Maya N. Evanitsky scite author profile

Summary Regeneration is a complex chain of events that restores a tissue to its original size and shape. The tissue-wide coordination of cellular dynamics needed for proper morphogenesis is challenged by the large dimensions of regenerating body parts. Feedback mechanisms in biochemical pathways can provide effective communication across great distances 1 - 5 , but how they might regulate growth during tissue regeneration is unresolved 6 , 7 . Here, we report that rhythmic traveling waves of Erk activity control the growth of bone in time and space in regenerating zebrafish scales, millimetre-sized discs of protective body armour. We find that Erk activity waves travel as expanding concentric rings, broadcast from a central source, inducing ring-like patterns of osteoblast tissue growth. Using a combination of theoretical and experimental analyses, we show that Erk activity propagates as excitable trigger waves able to traverse the entire scale in approximately two days, with the frequency of wave generation controlling the rate of scale regeneration. Furthermore, periodic induction of synchronous, tissue-wide Erk activation in place of travelling waves impairs tissue growth, indicating that wave-distributed Erk activation is key to regeneration. Our findings reveal trigger waves as a regulatory strategy to coordinate cell behaviour and instruct tissue form during regeneration.

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Mutsβ generates both expansions and contractions in a mouse model of the Fragile X-associated disorders

Zhao¹,

Kumari²,

Gupta³

et al. 2015

Hum. Mol. Genet.

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Fragile X-associated disorders are Repeat Expansion Diseases that result from expansion of a CGG/CCG-repeat in the FMR1 gene. Contractions of the repeat tract also occur, albeit at lower frequency. However, these contractions can potentially modulate disease symptoms or generate an allele with repeat numbers in the normal range. Little is known about the expansion mechanism and even less about contractions. We have previously demonstrated that the mismatch repair (MMR) protein MSH2 is required for expansions in a mouse model of these disorders. Here, we show that MSH3, the MSH2-binding partner in the MutSβ complex, is required for 98% of germ line expansions and all somatic expansions in this model. In addition, we provide evidence for two different contraction mechanisms that operate in the mouse model, a MutSβ-independent one that generates small contractions and a MutSβ-dependent one that generates larger ones. We also show that MutSβ complexes formed with the repeats have altered kinetics of ATP hydrolysis relative to complexes with bona fide MMR substrates and that MutSβ increases the stability of the CCG-hairpins at physiological temperatures. These data may have important implications for our understanding of the mechanism(s) of repeat instability and for the role of MMR proteins in this process.

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An active traveling wave of Eda/NF-kB signaling controls the timing and hexagonal pattern of skin appendages in zebrafish

Evanitsky

Talia

2023

Preprint

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Periodic patterns make up a variety of tissues, including skin appendages such as feathers and scales. Skin appendages serve important and diverse functions across vertebrates, yet the mechanisms that regulate their patterning are not fully understood. Here, we have used live imaging to investigate dynamic signals regulating the ontogeny of zebrafish scales. Scales are bony skin appendages which develop sequentially along the anterior-posterior and dorsal-ventral axes to cover the fish in a hexagonal array. We have found that scale development requires cell-cell communication and is coordinated through an active wave mechanism. Using a live transcriptional reporter, we show that a wave of Eda/NF-κB activity precedes scale initiation and is required for scale formation. Experiments decoupling the propagation of the wave from dermal placode formation and osteoblast differentiation demonstrate that the Eda/NF-kB activity wavefront times the sequential patterning of scales. Moreover, this decoupling resulted in defects in scale size and significant deviations in the hexagonal patterning of scales. Thus, our results demonstrate that a biochemical traveling wave coordinates scale initiation and proper hexagonal patterning across the fish body.

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Open Science for Ukraine: the Case for International Cooperation

Evanitsky

2022

JSPG

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The war in Ukraine and resulting destruction of research institutions have severely affected Ukrainian scientists. Almost 100,000 scientists still reside in Ukraine and require international support to continue their work. Ukrainian scientists would strongly benefit from an organized effort to support them through open science policies. As a result of the ongoing invasion, academic and research institutions in Ukraine have been physically damaged, and researchers face significant obstacles in trying to continue their work. This year, the International Science Council and an international collective of the National Academies of Sciences, Engineering, and Medicine called on the scientific community to assist Ukraine by providing free access to archives, licensed software, and databases. International scientific societies and organizations such as UNESCO can use their resources to encourage collaboration and facilitate remote access to scientific resources for Ukrainian scientists. Open science policies will be key for preserving Ukrainian science and helping rebuild in the future.

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Mitochondrial Genomes Of The Regionally Extinct Nittany Lion (Puma Concolor From Pennsylvania)

Evanitsky

George

Johnson

et al. 2017

Preprint

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Mountain lions (Puma concolor) were once endemic across the United States. The Northeastern population of mountain lions has been largely nonexistent since the early 1800s and was officially declared extinct in 2011. This regionally extinct mountain lion is Pennsylvania State University's official mascot, where it is referred to as the 'Nittany Lion'. Our goal in this study was to use recent methodological advances in ancient DNA and massively parallel sequencing to reconstruct complete mitochondrial DNA (mtDNA) genomes of multiple Nittany Lions by sampling from preserved skins. This effort is part of a broader Nittany Lion Genome project intended to involve undergraduates in ancient DNA and bioinformatics research and to engage the broader Penn State community in discussions about conservation biology and extinction. Complete mtDNA genome sequences were obtained from five individuals. When compared to previously published sequences, Nittany Lions are not more similar to each other than to individuals from the Western U.S. and Florida. Supporting previous findings, North American mountain lions overall were more closely related to each other than to those from South America and had lower genetic diversity. This result emphasizes the importance of continued conservation in the Western U.S. and Florida to prevent further regional extinctions.

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Maya N. Evanitsky

Control of osteoblast regeneration by a train of Erk activity waves

Mutsβ generates both expansions and contractions in a mouse model of the Fragile X-associated disorders

An active traveling wave of Eda/NF-kB signaling controls the timing and hexagonal pattern of skin appendages in zebrafish

Open Science for Ukraine: the Case for International Cooperation

Mitochondrial Genomes Of The Regionally Extinct Nittany Lion (Puma Concolor From Pennsylvania)

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