The phenotypic landscape of essential human genes

Funk, Luke; Su, Kuan-Chung; Feldman, David; Singh, Avtar; Moodie, Brittania; Blainey, Paul C.; Cheeseman, Iain M.

doi:10.1101/2021.11.28.470116

Cited by 13 publications

(16 citation statements)

References 71 publications

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“…Thus, INTS10-13-14-C7orf26 represents a functionally and biochemically distinct module of Integrator, consistent with concurrent studies ( Figure 3H ; Funk et al, 2021 ; Pan et al, 2022 ; Wainberg et al, 2021 ). Although Integrator has been subjected to extensive structural analyses, it has been difficult to resolve the INTS10-13-14 components in relation to the rest of the complex, and inclusion of C7orf26 may facilitate future structural efforts.…”

Section: Resultssupporting

confidence: 89%

“…In every case, the affected ribosomal subunit corresponded to the Perturb-seq clustering across two independent sgRNAs. Although this study was in progress, another group identified C1orf131 as a structural component of the pre-A1 small subunit processome by cryo-EM, complementing our functional work (Singh et al, 2021). This validation suggests that many poorly characterized genes can be assigned functional roles through Perturb-seq, although a subset of these relationships may be explained by off-target effects (Figure S4G…”

Section: Annotating Gene Function From Transcriptional Phenotypessupporting

confidence: 61%

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Mapping information-rich genotype-phenotype landscapes with genome-scale Perturb-seq

Replogle

Saunders

Pogson

et al. 2022

Cell

202

251

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Section: Resultssupporting

confidence: 89%

Section: Annotating Gene Function From Transcriptional Phenotypessupporting

confidence: 61%

Mapping information-rich genotype-phenotype landscapes with genome-scale Perturb-seq

Replogle

Saunders

Pogson

et al. 2022

Cell

202

251

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“…A direct association between CDC5L and securin was also found, pointing towards a direct role for the NTC in meiosis promotion. Finally, in a recent high-throughput CRISPR-based optical pooled screen, the NTC and NTC-associated components (PRP19, CDC5L, PLRG, SNW1 and BUD31) co-clustered with other mRNA splicing factors as key regulators of mitosis, confirming prior work [ 146 ]. In addition to its splicing roles, the NTC also participates directly in mitosis progression.…”

Section: Regulation Of Cell Division By Mrna Splicing Factorssupporting

confidence: 78%

The PRP19 Ubiquitin Ligase, Standing at the Cross-Roads of mRNA Processing and Genome Stability

Idrissou

Maréchal

2022

Cancers

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mRNA processing factors are increasingly being recognized as important regulators of genome stability. By preventing and resolving RNA:DNA hybrids that form co-transcriptionally, these proteins help avoid replication–transcription conflicts and thus contribute to genome stability through their normal function in RNA maturation. Some of these factors also have direct roles in the activation of the DNA damage response and in DNA repair. One of the most intriguing cases is that of PRP19, an evolutionarily conserved essential E3 ubiquitin ligase that promotes mRNA splicing, but also participates directly in ATR activation, double-strand break resection and mitosis. Here, we review historical and recent work on PRP19 and its associated proteins, highlighting their multifarious cellular functions as central regulators of spliceosome activity, R-loop homeostasis, DNA damage signaling and repair and cell division. Finally, we discuss open questions that are bound to shed further light on the functions of PRP19-containing complexes in both normal and cancer cells.

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“…This is typically done by sorting cells based on their expression for a particular marker. More recently, microscopy has also been utilized as a readout, for example, by measuring γH2AX foci (a marker of DNA damage) coupled with in situ sequencing [ 13 ]. Arrayed screens, which have a physical separation between each perturbation, are typically used for validation and follow‐up studies.…”

Section: Crispr ‐Based Screens In Drug Discoverymentioning

confidence: 99%

Exploring the genetic space of the DNA damage response for cancer therapy through CRISPR‐based screens

Wilson

Loizou

2022

Molecular Oncology

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The concepts of synthetic lethality and viability have emerged as powerful approaches to identify vulnerabilities and resistances within the DNA damage response for the treatment of cancer. Historically, interactions between two genes have had a longstanding presence in genetics and have been identified through forward genetic screens that rely on the molecular basis of the characterized phenotypes, typically caused by mutations in single genes. While such complex genetic interactions between genes have been studied extensively in model organisms, they have only recently been prioritized as therapeutic strategies due to technological advancements in genetic screens. Here, we discuss synthetic lethal and viable interactions within the DNA damage response and present how CRISPR-based genetic screens and chemical compounds have allowed for the systematic identification and targeting of such interactions for the treatment of cancer.

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The phenotypic landscape of essential human genes

Cited by 13 publications

References 71 publications

Mapping information-rich genotype-phenotype landscapes with genome-scale Perturb-seq

Mapping information-rich genotype-phenotype landscapes with genome-scale Perturb-seq

The PRP19 Ubiquitin Ligase, Standing at the Cross-Roads of mRNA Processing and Genome Stability

Exploring the genetic space of the DNA damage response for cancer therapy through CRISPR‐based screens

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