Project description:Human Rotavirus Genome Sequencing Project for J. Craig Venter Institute (JCVI)

Project description:Coronavirus family project

Project description:Microarrays were used to determine the transcriptional profile of Y. pestis that is growing inside macrophages. J774A.1 macrophage-like cells were infected with Y. pestis KIM5 and incubated in the presence of gentamicin in tissue culture media. RNA was isolated from intracellular bacteria at various time points post infection. Control bacteria were grown for 4 hours in tissue culture medium under the same conditions without macrophages or gentamicin. The transcriptional profiles of intracellular Y. pestis at different time points were compared to those of control Y. pestis using the 70-mer oligonucleotide microarrays obtained from Pathogen Functional Genomics Resource Center/J. Craig Venter Institute (Y. pestis microarray version 2).

Project description:Pacific Biosciences sequencing of Homo sapiens John Craig Venter

Project description:Microarrays were used to determine the transcriptional profile of Y. pestis that is growing inside macrophages. J774A.1 macrophage-like cells were infected with Y. pestis KIM5 and incubated in the presence of gentamicin in tissue culture media. RNA was isolated from intracellular bacteria at various time points post infection. Control bacteria were grown for 4 hours in tissue culture medium under the same conditions without macrophages or gentamicin. The transcriptional profiles of intracellular Y. pestis at different time points were compared to those of control Y. pestis using the 70-mer oligonucleotide microarrays obtained from Pathogen Functional Genomics Resource Center/J. Craig Venter Institute (Y. pestis microarray version 2). RNA from samples of Yersinia pestis KIM5 at 3 time points in were compared to 12 Yersinia pestis in DMEM for 4 hours.

Project description:Characterization of Coronavirus genomes isolated from diverse animal hosts in the wild.

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.

Project description:Diploid genome sequence of Dr. J. Craig Venter (HuRef and HuRefprime assemblies)

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:<p>"A multimodal atlas of human brain cell types" includes sample data targeting two cell types that show species differences between mouse and human. First, it includes a detailed transcriptomic, morphological, and electrophysiological characterization of cell types in layer 1 of human middle temporal gyrus, focusing primarily on different inhibitory cell types. This project also includes gene expression data collected from nuclei in layer 5 of human fronto-insula, with a goal of identifying transcriptomic signatures of Von Economo neurons. Control samples collected as part of the same experiment are also included in the data set.</p> <p>This study was conducted as part of a collaboration between the Allen Institute for Brain Science, the University of Szeged, and the J. Craig Venter Institute. Collaborators request that publications resulting from these data cite their original publication: Transcriptomic and morphophysiological evidence for a specialized human cortical GABAergic cell type (PMID: <a href="https://www.ncbi.nlm.nih.gov/pubmed/30150662" target="_blank">30150662</a>).</p>