Using Caenorhabditis elegans to Screen for Tissue-Specific Chaperone Interactions

10.3791/61140 ◽  
2020 ◽  
Author(s):  
Shiran Dror ◽  
Tomer D. Meidan ◽  
Ido Karady ◽  
Anat Ben-Zvi
Keyword(s):  
Caenorhabditis Elegans ◽  
Tissue Specific ◽  
Chaperone Interactions

Transfer and tissue-specific accumulation of components in embryos of Caenorhabditis elegans and dolichura: in vivo analysis with a low-cost signal

Development ◽  
1992 ◽  
Vol 114 (2) ◽  
pp. 317-330 ◽  
Author(s):  
O. Bossinger ◽  
E. Schierenberg
Keyword(s):  
Caenorhabditis Elegans ◽  
Low Cost ◽  
Free Living ◽  
Tissue Specific ◽  
C Elegans ◽  
Specific Accumulation ◽  
In Vivo Analysis

The pattern of autofluorescence in the two free-living namatodes Rhabditis dolichura and Caenorhabditis compared. In C. elegans, during later embryogenesis cells develop a typical bluish autofluorescence as illumination, while in Rh. dolichura a strong already present in the unfertilized egg. Using a new,

scholarly journals Tissue-Specific Transcription Footprinting Using RNA PoI DamID (RAPID) in Caenorhabditis elegans

Genetics ◽  
2020 ◽  
Vol 216 (4) ◽  
pp. 931-945 ◽  
Author(s):  
Georgina Gómez-Saldivar ◽  
Jaime Osuna-Luque ◽  
Jennifer I. Semple ◽  
Dominique A. Glauser ◽  
Sophie Jarriault ◽  
...  
Keyword(s):  
Caenorhabditis Elegans ◽  
Rna Polymerase ◽  
Cell Types ◽  
Neuroendocrine Cells ◽  
Cell Physiology ◽  
Specific Gene ◽  
Cell Content ◽  
Tissue Specific ◽  
C Elegans ◽  
Active Transcription

Differential gene expression across cell types underlies development and cell physiology in multicellular organisms. Caenorhabditis elegans is a powerful, extensively used model to address these biological questions. A remaining bottleneck relates to the difficulty to obtain comprehensive tissue-specific gene transcription data, since available methods are still challenging to execute and/or require large worm populations. Here, we introduce the RNA Polymerase DamID (RAPID) approach, in which the Dam methyltransferase is fused to a ubiquitous RNA polymerase subunit to create transcriptional footprints via methyl marks on the DNA of transcribed genes. To validate the method, we determined the polymerase footprints in whole animals, in sorted embryonic blastomeres and in different tissues from intact young adults by driving tissue-specific Dam fusion expression. We obtained meaningful transcriptional footprints in line with RNA-sequencing (RNA-seq) studies in whole animals or specific tissues. To challenge the sensitivity of RAPID and demonstrate its utility to determine novel tissue-specific transcriptional profiles, we determined the transcriptional footprints of the pair of XXX neuroendocrine cells, representing 0.2% of the somatic cell content of the animals. We identified 3901 candidate genes with putatively active transcription in XXX cells, including the few previously known markers for these cells. Using transcriptional reporters for a subset of new hits, we confirmed that the majority of them were expressed in XXX cells and identified novel XXX-specific markers. Taken together, our work establishes RAPID as a valid method for the determination of RNA polymerase footprints in specific tissues of C. elegans without the need for cell sorting or RNA tagging.

scholarly journals Inducible Systemic RNA Silencing in Caenorhabditis elegans

2003 ◽  
Vol 14 (7) ◽  
pp. 2972-2983 ◽  
Author(s):  
Lisa Timmons ◽  
Hiroaki Tabara ◽  
Craig C. Mello ◽  
Andrew Z. Fire
Keyword(s):  
Rna Interference ◽  
Caenorhabditis Elegans ◽  
Rna Silencing ◽  
Molecular Mechanisms ◽  
Normal Animal ◽  
Cell Types ◽  
Animal Cells ◽  
Tissue Specific ◽  
C Elegans ◽  
Systemic Rna

Introduction of double-stranded RNA (dsRNA) can elicit a gene-specific RNA interference response in a variety of organisms and cell types. In many cases, this response has a systemic character in that silencing of gene expression is observed in cells distal from the site of dsRNA delivery. The molecular mechanisms underlying the mobile nature of RNA silencing are unknown. For example, although cellular entry of dsRNA is possible, cellular exit of dsRNA from normal animal cells has not been directly observed. We provide evidence that transgenic strains of Caenorhabditis elegans transcribing dsRNA from a tissue-specific promoter do not exhibit comprehensive systemic RNA interference phenotypes. In these same animals, modifications of environmental conditions can result in more robust systemic RNA silencing. Additionally, we find that genetic mutations can influence the systemic character of RNA silencing in C. elegans and can separate mechanisms underlying systemic RNA silencing into tissue-specific components. These data suggest that trafficking of RNA silencing signals in C. elegans is regulated by specific physiological and genetic factors.

scholarly journals New strains for tissue-specific RNAi studies in Caenorhabditis elegans

2018 ◽  
Author(s):  
Jason S. Watts ◽  
Henry F. Harrison ◽  
Shizue Omi ◽  
Quentin Guenthers ◽  
James Dalelio ◽  
...  
Keyword(s):  
Fatty Acid ◽  
Caenorhabditis Elegans ◽  
Gene Function ◽  
Target Genes ◽  
Resistant Mutant ◽  
Knockout Mutant ◽  
Tissue Specific ◽  
Double Stranded Rna ◽  
C Elegans ◽  
Insight Into

AbstractRNA interference is a powerful tool for dissecting gene function. In Caenorhabditis elegans, ingestion of double stranded RNA causes strong, systemic knockdown of target genes. Further insight into gene function can be revealed by tissue-specific RNAi techniques. Currently available tissue-specific C. elegans strains rely on rescue of RNAi function in a desired tissue or cell in an otherwise RNAi deficient genetic background. We attempted to assess the contribution of specific tissues to polyunsaturated fatty acid (PUFA) synthesis using currently available tissue-specific RNAi strains. We discovered that rde-1 (ne219), a commonly used RNAi-resistant mutant strain, retains considerable RNAi capacity against RNAi directed at PUFA synthesis genes. By measuring changes in the fatty acid products of the desaturase enzymes that synthesize PUFAs, we found that the before mentioned strain, rde-1 (ne219) and the reported germline only RNAi strain, rrf-1 (pk1417) are not appropriate genetic backgrounds for tissue-specific RNAi experiments. However, the knockout mutant rde-1 (ne300) was strongly resistant to dsRNA induced RNAi, and thus is more appropriate for construction of a robust tissue-specific RNAi strains. Using newly constructed strains in the rde-1(null) background, we found considerable desaturase activity in intestinal, epidermal, and germline tissues, but not in muscle. The RNAi-specific strains reported in this study will be useful tools for C. elegans researchers studying a variety of biological processes.

scholarly journals Single-copy Knock-In Loci for Defined Gene Expression in C. elegans

2018 ◽  
Author(s):  
Carlos G Silva-Garcia ◽  
Caroline Heintz ◽  
Sneha Dutta ◽  
Nicole M Clark ◽  
Anne Lanjuin ◽  
...  
Keyword(s):  
Gene Expression ◽  
Caenorhabditis Elegans ◽  
Cdna Sequence ◽  
Single Copy ◽  
Tissue Specific ◽  
C Elegans

We have generated a single-copy knock-in loci for defined gene expression (SKI LODGE) system to insert any cDNA by CRISPR/Cas9 at defined safe harbors in the Caenorhabditis elegans genome. Utilizing a single crRNA guide, which also acts as a Co-CRISPR enrichment marker, any cDNA sequence can be introduced as a single integrated copy, regulated by different tissue-specific promoters. The SKI LODGE system provides a fast, economical and effective approach for generating single-copy non-silenced transgenes in C. elegans.

scholarly journals Transcriptome analysis of adult Caenorhabditis elegans cells reveals tissue-specific gene and isoform expression

PLoS Genetics ◽  
2018 ◽  
Vol 14 (8) ◽  
pp. e1007559 ◽  
Author(s):  
Rachel Kaletsky ◽  
Victoria Yao ◽  
April Williams ◽  
Alexi M. Runnels ◽  
Alicja Tadych ◽  
...  
Keyword(s):  
Caenorhabditis Elegans ◽  
Transcriptome Analysis ◽  
Specific Gene ◽  
Tissue Specific ◽  
Tissue Specific Gene ◽  
Isoform Expression
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