Topological Data Analysis of C. elegans Locomotion and Behavior by Ashleigh Thomas, Kathleen Bates, Alex Elchesen, Iryna Hartsock, Hang Lu, Peter Bubenik

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Chemical basis of microbiome preference in the nematode C. elegans by Victor Z. Chai, Tiam Farajzadeh, Yufei Meng, Sokhna B. Lo, Tymmaa A. Asaed, Charles J. Taylor, Elizabeth E. Glater

“…We approach this question in the nematode C. elegans, which feeds on bacteria and also harbors an intestinal microbiome. …”
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Semaphorin signaling restricts neuronal regeneration in C. elegans by Maria B Harreguy, Maria B Harreguy, Zainab Tanvir, Zainab Tanvir, Esha Shah, Blandine Simprevil, Blandine Simprevil, Tracy S Tran, Tracy S Tran, Gal Haspel, Gal Haspel, Gal Haspel

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C. elegans neurons have functional dendritic spines by Andrea Cuentas-Condori, Ben Mulcahy, Siwei He, Sierra Palumbos, Mei Zhen, David M Miller III

“…However, spine-like protrusions have been reported in C. elegans (Philbrook et al., 2018), suggesting that the experimental advantages of smaller model organisms could be exploited to study the biology of dendritic spines. …”
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Germline Stem and Progenitor Cell Aging in C. elegans by Theadora Tolkin, E. Jane Albert Hubbard

“…Like many animals and humans, reproduction in the nematode C. elegans declines with age. This decline is the cumulative result of age-related changes in several steps of germline function, many of which are highly accessible for experimental investigation in this short-lived model organism. …”
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Neuropeptidergic regulation of compulsive ethanol seeking in C. elegans by Chinnu Salim, Ann Ke Kan, Enkhzul Batsaikhan, E. Clare Patterson, Changhoon Jee

“…We demonstrate that the C. elegans model recapitulated the pivotal features of compulsive alcohol seeking in mammals, specifically repeated attempts, endurance, and finally aversion-resistant alcohol seeking. …”
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Inversion of pheromone preference optimizes foraging in C. elegans by Dal Bello, Martina, Pérez-Escudero, Alfonso, Schroeder, Frank C, Gore, Jeff

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The regulation of programmed and pathological cell death in C. elegans by Galvin, Brendan D. (Brendan Daniel)

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Functional analysis of the microRNA genes of C. elegans by Alvarez-Saavedra, Ezequiel (Ezequiel Andrès)

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Genetic and molecular analysis of C. elegans vulval invagination by Herman, Tory

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Large-scale transgenesis and nerve regeneration in C. elegans by Gilleland, Cody Lee

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Analysis of centriole elimination during C. elegans oogenesis. by Mikeladze-Dvali, T, von Tobel, L, Strnad, P, Knott, G, Leonhardt, H, Schermelleh, L, Gönczy, P

“…Here, we investigate this question in C. elegans. Using antibodies directed against centriolar components and serial-section electron microscopy, we establish that centrioles are eliminated during the diplotene stage of the meiotic cell cycle. …”

An enhanced C. elegans based platform for toxicity assessment by Xiong, H, Pears, C, Woollard, A

“…Strains identified in this work will also enhance the sensitivity of C. elegans based drug discovery platforms. …”

C. elegans chromosomes connect to centrosomes by anchoring into the spindle network by Stefanie Redemann, Johannes Baumgart, Norbert Lindow, Michael Shelley, Ehssan Nazockdast, Andrea Kratz, Steffen Prohaska, Jan Brugués, Sebastian Fürthauer, Thomas Müller-Reichert

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Shared behavioral mechanisms underlie C. elegans aggregation and swarming by Siyu Serena Ding, Linus J Schumacher, Avelino E Javer, Robert G Endres, André EX Brown

“…Here, we investigate collective feeding in the roundworm C. elegans at this intermediate scale, using quantitative phenotyping and agent-based modeling to identify behavioral rules underlying both aggregation and swarming—a dynamic phenotype only observed at longer timescales. …”
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Functional identification of microRNA-centered complexes in C. elegans by Shilpa Hebbar, Ganesh Panzade, Ajay A. Vashisht, James A. Wohlschlegel, Isana Veksler-Lublinsky, Anna Y. Zinovyeva

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Fasting prevents hypoxia-induced defects of proteostasis in C. elegans. by Nicole N Iranon, Bailey E Jochim, Dana L Miller

“…We have shown that specific hypoxic conditions disrupt protein homeostasis in C. elegans, leading to protein aggregation and proteotoxicity. …”
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Two Wnts Instruct Topographic Synaptic Innervation in C. elegans by Kota Mizumoto, Kang Shen

“…Little is known about whether there are additional mechanisms for precise topographic mapping of synaptic connections. Whereas the C. elegans DA8 and DA9 neurons have similar axonal trajectories, their synapses are positioned in distinct but adjacent domains in the anterior-posterior axis. …”
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Insights Into the Links Between Proteostasis and Aging From C. elegans by William Hongyu Zhang, Seda Koyuncu, David Vilchez, David Vilchez, David Vilchez

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A distributed chemosensory circuit for oxygen preference in C. elegans. by Andy J Chang, Nikolas Chronis, David S Karow, Michael A Marletta, Cornelia I Bargmann

“…The nematode Caenorhabditis elegans has complex, naturally variable behavioral responses to environmental oxygen, food, and other animals. C. elegans detects oxygen through soluble guanylate cyclase homologs (sGCs) and responds to it differently depending on the activity of the neuropeptide receptor NPR-1: npr-1(lf) and naturally isolated npr-1(215F) animals avoid high oxygen and aggregate in the presence of food; npr-1(215V) animals do not. …”
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