Kaleigh Powers scite author profile

Named for its assembly near exon-exon junctions during pre-mRNA splicing, the exon junction complex (EJC) regulates multiple aspects of RNA biochemistry, including export of spliced mRNAs from the nucleus and translation. Transcriptome analyses have revealed broad EJC occupancy of spliced metazoan transcripts, yet inhibition of core subunits has been linked to surprisingly specific phenotypes and a growing number of studies support gene-specific regulatory roles. Here we report results from a classroom-based RNAi screen revealing the EJC is necessary for regeneration in the planarian flatworm Schmidtea mediterranea. RNAi animals rapidly lost the stem and progenitor cells that drive formation of new tissue during both regeneration and cell turnover, but exhibited normal amputation-induced changes in gene expression in differentiated tissues. Together with previous reports that partial loss of EJC function causes stem cell defects in Drosophila and mice, our observations implicate the EJC as a conserved, posttranscriptional regulator of gene expression in stem cell lineages. This work also highlights the combined educational and scientific impacts of discovery-based research in the undergraduate biology curriculum.

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Augmented Intelligence to Identify Patients With Advanced Heart Failure in an Integrated Health System

Cheema¹,

Mutharasan²,

Sharma³

et al. 2022

JACC: Advances

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Defined diets for freshwater planarians

Abel

Powers

Gurung

et al. 2021

Preprint

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Planarian flatworms are popular invertebrate models for basic research on stem cell biology and regeneration. These animals are commonly maintained on a diet of homogenized calf liver or boiled egg yolk in the laboratory, introducing a source of uncontrolled experimental variability. Here, we report the development of defined diets, prepared entirely from standardized, commercially sourced ingredients, for the freshwater species Schmidtea mediterranea, Dugesia japonica, and Girardia dorotocephala. These food sources provide an opportunity to test the effects of specific nutritional variables on biological phenomena of interest. Defined diet consumption was not sufficient for growth and only partially induced the increase in stem cell division that normally accompanies feeding, suggesting these responses are not solely determined by caloric intake. While our defined diet formulations do not support long-term planarian maintenance, they do enable delivery of double-stranded RNA for gene knockdown in a manner that provides unique advantages in some experimental contexts. We also present a new approach for preserving tissue integrity during hydrogen peroxide bleaching of liver-fed animals. These tools will empower research on the connections between diet, metabolism, and stem cell biology in the experimentally tractable planarian system.

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Defined diets for freshwater planarians

Abel

Powers

Gurung

et al. 2021

Developmental Dynamics

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Background: Planarian flatworms are popular invertebrate models for basic research on stem cell biology and regeneration. These animals are commonly maintained on a diet of homogenized calf liver or boiled egg yolk in the laboratory, introducing a source of uncontrolled experimental variability.Results: Here, we report the development of defined diets, prepared entirely from standardized, commercially sourced ingredients, for the freshwater species Schmidtea mediterranea, Dugesia japonica, and Girardia dorotocephala. These food sources provide an opportunity to test the effects of specific nutritional variables on biological phenomena of interest. Defined diet consumption was not sufficient for growth and only partially induced the increase in stem cell division that normally accompanies feeding, suggesting these responses are not solely determined by caloric intake. Our defined diet formulations enable delivery of double-stranded RNA for gene knockdown in a manner that provides unique advantages in some experimental contexts. We also present a new approach for preserving tissue integrity during hydrogen peroxide bleaching of liver-fed animals.Conclusions: These tools will empower research on the connections between diet, metabolism, and stem cell biology in the experimentally tractable planarian system.

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Machine Learning-Enabled Workflow To Identify Patients With Advanced Heart Failure In An Integrated Health System

Cheema

Mutharasan

Sharma

et al. 2023

Journal of Cardiac Failure

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Kaleigh Powers

The exon junction complex is required for stem and progenitor cell maintenance in planarians

Augmented Intelligence to Identify Patients With Advanced Heart Failure in an Integrated Health System

Defined diets for freshwater planarians

Defined diets for freshwater planarians

Machine Learning-Enabled Workflow To Identify Patients With Advanced Heart Failure In An Integrated Health System

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