Authors
Adam C Wilkinson, Viviane KS Kawata, Judith Schütte, Xuefei Gao, Stella Antoniou, Claudia Baumann, Steven Woodhouse, Rebecca Hannah, Yosuke Tanaka, Gemma Swiers, Victoria Moignard, Jasmin Fisher, Shimauchi Hidetoshi, Marloes R Tijssen, Marella FTR De Bruijn, Pentao Liu, Berthold Göttgens
Publication date
2014/10/15
Journal
Development
Volume
141
Issue
20
Pages
4018-4030
Publisher
The Company of Biologists
Description
Transcription factors (TFs) act within wider regulatory networks to control cell identity and fate. Numerous TFs, including Scl (Tal1) and PU.1 (Spi1), are known regulators of developmental and adult haematopoiesis, but how they act within wider TF networks is still poorly understood. Transcription activator-like effectors (TALEs) are a novel class of genetic tool based on the modular DNA-binding domains of Xanthomonas TAL proteins, which enable DNA sequence-specific targeting and the manipulation of endogenous gene expression. Here, we report TALEs engineered to target the PU.1-14kb and Scl+40kb transcriptional enhancers as efficient new tools to perturb the expression of these key haematopoietic TFs. We confirmed the efficiency of these TALEs at the single-cell level using high-throughput RT-qPCR, which also allowed us to assess the consequences of both PU.1 activation and repression on wider TF …
Scholar articles
AC Wilkinson, VKS Kawata, J Schütte, X Gao… - Development, 2014