Project description:The mechanistic basis for how genetic variants cause differences in phenotypic traits is often elusive. We identified a quantitative trait locus in C. 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 responsive 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. Two-channel experiment comparing mixed stage sample to mixed stage mixed 50:50 N2,CB4856 common reference

Project description:The nematode Caenorhabditis elegans feeds on microbes in its natural environment. Some of these microbes are pathogenic and thus harmful to C. elegans. To minimize resulting fitness reductions, C. elegans has evolved various defence mechanisms including behavioural responses (e.g. avoidance behaviour) that reduce contact with the infectious microbes. In this study, we characterized the genetic architecture of natural variation in C. elegans avoidance behaviour against the infectious stages of the Gram-positive bacterium Bacillus thuringiensis. We performed an analysis of quantitative trait loci (QTLs) using recombinant inbred lines (RILs) and introgression lines (ILs) generated from a cross of two genetically as well as phenotypically distinct natural isolates N2 and CB4856. The analysis identified several QTLs that underlie variation in the behavioural response to pathogenic and/or non-pathogenic bacteria. One of the candidates is the npr-1 gene. This gene encodes a homolog of the mammalian neuropeptide receptor. Npr-1 was previously indicated to fully contribute to behavioural defence against the Gram-negative bacterium Pseudomonas aeruginosa and food patch-leaving behaviour on Escherichia coli. Interestingly, in our study, npr-1 is not the only gene mediating avoidance behaviour toward Bacillus thuringiensis. Moreover, our functional analyses show that npr-1 alleles appear to influence survival and avoidance behaviour toward Bacillus thuringiensis in exactly the opposite way than toward Pseudomonas aeruginosa. Our findings highlight the role of npr-1 in fine-tuning nematode behaviour in an ecological context depending on the microbe to which C. elegans is exposed. These opposite phenotypes reflect the diversity in innate immunity to pathogens. To understand the mechanism involved in these opposite phenotypes, we carried out a whole-genome transcriptomics study by RNA-Sequencing. This study includes two pathogens: Pseudomonas aeruginosa PA14 and Bacillus thuringiensis B-18247 (BT247), two strains: N2 and npr-1 (ur89), two time points (12 and 24h) and standard lab food E. coli OP50 as control. mRNA profiles of wild type (WT) and npr-1 (ur89) C.elegans exposed to either Bacillus thuringiensis B-18247, Pseudomonas aeruginosa PA14 or standard lab food E. coli OP50 at 12h or 24h were generated by deep sequencing, in double or triplicate, using Illumina HiSeq2000.

Project description:To gain molecular insights on how NPR-8 regulates C. elegans defense against pathogen infection, we used RNA sequencing to profile gene expression in npr-8(ok1439) animals relative to wild-type animals with or without P. aeruginosa infection. We found that NPR-8 suppresses the expression of genes related to cuticle structure activity including collagen genes, and lack of NPR-8-mediated suppression in npr-8(ok1439) animals contributes to their improved survival against P. aeruginosa infection.

Project description:Purpose: To uncover immune genes and pathways that are modulated by the GPCR/NPR-15 Methods: RNA was extracted from synchronized L4 stage npr-15(tm12539) and WT animals grown at 20 C using Qiagen extraction kits and following standard methods Results: RNA seq analyses shows enriched and signficant upregulated immune, neuropeptide, synaptic signaling and metabolism genes and pathways that are dependent on NPR-15 Conclusions: Our study uncovered NPR-15 to be modulator of the innate immunity in C. elegans

Project description:The nematode Caenorhabditis elegans feeds on microbes in its natural environment. Some of these microbes are pathogenic and thus harmful to C. elegans. To minimize resulting fitness reductions, C. elegans has evolved various defence mechanisms including behavioural responses (e.g. avoidance behaviour) that reduce contact with the infectious microbes. In this study, we characterized the genetic architecture of natural variation in C. elegans avoidance behaviour against the infectious stages of the Gram-positive bacterium Bacillus thuringiensis. We performed an analysis of quantitative trait loci (QTLs) using recombinant inbred lines (RILs) and introgression lines (ILs) generated from a cross of two genetically as well as phenotypically distinct natural isolates N2 and CB4856. The analysis identified several QTLs that underlie variation in the behavioural response to pathogenic and/or non-pathogenic bacteria. One of the candidates is the npr-1 gene. This gene encodes a homolog of the mammalian neuropeptide receptor. Npr-1 was previously indicated to fully contribute to behavioural defence against the Gram-negative bacterium Pseudomonas aeruginosa and food patch-leaving behaviour on Escherichia coli. Interestingly, in our study, npr-1 is not the only gene mediating avoidance behaviour toward Bacillus thuringiensis. Moreover, our functional analyses show that npr-1 alleles appear to influence survival and avoidance behaviour toward Bacillus thuringiensis in exactly the opposite way than toward Pseudomonas aeruginosa. Our findings highlight the role of npr-1 in fine-tuning nematode behaviour in an ecological context depending on the microbe to which C. elegans is exposed. These opposite phenotypes reflect the diversity in innate immunity to pathogens. To understand the mechanism involved in these opposite phenotypes, we carried out a whole-genome transcriptomics study by RNA-Sequencing. This study includes two pathogens: Pseudomonas aeruginosa PA14 and Bacillus thuringiensis B-18247 (BT247), two strains: N2 and npr-1 (ur89), two time points (12 and 24h) and standard lab food E. coli OP50 as control.

Project description:To gain molecular insights into NPR-8-dependent longevity response to temperature, we employed RNA-seq to compare gene expression in young and old wild-type and npr-8(ok1439) animals propagated at different temperatures.

Project description:Determining the different sources of heritable variation underlying quantitative traits in nature is currently at the forefront of genetic studies. To this end, molecular profiling studies in S. cerevisiae have shown that individual gene expression levels are subject to genetic control and this variation can mediate genetic differences on phenotype. Thus, determining how natural variation influences allele specific expression (ASE) and ultimately complex traits represents a useful tool to determine the mechanisms leading to yeast niche adaptation. Here, in order to test the hypothesis that allele-specific expression differences between isolates contributes to the phenotypic diversity in natural populations, we evaluated ASE levels in a grid of six F1 hybrids from the cross of four representative founder strains from major lineages. Genome-wide and across hybrids we quantified ASE for 3,320 genes. We found evidence for abundant genome-wide expression differences between alleles, with levels ranging between 27% up to 61% of the evaluated genes, depending on the cross. We observed that ASE can be explained by allele-specific differences in transcription factor binding to cis-regulatory regions and differences in strain-specific trans-activation can be detected by taking advantage of the shared trans environment of F1 hybrids. Furthermore, modules of genes under cis-regulatory variation with related function are enriched within the different genetic backgrounds, supporting the premise of intraspecies directional regulatory selection in yeast. Finally, we were able to identify two genes, GDB1 and ASN1 exhibiting high expression levels in the Wine/European strain and underlying phenotypic differences for oenological phenotypes due to polymorphisms within non-coding regions, providing direct evidence of the importance of regulatory variation in natural trait diversity.

Project description:Purpose: To uncover immune genes and pathways that are modulated by the GPCR/NPR-15 during S. aureus infection Methods: RNA was extracted from synchronized L4 stage npr-15(tm12539) and WT animals grown at 20 C and infected with S. aureus for 8 hours, followed by Qiagen extraction kits and following standard methods Results: RNA seq analyses shows enriched and signficant upregulated immune, neuropeptide, synaptic signaling and metabolism genes and pathways that are dependent on NPR-15 Conclusions: Our study uncovered NPR-15 to be modulator of the innate immunity in C. elegans under infection

Project description:Natriuretic peptide receptor-A (NPR-A) is the principal receptor for the natriuretic peptides ANP and BNP. Targeted deletion of NPR-A in mouse glomerular podocytes significantly enhances renal injury in vivo in the DOCA-salt experimental model. It was therefore hypothesized that natriuretic peptides exert a direct protective effect on glomerular barrier integrity through activation of NPR-A and modulation of gene expression patterns in podocytes. RNA-seq analysis revealed a total of 158 DEGs with 81 downregulated DEGs and 77 upregulated DEGs in Npr1 deficient podocytes. Among the downregulated genes were protein S and semaphorin 3G, which are known to have a protective effect in podocytes. Protein S was also expressed in and secreted from isolated human glomeruli. GO enrichment analysis revealed that the upregulated DEGs in NPR-A deficient podocytes were associated with cell migration and motility. In line, BNP significantly decreased podocyte outgrowth from cultured glomeruli.

Project description:RNA-seq profiling of BAG neurons in C. elegans npr-1 and npr-1 arcp-1 animals