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102. Xenobiotic metabolism and transport in Caenorhabditis elegans

Author

Hartman, Jessica H., primary, Widmayer, Samuel J., additional, Bergemann, Christina M., additional, King, Dillon E., additional, Morton, Katherine S., additional, Romersi, Riccardo F., additional, Jameson, Laura E., additional, Leung, Maxwell C. K., additional, Andersen, Erik C., additional, Taubert, Stefan, additional, and Meyer, Joel N., additional

Published
2021
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103. Two novel loci underlie natural differences in Caenorhabditis elegans macrocyclic lactone responses

Author

Evans, Kathryn S., primary, Wit, Janneke, additional, Stevens, Lewis, additional, Hahnel, Steffen R., additional, Rodriguez, Briana, additional, Park, Grace, additional, Zamanian, Mostafa, additional, Brady, Shannon C., additional, Chao, Ellen, additional, Introcaso, Katherine, additional, Tanny, Robyn E., additional, and Andersen, Erik C., additional

Published
2021
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104. Selfing is the safest sex for Caenorhabditis tropicalis

Author

Noble, Luke M, primary, Yuen, John, additional, Stevens, Lewis, additional, Moya, Nicolas, additional, Persaud, Riaad, additional, Moscatelli, Marc, additional, Jackson, Jacqueline L, additional, Zhang, Gaotian, additional, Chitrakar, Rojin, additional, Baugh, L Ryan, additional, Braendle, Christian, additional, Andersen, Erik C, additional, Seidel, Hannah S, additional, and Rockman, Matthew V, additional

Published
2021
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107. Author response: Selfing is the safest sex for Caenorhabditis tropicalis

Author

Noble, Luke M, primary, Yuen, John, additional, Stevens, Lewis, additional, Moya, Nicolas, additional, Persaud, Riaad, additional, Moscatelli, Marc, additional, Jackson, Jacqueline L, additional, Zhang, Gaotian, additional, Chitrakar, Rojin, additional, Baugh, L Ryan, additional, Braendle, Christian, additional, Andersen, Erik C, additional, Seidel, Hannah S, additional, and Rockman, Matthew V, additional

Published
2020
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111. Selfing is the safest sex forCaenorhabditis tropicalis

Author

Noble, Luke M., primary, Yuen, John, additional, Stevens, Lewis, additional, Moya, Nicolas, additional, Persaud, Riaad, additional, Moscatelli, Marc, additional, Jackson, Jacqueline, additional, Zhang, Gaotian, additional, Chitrakar, Rojin, additional, Baugh, L. Ryan, additional, Braendle, Christian, additional, Andersen, Erik C., additional, Seidel, Hannah S., additional, and Rockman, Matthew V., additional

Published
2020
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112. Balancing selection maintains hyper-divergent haplotypes inC. elegans

Author

Lee, Daehan, primary, Zdraljevic, Stefan, additional, Stevens, Lewis, additional, Wang, Ye, additional, Tanny, Robyn E., additional, Crombie, Timothy A., additional, Cook, Daniel E., additional, Webster, Amy K., additional, Chirakar, Rojin, additional, Baugh, L. Ryan, additional, Sterken, Mark G., additional, Braendle, Christian, additional, Félix, Marie-Anne, additional, Rockman, Matthew V., additional, and Andersen, Erik C., additional

Published
2020
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119. A spontaneous complex structural variant in rcan-1 increases exploratory behavior and laboratory fitness of Caenorhabditis elegans

Author

Zhao, Yuehui, primary, Long, Lijiang, additional, Wan, Jason, additional, Biliya, Shweta, additional, Brady, Shannon C., additional, Lee, Daehan, additional, Ojemakinde, Akinade, additional, Andersen, Erik C., additional, Vannberg, Fredrik O., additional, Lu, Hang, additional, and McGrath, Patrick T., additional

Published
2020
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120. C. elegansas a model for inter-individual variation in metabolism

Author

Fox, Bennett W., Ponomarova, Olga, Lee, Yong-Uk, Zhang, Gaotian, Giese, Gabrielle E., Walker, Melissa, Roberto, Nicole M., Na, Huimin, Rodrigues, Pedro R., Curtis, Brian J., Kolodziej, Aiden R., Crombie, Timothy A., Zdraljevic, Stefan, Yilmaz, L. Safak, Andersen, Erik C., Schroeder, Frank C., and Walhout, Albertha J. M.

Abstract

Individuals can exhibit differences in metabolism that are caused by the interplay of genetic background, nutritional input, microbiota and other environmental factors1–4. It is difficult to connect differences in metabolism to genomic variation and derive underlying molecular mechanisms in humans, owing to differences in diet and lifestyle, among others. Here we use the nematode Caenorhabditis elegansas a model to study inter-individual variation in metabolism. By comparing three wild strains and the commonly used N2 laboratory strain, we find differences in the abundances of both known metabolites and those that have not to our knowledge been previously described. The latter metabolites include conjugates between 3-hydroxypropionate (3HP) and several amino acids (3HP-AAs), which are much higher in abundance in one of the wild strains. 3HP is an intermediate in the propionate shunt pathway, which is activated when flux through the canonical, vitamin-B12-dependent propionate breakdown pathway is perturbed5. We show that increased accumulation of 3HP-AAs is caused by genetic variation in HPHD-1, for which 3HP is a substrate. Our results suggest that the production of 3HP-AAs represents a ‘shunt-within-a-shunt’ pathway to accommodate a reduction-of-function allele in hphd-1. This study provides a step towards the development of metabolic network models that capture individual-specific differences of metabolism and more closely represent the diversity that is found in entire species.

Published
2022
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121. Gene duplication and evolutionary plasticity of lin-12/Notchgene function in Caenorhabditis

Author

Lyu, Haimeng, Moya, Nicolas D, Andersen, Erik C, and Chamberlin, Helen M

Abstract

Gene duplication is an important substrate for the evolution of new gene functions, but the impacts of gene duplicates on their own activities and on the developmental networks in which they act are poorly understood. Here, we use a natural experiment of lin-12/Notchgene duplication within the nematode genus Caenorhabditis, combined with characterization of loss- and gain-of-function mutations, to uncover functional distinctions between the duplicate genes in 1 species (Caenorhabditis briggsae) and their single-copy ortholog in Caenorhabditis elegans. First, using improved genomic sequence and gene model characterization, we confirm that the C. briggsaegenome includes 2 complete lin-12genes, whereas most other genes encoding proteins that participate in the LIN-12signaling pathway retain a one-to-one orthology with C. elegans. We use CRISPR-mediated genome editing to introduce alleles predicted to cause gain-of-function (gf) or loss-of-function (lf) into each C. briggsaegene and find that the gfmutations uncover functional distinctions not apparent from the lfalleles. Specifically, Cbr-lin-12.1(gf), but not Cbr-lin-12.2(gf), causes developmental defects similar to those observed in Cel-lin-12(gf). In contrast to Cel-lin-12(gf), however, the Cbr-lin-12.1(gf)alleles do not cause dominant phenotypes as compared to the wild type, and the mutant phenotype is observed only when 2 gfalleles are present. Our results demonstrate that gene duplicates can exhibit differential capacities to compensate for each other and to interfere with normal development, and uncover coincident gene duplication and evolution of developmental sensitivity to LIN-12/Notch activity.

Published
2024
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123. Species richness, distribution and genetic diversity of Caenorhabditis nematodes in a remote tropical rainforest

Author

Félix Marie-Anne, Jovelin Richard, Ferrari Céline, Han Shery, Cho Young Ran, Andersen Erik C, Cutter Asher D, and Braendle Christian

Subjects
Caenorhabditis, Species richness, Population structure, C. briggsae, Nucleotide diversity, Evolution, QH359-425
Abstract

Abstract Background In stark contrast to the wealth of detail about C. elegans developmental biology and molecular genetics, biologists lack basic data for understanding the abundance and distribution of Caenorhabditis species in natural areas that are unperturbed by human influence. Methods Here we report the analysis of dense sampling from a small, remote site in the Amazonian rain forest of the Nouragues Natural Reserve in French Guiana. Results Sampling of rotting fruits and flowers revealed proliferating populations of Caenorhabditis, with up to three different species co-occurring within a single substrate sample, indicating remarkable overlap of local microhabitats. We isolated six species, representing the highest local species richness for Caenorhabditis encountered to date, including both tropically cosmopolitan and geographically restricted species not previously isolated elsewhere. We also documented the structure of within-species molecular diversity at multiple spatial scales, focusing on 57 C. briggsae isolates from French Guiana. Two distinct genetic subgroups co-occur even within a single fruit. However, the structure of C. briggsae population genetic diversity in French Guiana does not result from strong local patterning but instead presents a microcosm of global patterns of differentiation. We further integrate our observations with new data from nearly 50 additional recently collected C. briggsae isolates from both tropical and temperate regions of the world to re-evaluate local and global patterns of intraspecific diversity, providing the most comprehensive analysis to date for C. briggsae population structure across multiple spatial scales. Conclusions The abundance and species richness of Caenorhabditis nematodes is high in a Neotropical rainforest habitat that is subject to minimal human interference. Microhabitat preferences overlap for different local species, although global distributions include both cosmopolitan and geographically restricted groups. Local samples for the cosmopolitan C. briggsae mirror its pan-tropical patterns of intraspecific polymorphism. It remains an important challenge to decipher what drives Caenorhabditis distributions and diversity within and between species.

Published
2013
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124. An escape-room inspired game for genetics review.

Author

Brady, Shannon C. and Andersen, Erik C.

Subjects
*EDUCATIONAL games, *ACTIVE learning, *ESCAPE rooms, *EDUCATIONAL outcomes, *LEARNING strategies
Abstract

Active learning strategies engage students in instruction by making them an integral part of the teaching process. Gamification is one type of active learning approach that incentivises student participation by incorporating gaming elements into the learning experience. Although gamification might be an effective strategy for the introduction of new material, adding gaming elements to a review activity can motivate students to study, help them organise material, and identify material that they should review further before an exam. Escape rooms are collaborative problem-solving challenges and aspects of escape-room experiences can be applied to active learning. Here, we describe an escape room inspired review game for an advanced genetic analysis class at Northwestern University. We provide a detailed account of each puzzle within the review game and assess the impact of the game on learning outcomes. [ABSTRACT FROM AUTHOR]

Published
2021
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125. Tightly-linked antagonistic-effect loci underlie polygenic demographic variation inC. elegans

Author

Bernstein, Max R., Zdraljevic, Stefan, Andersen, Erik C., and Rockman, Matthew V.

Subjects
0106 biological sciences, Genetics, 0303 health sciences, education.field_of_study, Linkage disequilibrium, Population, Biology, 010603 evolutionary biology, 01 natural sciences, Genome, 03 medical and health sciences, Inbred strain, Epistasis, Allele, education, Gene, X chromosome, 030304 developmental biology
Abstract

Recent work has provided strong empirical support for the classic polygenic model for trait variation. Population-based findings suggest that most regions of genome harbor variation affecting most traits. This view is hard to reconcile with the experience of researchers who define gene functions using mutagenesis, comparing mutants one at a time to the wild type. Here, we use the approach of experimental genetics to show that indeed, most genomic regions carry variants with detectable effects on complex traits. We used high-throughput phenotyping to characterize demography as a multivariate trait in growing populations ofCaenorhabditis eleganssensitized by nickel stress. We show that demography under these conditions is genetically complex in a panel of recombinant inbred lines. We then focused on a 1.4-Mb region of the X chromosome. When we compared two near isogenic lines (NILs) that differ only at this region, they were phenotypically indistinguishable. When we used additional NILs to subdivide the region into fifteen intervals, each encompassing ~0.001 of the genome, we found that eleven of intervals have significant effects. These effects are often similar in magnitude to those of genome-wide significant QTLs mapped in the recombinant inbred lines but are antagonized by the effects of variants in adjacent intervals. Contrary to the expectation of small additive effects, our findings point to large-effect variants whose effects are masked by epistasis or linkage disequilibrium between alleles of opposing effect.

Published
2018
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127. Deep sampling of Hawaiian Caenorhabditis elegans reveals high genetic diversity and admixture with global populations

Author

Crombie, Tim A, primary, Zdraljevic, Stefan, additional, Cook, Daniel E, additional, Tanny, Robyn E, additional, Brady, Shannon C, additional, Wang, Ye, additional, Evans, Kathryn S, additional, Hahnel, Steffen, additional, Lee, Daehan, additional, Rodriguez, Briana C, additional, Zhang, Gaotian, additional, van der Zwagg, Joost, additional, Kiontke, Karin, additional, and Andersen, Erik C, additional

Published
2019
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128. Author response: Deep sampling of Hawaiian Caenorhabditis elegans reveals high genetic diversity and admixture with global populations

Author

Crombie, Tim A, primary, Zdraljevic, Stefan, additional, Cook, Daniel E, additional, Tanny, Robyn E, additional, Brady, Shannon C, additional, Wang, Ye, additional, Evans, Kathryn S, additional, Hahnel, Steffen, additional, Lee, Daehan, additional, Rodriguez, Briana C, additional, Zhang, Gaotian, additional, van der Zwagg, Joost, additional, Kiontke, Karin, additional, and Andersen, Erik C, additional

Published
2019
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131. Deep sampling of HawaiianCaenorhabditis elegansreveals high genetic diversity and admixture with global populations

Author

Crombie, Timothy A., primary, Zdraljevic, Stefan, additional, Cook, Daniel E., additional, Tanny, Robyn E., additional, Brady, Shannon C., additional, Wang, Ye, additional, Evans, Kathryn S., additional, Hahnel, Steffen, additional, Lee, Daehan, additional, Rodriguez, Briana C., additional, Zhang, Gaotian, additional, van der Zwaag, Joost, additional, Kiontke, Karin C., additional, and Andersen, Erik C., additional

Published
2019
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135. Selection and gene flow shape niche-associated copy-number variation of pheromone receptor genes

Author

Lee, Daehan, primary, Zdraljevic, Stefan, additional, Cook, Daniel E., additional, Frézal, Lise, additional, Hsu, Jung-Chen, additional, Sterken, Mark G., additional, Riksen, Joost A.G., additional, Wang, John, additional, Kammenga, Jan E., additional, Braendle, Christian, additional, Félix, Marie-Anne, additional, Schroeder, Frank C., additional, and Andersen, Erik C., additional

Published
2019
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139. Natural variation in C. elegansshort tandem repeats

Author

Zhang, Gaotian, Wang, Ye, and Andersen, Erik C.

Abstract

Short tandem repeats (STRs) represent an important class of genetic variation that can contribute to phenotypic differences. Although millions of single nucleotide variants (SNVs) and short indels have been identified among wild Caenorhabditis elegansstrains, the natural diversity in STRs remains unknown. Here, we characterized the distribution of 31,991 STRs with motif lengths of 1–6 bp in the reference genome of C. elegans. Of these STRs, 27,667 harbored polymorphisms across 540 wild strains and only 9691 polymorphic STRs (pSTRs) had complete genotype data for more than 90% of the strains. Compared with the reference genome, the pSTRs showed more contraction than expansion. We found that STRs with different motif lengths were enriched in different genomic features, among which coding regions showed the lowest STR diversity and constrained STR mutations. STR diversity also showed similar genetic divergence and selection signatures among wild strains as in previous studies using SNVs. We further identified STR variation in two mutation accumulation line panels that were derived from two wild strains and found background-dependent and fitness-dependent STR mutations. We also performed the first genome-wide association analyses between natural variation in STRs and organismal phenotypic variation among wild C. elegansstrains. Overall, our results delineate the first large-scale characterization of STR variation in wild C. elegansstrains and highlight the effects of selection on STR mutations.

Published
2022
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140. Natural variation in a single amino acid underlies cellular responses to topoisomerase II poisons

Author

Zdraljevic, Stefan, Strand, Christine, Seidel, Hannah S., Cook, Daniel E., Doench, John G., and Andersen, Erik C.

Subjects
Genetics, Genome instability, medicine.medical_specialty, Methionine, biology, ved/biology, Topoisomerase, ved/biology.organism_classification_rank.species, biology.organism_classification, Glutamine, chemistry.chemical_compound, Biochemistry, chemistry, Molecular genetics, biology.protein, medicine, Model organism, Etoposide, Caenorhabditis elegans, medicine.drug
Abstract

Many medications, including chemotherapeutics, are differentially effective from one patient to the next. Understanding the causes of these population-wide differences is a critical step towards the development of personalized treatments and improvements to existing medications. Here, we investigate natural differences in sensitivity to anti-neoplastic drugs that target topoisomerase II, using the model organismCaenorhabditis elegans. We show that wild isolates ofC. elegansvary in their sensitivity to these drugs, and we use an unbiased statistical and molecular genetics approach to demonstrate that this variation is explained by a methionine-to-glutamine substitution in topoisomerase II (TOP-2). The presence of a non-polar methionine at this residue increases hydrophobic interactions between TOP-2 and the poison etoposide, as compared to a polar glutamine. We hypothesize that this stabilizing interaction results in increased genomic instability in strains that contain a methionine residue. The residue affected by this substitution is conserved from yeast to humans and is one of the few differences between the two human topoisomerase II isoforms (methionine in hTOPIIα and glutamine in hTOPIIβ). We go on to show that this substitution influences binding and cytotoxicity of etoposide and two additional topoisomerase II poisons in human cell lines. These results explain why hTOPIIα and hTOPIIβ are differentially affected by various poisons and demonstrate the utility ofC. elegansin understanding the genetics of drug responses.

Published
2017
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148. A variant in the neuropeptide receptor npr-1 is a major determinant of Caenorhabditis elegans growth and physiology.

Author

Andersen, Erik C, Andersen, Erik C, Bloom, Joshua S, Gerke, Justin P, Kruglyak, Leonid, Andersen, Erik C, Andersen, Erik C, Bloom, Joshua S, Gerke, Justin P, and Kruglyak, Leonid

Abstract

The mechanistic basis for how genetic variants cause differences in phenotypic traits is often elusive. We identified a quantitative trait locus in Caenorhabditis elegans that affects three seemingly unrelated phenotypic traits: lifetime fecundity, adult body size, and susceptibility to the human pathogen Staphyloccus aureus. We found a QTL for all three traits arises from variation in the neuropeptide receptor gene npr-1. Moreover, we found that variation in npr-1 is also responsible for differences in 247 gene expression traits. Variation in npr-1 is known to determine whether animals disperse throughout a bacterial lawn or aggregate at the edges of the lawn. We found that the allele that leads to aggregation is associated with reduced growth and reproductive output. The altered gene expression pattern caused by this allele suggests that the aggregation behavior might cause a weak starvation state, which is known to reduce growth rate and fecundity. Importantly, we show that variation in npr-1 causes each of these phenotypic differences through behavioral avoidance of ambient oxygen concentrations. These results suggest that variation in npr-1 has broad pleiotropic effects mediated by altered exposure to bacterial food.

Published
2014

149. Transposon-mediated genic rearrangements underlie variation in small RNA pathways.

Author

Gaotian Zhang, Félix, Marie-Anne, and Andersen, Erik C.

Subjects
*GENETIC engineering, *GENE expression, *SMALL interfering RNA, *NON-coding RNA, *CAENORHABDITIS elegans, *TRANSPOSONS
Abstract

Transposable elements (TEs) can alter host gene structure and expression, whereas host organisms develop mechanisms to repress TE activities. In the nematode Caenorhabditis elegans, a small interfering RNA pathway dependent on the helicase ERI-6/7 primarily silences retrotransposons and recent genes of likely viral origin. By studying gene expression variation among wild C. elegans strains, we found that structural variants and transposon remnants likely underlie expression variation in eri-6/7 and the pathway targets. We further found that multiple insertions of the DNA transposons, Polintons, reshuffled the eri-6/7 locus and induced inversion of eri-6 in some wild strains. In the inverted configuration, gene function was previously shown to be repaired by unusual trans-splicing mediated by direct repeats. We identified that these direct repeats originated from terminal inverted repeats of Polintons. Our findings highlight the role of host-transposon interactions in driving rapid host genome diversification among natural populations and shed light on evolutionary novelty in genes and splicing mechanisms. [ABSTRACT FROM AUTHOR]

Published
2024
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150. Gene duplication and evolutionary plasticity of lin-12/Notch gene function in Caenorhabditis.

Author

Lyu, Haimeng, Moya, Nicolas D, Andersen, Erik C, and Chamberlin, Helen M

Subjects
*RESEARCH funding, *CELLULAR signal transduction, *MAXIMUM likelihood statistics, *DESCRIPTIVE statistics, *GENE expression, *GENOME editing, *GENETIC mutation, *CAENORHABDITIS elegans, *MICROSCOPY, *SEQUENCE analysis, *GENOMES, *GENETICS, *ALLELES, *PHENOTYPES
Abstract

Gene duplication is an important substrate for the evolution of new gene functions, but the impacts of gene duplicates on their own activities and on the developmental networks in which they act are poorly understood. Here, we use a natural experiment of lin-12 /Notch gene duplication within the nematode genus Caenorhabditis , combined with characterization of loss- and gain-of-function mutations, to uncover functional distinctions between the duplicate genes in 1 species (Caenorhabditis briggsae) and their single-copy ortholog in Caenorhabditis elegans. First, using improved genomic sequence and gene model characterization, we confirm that the C. briggsae genome includes 2 complete lin-12 genes, whereas most other genes encoding proteins that participate in the LIN-12 signaling pathway retain a one-to-one orthology with C. elegans. We use CRISPR-mediated genome editing to introduce alleles predicted to cause gain-of-function (gf) or loss-of-function (lf) into each C. briggsae gene and find that the gf mutations uncover functional distinctions not apparent from the lf alleles. Specifically, Cbr-lin-12.1 (gf) , but not Cbr-lin-12.2 (gf) , causes developmental defects similar to those observed in Cel-lin-12 (gf). In contrast to Cel-lin-12 (gf) , however, the Cbr-lin-12.1 (gf) alleles do not cause dominant phenotypes as compared to the wild type, and the mutant phenotype is observed only when 2 gf alleles are present. Our results demonstrate that gene duplicates can exhibit differential capacities to compensate for each other and to interfere with normal development, and uncover coincident gene duplication and evolution of developmental sensitivity to LIN-12 /Notch activity. [ABSTRACT FROM AUTHOR]

Published
2024
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