Author: Shannon C. Brady; Stefan Zdraljevic; Karol W. Bisaga; Robyn E. Tanny; Daniel E. Cook; Daehan Lee; Ye Wang; Erik C. Andersen
Title: A nematode-specific gene underlies bleomycin-response variation in Caenorhabditis elegans Document date: 2019_3_1
ID: 75v2qt1w_24
Snippet: To test the role of natural variation in scb-1 function, we performed a reciprocal hemizygosity 622 test in control and bleomycin conditions (Figure 6, File S3) . These results matched the increase 623 in sensitivity of homozygous deletions in both parental backgrounds observed previously. The 624 hemizygous strain with the CB4856 allele of scb-1 had a bleomycin phenotype similar to the 625 heterozygous strain, whereas the hemizygous strain with .....
Document: To test the role of natural variation in scb-1 function, we performed a reciprocal hemizygosity 622 test in control and bleomycin conditions (Figure 6, File S3) . These results matched the increase 623 in sensitivity of homozygous deletions in both parental backgrounds observed previously. The 624 hemizygous strain with the CB4856 allele of scb-1 had a bleomycin phenotype similar to the 625 heterozygous strain, whereas the hemizygous strain with the N2 allele of scb-1 was more 626 sensitive to bleomycin than the heterozygous strain. Taken together, these results suggest that 627 natural variation in scb-1 function underlies the bleomycin-response difference between the N2 628 and CB4856 strains. The copyright holder for this preprint (which was not peer-reviewed) is the author/funder. It . https://doi.org/10.1101/565218 doi: bioRxiv preprint
Search related documents:
Co phrase search for related documents- bleomycin response and natural variation: 1, 2, 3
- bleomycin response and parental background: 1, 2
- bleomycin response and reciprocal hemizygosity: 1
- function natural variation and natural variation: 1, 2
- function natural variation and reciprocal hemizygosity: 1
- natural variation and reciprocal hemizygosity: 1
Co phrase search for related documents, hyperlinks ordered by date