Soojin Ryu scite author profile

Optical control has enabled functional modulation in cell culture with unparalleled spatiotemporal resolution. However, current tools for in vivo manipulation are scarce. Here, we design and implement a genuine on–off optochemical probe capable of achieving hematopoietic control in zebrafish. Our photopharmacological approach first developed c onformationally s trained vi sible light p hotoswitches (CS-VIPs) as inhibitors of the histone methyltransferase MLL1 (KMT2A). In blood homeostasis MLL1 plays a crucial yet controversial role. CS-VIP 8 optimally fulfils the requirements of a true bistable functional system in vivo under visible-light irradiation, and with unprecedented stability. These properties are exemplified via hematopoiesis photoinhibition with a single isomer in zebrafish. The present interdisciplinary study uncovers the mechanism of action of CS-VIPs. Upon WDR5 binding, CS-VIP 8 causes MLL1 release with concomitant allosteric rearrangements in the WDR5/RbBP5 interface. Since our tool provides on-demand reversible control without genetic intervention or continuous irradiation, it will foster hematopathology and epigenetic investigations. Furthermore, our workflow will enable exquisite photocontrol over other targets inhibited by macrocycles.

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Molecular neuroanatomy and chemoarchitecture of the neurosecretory preoptic‐hypothalamic area in zebrafish larvae

Herget¹,

Wolf²,

Wullimann³

et al. 2014

J of Comparative Neurology

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The original article, (Molecular Neuroanatomy and Chemoarchitecture of the Neurosecretory Preoptic-Hypothalamic Area in Zebrafish Larvae.) published in 522:1542-1564, appeared in print and in the online issue including production errors introduced by the publisher which affected formatting of tables and references. The online version of the article was revised to correct these errors on April 12, 2014. The article currently available online has correctly formatted tables and references, as approved by the authors. The publisher regrets this error.This Erratum corrects the error.

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Oxytocin receptors influence the development and maintenance of social behavior in zebrafish (Danio rerio)

Gemmer

Mirkes

Anneser

et al. 2022

Sci Rep

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Zebrafish are highly social teleost fish and an excellent model to study social behavior. The neuropeptide Oxytocin is associated different social behaviors as well as disorders resulting in social impairment like autism spectrum disorder. However, how Oxytocin receptor signaling affects the development and expression kinetics of social behavior is not known. In this study we investigated the role of the two oxytocin receptors, Oxtr and Oxtrl, in the development and maintenance of social preference and shoaling behavior in 2- to 8-week-old zebrafish. Using CRISPR/Cas9 mediated oxtr and oxtrl knock-out fish, we found that the development of social preference is accelerated if one of the Oxytocin receptors is knocked-out and that the knock-out fish reach significantly higher levels of social preference. Moreover, oxtr−/− fish showed impairments in the maintenance of social preference. Social isolation prior to testing led to impaired maintenance of social preference in both wild-type and oxtr and oxtrl knock-out fish. Knocking-out either of the Oxytocin receptors also led to increased group spacing and reduced polarization in a 20-fish shoal at 8 weeks post fertilization, but not at 4. These results show that the development and maintenance of social behavior is influenced by the Oxytocin receptors and that the effects are not just pro- or antisocial, but dependent on both the age and social context of the fish.

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Soojin Ryu

Orthopedia Homeodomain Protein Is Essential for Diencephalic Dopaminergic Neuron Development

Bistable Photoswitch Allows in Vivo Control of Hematopoiesis

Molecular neuroanatomy and chemoarchitecture of the neurosecretory preoptic‐hypothalamic area in zebrafish larvae

Oxytocin receptors influence the development and maintenance of social behavior in zebrafish (Danio rerio)

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