Yael Timerman scite author profile

Yael Timerman

4Publications

20Citation Statements Received

195Citation Statements Given

How they've been cited

How they cite others

147

188

Affiliations

Technion – Israel Institute of Technology

Publications

Order By: Most citations

An RNAi Screen Identifies New Genes Required for Normal Morphogenesis of Larval Chordotonal Organs

Hassan

Timerman

Hamdan

et al. 2018

View full text Add to dashboard Cite

The proprioceptive chordotonal organs (ChO) of a fly larva respond to mechanical stimuli generated by muscle contractions and consequent deformations of the cuticle. The ability of the ChO to sense the relative displacement of its epidermal attachment sites likely depends on the correct mechanical properties of the accessory (cap and ligament) and attachment cells that connect the sensory unit (neuron and scolopale cell) to the cuticle. The genetic programs dictating the development of ChO cells with unique morphologies and mechanical properties are largely unknown. Here we describe an RNAi screen that focused on the ChO’s accessory and attachment cells and was performed in 2nd instar larvae to allow for phenotypic analysis of ChOs that had already experienced mechanical stresses during larval growth. Nearly one thousand strains carrying RNAi constructs targeting more than 500 candidate genes were screened for their effects on ChO morphogenesis. The screen identified 31 candidate genes whose knockdown within the ChO lineage disrupted various aspects of cell fate determination, cell differentiation, cellular morphogenesis and cell-cell attachment. Most interestingly, one phenotypic group consisted of genes that affected the response of specific ChO cell types to developmental organ stretching, leading to abnormal pattern of cell elongation. The ‘cell elongation’ group included the transcription factors Delilah and Stripe, implicating them for the first time in regulating the response of ChO cells to developmental stretching forces. Other genes found to affect the pattern of ChO cell elongation, such as αTub85E, β1Tub56D, Tbce, CCT8, mys, Rac1 and shot, represent putative effectors that link between cell-fate determinants and the realization of cell-specific mechanical properties.

show abstract

Delilah, prospero, and D-Pax2 constitute a gene regulatory network essential for the development of functional proprioceptors

Avetisyan

Glatt

Cohen

et al. 2021

View full text Add to dashboard Cite

Coordinated animal locomotion depends on the development of functional proprioceptors. While early cell-fate determination processes are well characterized, little is known about the terminal differentiation of cells within the proprioceptive lineage and the genetic networks that control them. In this work we describe a gene regulatory network consisting of three transcription factors–Prospero (Pros), D-Pax2, and Delilah (Dei)–that dictates two alternative differentiation programs within the proprioceptive lineage in Drosophila. We show that D-Pax2 and Pros control the differentiation of cap versus scolopale cells in the chordotonal organ lineage by, respectively, activating and repressing the transcription of dei. Normally, D-Pax2 activates the expression of dei in the cap cell but is unable to do so in the scolopale cell where Pros is co-expressed. We further show that D-Pax2 and Pros exert their effects on dei transcription via a 262 bp chordotonal-specific enhancer in which two D-Pax2- and three Pros-binding sites were identified experimentally. When this enhancer was removed from the fly genome, the cap- and ligament-specific expression of dei was lost, resulting in loss of chordotonal organ functionality and defective larval locomotion. Thus, coordinated larval locomotion depends on the activity of a dei enhancer that integrates both activating and repressive inputs for the generation of a functional proprioceptive organ.

show abstract

Author response: Delilah, prospero, and D-Pax2 constitute a gene regulatory network essential for the development of functional proprioceptors

Avetisyan

Glatt

Cohen

et al. 2021

View full text Add to dashboard Cite

delilah, prosperoandD-Pax2constitute a gene regulatory network essential for the development of functional proprioceptors

Avetisyan

Glatt

Cohen

et al. 2021

Preprint

View full text Add to dashboard Cite

In this work we describe a gene regulatory network consisting of three transcription factors- Prospero (Pros), D-Pax2/Shaven (Sv) and Delilah/Taxi (Dei/Tx)- that dictates two alternative differentiation programs within the proprioceptive lineage in Drosophila. D-Pax2 and Pros control the differentiation of cap versus scolopale cells in the chordotonal organ lineage by, respectively, activating and repressing the transcription of dei. Normally, D-Pax2 activates the expression of dei in the cap cell but is unable to do so in the scolopale cell where Pros is co-expressed. If D-Pax2 activity is lost, the cap cell fails to express dei as well as additional proteins, such as αTub85E, that characterize a fully differentiated cap cell. In contrast, if Pros activity is lost, dei is ectopically expressed in the scolopale cell that, as a consequence, adopts some cap cell features, including the expression of αTub85E. We further show that D-Pax2 and Pros exert their effects on dei transcription via a 262 bp chordotonal-specific regulatory module (deiChO-262) in which two D-Pax2- and three Pros-binding sites were identified experimentally. When this regulatory element was removed from the fly genome, the cap- and ligament-specific expression of dei was lost. Ectopic expression of D-Pax2, or the elimination of pros activity, did not lead to upregulation of dei in the scolopale cell in the absence of the D-Pax2-responsive deiChO-262 enhancer. Finally, we show that the regulation of dei expression via the D-Pax2/Pros-responsive element is critical for chordotonal organ functionality and coordinated larval locomotion.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Yael Timerman

An RNAi Screen Identifies New Genes Required for Normal Morphogenesis of Larval Chordotonal Organs

Delilah, prospero, and D-Pax2 constitute a gene regulatory network essential for the development of functional proprioceptors

Author response: Delilah, prospero, and D-Pax2 constitute a gene regulatory network essential for the development of functional proprioceptors

delilah, prosperoandD-Pax2constitute a gene regulatory network essential for the development of functional proprioceptors

Contact Info

Product

Resources

About