Project description:Mycobacterium tuberculosis transposon mutants with reduced bodipy-palmitate intake on the third day of resting bone marrow-derived macrophage infection are identified by TraSH. Discovery of genetic requirements for fatty acid assimilation by the pathogen is essential for understanding its metabolism during host infection.
Project description:RNAseq data of 2 NRAS mutant melanoma cell lines (D04, mm415), melanocytes with NRAS mutation (PHMq61), melanocytes harboring an empty vector (PHMe) and untreated melanocytes (PHM). D04 cells (samples 6-11) treated with non targeting control ASOs, or ASOs that target the lncRNA 'TRASH'
Project description:A M. tuberculosis transposon library was used to infect WT and iNOS-/- mice. Surviving mutants were recovered from spleens, genomic DNA was extracted, and labeled probes were synthesized from transposon ends. Probes from each WT mouse were hybridized with probes from a similar iNOS-/- mouse. Two-condition experiment, Growth in WT vs. iNOS-/- mice. Biological replicates: TraSH probe made from 5 wild type and 5 iNOS-/- mice after 3 weeks of infection and from 8 wild type and 8 iNOS-/- mice after 4 weeks of infection. Technical replicates: TraSH probe was synthesized twice from each mouse and dyes were swapped. One array contains probe from one iNOS-/- and one WT mouse. Each biological replicate has two arrays, representing technical replicate dye swaps from one iNOS-/- and one WT mouse.
Project description:The transposon site hybridization (TraSH) technique (Sassetti, CM et al. 2001. PNAS 98:12712-7) was utilized to identify genes important for the survival of Y. pestis within murine macrophages. A transposon library was created with ~31,500 Y. pestis KIM6+ insertion mutants. A portion of the Y. pestis transposon insertion mutant library was used to infect BMMs and the surviving bacteria (output pool) were recovered. TraSH was used to compare the output pool to a portion of the library that was not subjected to selection (input pool) in order to identify Y. pestis genes important for survival in macrophages. Each end of the transposon used for mutagenesis contains an outward-reading T7 RNA polymerase promoter. RNAs transcribed from the T7 promoters are complementary to the chromosomal DNA flanking each transposon in the library, so the RNAs can be used as “targets” to identify the approximate position of each transposon insertion in the mutant pool. Differentially labeled targets generated from the output and input pools are competitively hybridized to the 70-mer oligonucleotide microarrays obtained from Pathogen Functional Genomics Resource Center/J. Craig Venter Institute. Genes important for survival of Y. pestis in macrophages are identified by determining the ratio of the signal intensities for the output and input targets hybridizing to a given probe.
Project description:The transposon site hybridization (TraSH) technique (Sassetti, CM et al. 2001. PNAS 98:12712-7) was utilized to identify genes important for the survival of Y. pestis within murine macrophages. A transposon library was created with ~31,500 Y. pestis KIM6+ insertion mutants. A portion of the Y. pestis transposon insertion mutant library was used to infect BMMs and the surviving bacteria (output pool) were recovered. TraSH was used to compare the output pool to a portion of the library that was not subjected to selection (input pool) in order to identify Y. pestis genes important for survival in macrophages. Each end of the transposon used for mutagenesis contains an outward-reading T7 RNA polymerase promoter. RNAs transcribed from the T7 promoters are complementary to the chromosomal DNA flanking each transposon in the library, so the RNAs can be used as “targets” to identify the approximate position of each transposon insertion in the mutant pool. Differentially labeled targets generated from the output and input pools are competitively hybridized to the 70-mer oligonucleotide microarrays obtained from Pathogen Functional Genomics Resource Center/J. Craig Venter Institute. Genes important for survival of Y. pestis in macrophages are identified by determining the ratio of the signal intensities for the output and input targets hybridizing to a given probe. A transposon library was created with ~31,500 Y. pestis KIM6+ insertion mutants. A portion of the Y. pestis transposon insertion mutant library was used to infect BMMs and the surviving bacteria (output pool) were recovered. TraSH was used to compare the output pool to a portion of the library that was not subjected to selection (input pool). Each end of the transposon used for mutagenesis contains an outward-reading T7 RNA polymerase promoter. RNAs transcribed from the T7 promoters are complementary to the chromosomal DNA flanking each transposon in the library, so the RNAs was used as “targets” to identify the approximate position of each transposon insertion in the mutant pool. Differentially labeled targets generated from the output and input pools are competitively hybridized to the 70-mer oligonucleotide microarrays obtained from Pathogen Functional Genomics Resource Center/J. Craig Venter Institute. Genes important for survival of Y. pestis in macrophages are identified by determining the ratio of the signal intensities for the output and input targets hybridizing to a given probe.