in TERRA regulation, we performed an esiRNA-based interference analysis for 15 of them. Knockdown of 10 genes encoding candidate proteins significantly affected total cellular levels of TERRA, and RNAi of five candidates perturbed TERRA recruitment to telomeres. Notably, depletion of SRRT/ARS2, involved in miRNA processing, up-regulated both total and telomere-bound TERRA. Conversely, knockdown of MORF4L2, a component of the NuA4 histone acetyltransferase complex, reduced TERRA levels both globally and for telomere-bound TERRA. We thus identified new proteins involved in the homeostasis and telomeric abundance of TERRA, extending our knowledge of TERRA regulation.

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Quantitative Profiling of In Vivo-assembled RNA-Protein Complexes Using a Novel Integrated Proteomic Approach

Cited by 90 publications

References 58 publications

Investigation of protein–RNA interactions by mass spectrometry—Techniques and applications

Investigation of protein–RNA interactions by mass spectrometry—Techniques and applications

Translational Control in Cancer Etiology

Quantitative interaction screen of telomeric repeat-containing RNA reveals novel TERRA regulators

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