An knock-in allele for investigation of molting and oscillatory gene regulation.

NHR-85 is a poorly characterized nuclear hormone receptor transcription factor with an emerging role in regulating microRNA expression to control developmental timing. We generated the first NHR-85 translational fusion by knocking a cassette into the endogenous locus to tag all known isoforms. animals have wild-type broodsizes and NHR-85 ::GFP peaks in expression at the start of the L4 stage in epithelial cells.

NHR-23 activity is necessary for C. elegans developmental progression and apical extracellular matrix structure and function.

Nematode molting is a remarkable process where animals must repeatedly build a new apical extracellular matrix (aECM) beneath a previously built aECM that is subsequently shed. The nuclear hormone receptor NHR-23 (also known as NR1F1) is an important regulator of C. elegans molting.

An expanded auxin-inducible degron toolkit for Caenorhabditis elegans.

The auxin-inducible degron (AID) system has emerged as a powerful tool to conditionally deplete proteins in a range of organisms and cell types. Here, we describe a toolkit to augment the use of the AID system in Caenorhabditis elegans. We have generated a set of single-copy, tissue-specific (germline, intestine, neuron, muscle, pharynx, hypodermis, seam cell, anchor cell) and pan-somatic TIR1-expressing strains carrying a co-expressed blue fluorescent reporter to enable use of both red and green channels in experiments.

The conserved molting/circadian rhythm regulator NHR-23/NR1F1 serves as an essential co-regulator of spermatogenesis.

In sexually reproducing metazoans, spermatogenesis is the process by which uncommitted germ cells give rise to haploid sperm. Work in model systems has revealed mechanisms controlling commitment to the sperm fate, but how this fate is subsequently executed remains less clear. While studying the well-established role of the conserved nuclear hormone receptor transcription factor, NHR-23/NR1F1, in regulating molting, we discovered that NHR-23/NR1F1 is also constitutively expressed in developing primary spermatocytes and is a critical regulator of spermatogenesis.

Rapid Degradation of Proteins at Single-Cell Resolution with a Synthetic Auxin.

As developmental biologists in the age of genome editing, we now have access to an ever-increasing array of tools to manipulate endogenous gene expression. The auxin-inducible degradation system allows for spatial and temporal control of protein degradation via a hormone-inducible F-box protein, transport inhibitor response 1 (TIR1). In the presence of auxin, TIR1 serves as a substrate-recognition component of the E3 ubiquitin ligase complex SKP1-CUL1-F-box (SCF), ubiquitinating auxin-inducible degron (AID)-tagged proteins for proteasomal degradation.