The Redox System in C. elegans, a Phylogenetic Approach by Andrew D. Johnston, Paul R. Ebert

“…We use protein sequences from central redox systems in Homo sapiens, Drosophila melanogaster, and Saccharomyces cerevisiae to query Genbank for homologous proteins in C. elegans. We then use maximum likelihood phylogenetic analysis to compare protein families between C. elegans and the other organisms to facilitate future research into the genetics of redox biology.…”
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Genetic Control of Programmed Cell Death in C. Elegans by H. Robert Horvitz

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The role of lin-12 notch in C. elegans anchor cell proliferation by Alex Hajnal, Ting Deng, Evelyn Lattmann

Subjects: “…lin-12 notch, c. elegans…”
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Glia detect and transiently protect against dendrite substructure disruption in C. elegans by Katherine C. Varandas, Brianna M. Hodges, Lauren Lubeck, Amelia Farinas, Yupu Liang, Yun Lu, Shai Shaham

“…We demonstrate that disruption of C. elegans sensory neuron dendrite cilia elicits acute glial responses, including increased accumulation of glia-derived extracellular matrix around cilia, changes in gene expression, and alteration of secreted protein repertoire. …”
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Gene regulatory patterning codes in early cell fate specification of the C. elegans embryo by Alison G Cole, Tamar Hashimshony, Zhuo Du, Itai Yanai

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Biophysical modeling and experimental analysis of the dynamics of C. elegans body-wall muscle cells. by Xuexing Du, Jennifer Crodelle, Victor James Barranca, Songting Li, Yunzhu Shi, Shangbang Gao, Douglas Zhou

“…This study combines experimental techniques and mathematical modeling to investigate the dynamics of C. elegans body-wall muscle cells. Specifically, by conducting voltage clamp and mutant experiments, we identify key ion channels, particularly the L-type voltage-gated calcium channel (EGL-19) and potassium channels (SHK-1, SLO-2), which are crucial for generating action potentials. …”
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A higher order PUF complex is central to regulation of C. elegans germline stem cells by Chen Qiu, Sarah L. Crittenden, Brian H. Carrick, Lucas B. Dillard, Stephany J. Costa Dos Santos, Venkata P. Dandey, Robert C. Dutcher, Elizabeth G. Viverette, Robert N. Wine, Jennifer Woodworth, Zachary T. Campbell, Marvin Wickens, Mario J. Borgnia, Judith Kimble, Traci M. Tanaka Hall

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Intergenerational transport of double-stranded RNA in C. elegans can limit heritable epigenetic changes by Nathan M Shugarts Devanapally, Aishwarya Sathya, Andrew L Yi, Winnie M Chan, Julia A Marre, Antony M Jose

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SEM-2/SoxC regulates multiple aspects of C. elegans postembryonic mesoderm development. by Marissa Baccas, Vanathi Ganesan, Amy Leung, Lucas R Pineiro, Alexandra N McKillop, Jun Liu

“…First, SEM-2 functions antagonistically with LET-381, the sole C. elegans FoxF/C forkhead transcription factor, to regulate dorsoventral patterning of the M lineage. …”
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Mutations of the Electron Transport Chain Affect Lifespan and ROS Levels in <i>C. elegans</i> by Fanni Ősz, Aamir Nazir, Krisztina Takács-Vellai, Zsolt Farkas

“…This review underscores the translational relevance of ETC research in <i>C. elegans</i>, bridging fundamental biology and therapeutic innovation.…”
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High-throughput tracking enables systematic phenotyping and drug repurposing in C. elegans disease models by Thomas J O'Brien, Ida L Barlow, Luigi Feriani, André EX Brown

“…Here, we show that high-throughput imaging and quantitative phenotyping can be conducted systematically on a panel of C. elegans disease model strains. We used CRISPR genome-editing to create 25 worm models of human Mendelian diseases and phenotyped them using a single standardised assay. …”
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Correction: Gene regulatory patterning codes in early cell fate specification of the C. elegans embryo by Alison G Cole, Tamar Hashinshony, Zhuo Du, Itai Yanai

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ATX-2, the C. elegans Ortholog of Human Ataxin-2, Regulates Centrosome Size and Microtubule Dynamics. by Michael D Stubenvoll, Jeffrey C Medley, Miranda Irwin, Mi Hye Song

“…We report a new role for ATX-2, a C. elegans ortholog of Human Ataxin-2, in regulating centrosome size and MT dynamics. …”
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Non-autonomous insulin signaling delays mitotic progression in C. elegans germline stem and progenitor cells. by Eric Cheng, Ran Lu, Abigail R Gerhold

“…Here we use in situ live-cell imaging of C. elegans germline stem and progenitor cells (GSPCs) to ask how the signaling environment influences stem and progenitor cell mitosis in vivo. …”
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Machine learning-based analysis of microfluidic device immobilized C. elegans for automated developmental toxicity testing by Andrew DuPlissis, Abhishri Medewar, Evan Hegarty, Adam Laing, Amber Shen, Sebastian Gomez, Sudip Mondal, Adela Ben-Yakar

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A distant TANGO1 family member promotes vitellogenin export from the ER in C. elegans by Jimmy H. Mo, Chao Zhai, Kwangsek Jung, Yan Li, Yonghong Yan, Meng-Qiu Dong, Ho Yi Mak

“…Here, we report the C. elegans TNGL-1 as a mediator of vitellogenin export from the ER. …”
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Response to Correspondence: Hajnal et al. ‘The role of lin-12 notch in C. elegans anchor cell proliferation’ by Michael A. Q. Martinez, David Q. Matus

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Caenorhabditis elegans in the biological activity research of tea: From “little transparent” to “big star” by Lingwei Yang, Zhonghua Liu, Ligui Xiong, Yushun Gong

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Spectral scanning and fluorescence lifetime imaging microscopy (FLIM) enable separation and characterization of C. elegans autofluorescence in the cuticle and gut by Heino J. Hulsey-Vincent, Elizabeth A. Cameron, Caroline L. Dahlberg, Domenico F. Galati

Subjects: “…c. elegans…”
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Diisooctyl phthalate (DIOP) exposure leads to cell apoptosis to HUVEC cells and toxicity to Caenorhabditis elegans through increasing the oxidative stress by Siyuan Luo, Junnan Li, Yuqing Zhou, Zihang Zhai, Qiang Li, Zhenglin Huang, Wencan He, Kejun Zhong, Bo Kong, Zanxian Xia, Hang Fai Kwok, Lipeng Zhu

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