Novel Genome-Engineered H Alleles Differentially Affect Lateral Inhibition and Cell Dichotomy Processes during Bristle Organ Development
Tanja C. Mönch, Thomas K. Smylla, Franziska Brändle, Anette Preiss, Anja C. Nagel

TL;DR
This paper studies how different mutations in the Hairless gene affect bristle development in fruit flies.
Contribution
The study introduces new Hairless alleles and reveals distinct roles in lateral inhibition and cell specification.
Findings
HWA affects only lateral inhibition, while HNN also impacts cell type specification.
Reduced Su(H) dosage suppresses HNN but amplifies HWA bristle defects.
HWA and HNN mutants show distinct bristle organ transformations.
Abstract
Hairless (H) encodes the major antagonist in the Notch signaling pathway, which governs cellular differentiation of various tissues in Drosophila. By binding to the Notch signal transducer Suppressor of Hairless (Su(H)), H assembles repressor complexes onto Notch target genes. Using genome engineering, three new H alleles, HFA, HLLAA and HWA were generated and a phenotypic series was established by several parameters, reflecting the residual H-Su(H) binding capacity. Occasionally, homozygous HWA flies develop to adulthood. They were compared with the likewise semi-viable HNN allele affecting H-Su(H) nuclear entry. The H homozygotes were short-lived, sterile and flightless, yet showed largely normal expression of several mitochondrial genes. Typical for H mutants, both HWA and HNN homozygous alleles displayed strong defects in wing venation and mechano-sensory bristle development.…
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Taxonomy
TopicsDevelopmental Biology and Gene Regulation · Pluripotent Stem Cells Research · Epigenetics and DNA Methylation
