Project description:Natronobacterium gregoryi SP2 Genome sequencing and assembly

Project description:Natronobacterium gregoryi DSM 3393 genome sequencing

Project description:Natronobacterium gregoryi overview

Project description:Haloarchaeal genomes

Project description:Genome-wide Analysis of Sp2 Occupancy and Expression Profiling Establish Sp2 as a Sequence-specific Transcription Factor Regulating Fundamental Cellular Processes - ChIPseq

Project description:Natronobacterium sp. overview

Project description:Natronobacterium gregoryi DSM 3393

Project description:Runella sp. SP2 Genome sequencing

Project description:BackgroundNatronobacterium gregoryi Argonaute (NgAgo) was found to reduce mRNA without generating detectable DNA double-strand breaks in a couple of endogenous genes in zebrafish, suggesting its potential as a tool for gene knockdown. However, little is known about how it interacts with nucleic acid molecules to interfere with gene expression.ResultsIn this study, we first confirmed that coinjection of NgAgo and gDNA downregulated target genes, generated gene-specific phenotypes and verified some factors (including 5' phosphorylation, GC ratio, and target positions) of gDNAs affecting gene downregulation. Therein, the sense and antisense gDNAs were equally effective, suggesting that NgAgo possibly binds to DNA. NgAgo-VP64 with gDNAs targeting promoters upregulated the target genes, further providing evidence that NgAgo interacts with genomic DNA and controls gene transcription. Finally, we explain the downregulation of NgAgo/gDNA target genes by interference with the process of gene transcription, which differs from that of morpholino oligonucleotides.ConclusionsThe present study provides conclusions that NgAgo may target genomic DNA and that target positions and the gDNA GC ratio influence its regulation efficiency.

Project description:Natronobacterium texcoconense DSM 24767 genome sequencing