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High-content analysis screening for cell cycle regulators using arrayed synthetic crRNA libraries.
Strezoska, Zaklina; Perkett, Matthew R; Chou, Eldon T; Maksimova, Elena; Anderson, Emily M; McClelland, Shawn; Kelley, Melissa L; Vermeulen, Annaleen; Smith, Anja van Brabant.
Afiliação
  • Strezoska Z; Dharmacon, part of GE Healthcare, Lafayette, CO 80026, USA.
  • Perkett MR; Dharmacon, part of GE Healthcare, Lafayette, CO 80026, USA.
  • Chou ET; Dharmacon, part of GE Healthcare, Lafayette, CO 80026, USA.
  • Maksimova E; Dharmacon, part of GE Healthcare, Lafayette, CO 80026, USA.
  • Anderson EM; Dharmacon, part of GE Healthcare, Lafayette, CO 80026, USA.
  • McClelland S; Dharmacon, part of GE Healthcare, Lafayette, CO 80026, USA.
  • Kelley ML; Dharmacon, part of GE Healthcare, Lafayette, CO 80026, USA.
  • Vermeulen A; Dharmacon, part of GE Healthcare, Lafayette, CO 80026, USA.
  • Smith AVB; Dharmacon, part of GE Healthcare, Lafayette, CO 80026, USA. Electronic address: anja.smith@ge.com.
J Biotechnol ; 251: 189-200, 2017 Jun 10.
Article em En | MEDLINE | ID: mdl-28445693
The CRISPR-Cas9 system has been utilized for large-scale, loss-of-function screens mainly using lentiviral pooled formats and cell-survival phenotypic assays. Screening in an arrayed format expands the types of phenotypic readouts that can be used to now include high-content, morphology-based assays, and with the recent availability of synthetic crRNA libraries, new studies are emerging. Here, we use a cell cycle reporter cell line to perform an arrayed, synthetic crRNA:tracrRNA screen targeting 169 genes (>600 crRNAs) and used high content analysis (HCA) to identify genes that regulate the cell cycle. Seven parameters were used to classify cells into cell cycle categories and multiple parameters were combined using a new analysis technique to identify hits. Comprehensive hit follow-up experiments included target gene expression analysis, confirmation of DNA insertions/deletions, and validation with orthogonal reagents. Our results show that most hits had three or more independent crRNAs per gene that demonstrated a phenotype with consistent individual parameters, indicating that our screen produced high-confidence hits with low off-target effects and allowed us to identify hits with more subtle phenotypes. The results of our screen demonstrate the power of using arrayed, synthetic crRNAs for functional phenotypic screening using multiparameter HCA assays.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Ciclo Celular Idioma: En Ano de publicação: 2017 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Ciclo Celular Idioma: En Ano de publicação: 2017 Tipo de documento: Article