Similar studies for GEO DataSets (Select 200218793) - GEO DataSets

Select item 2002187931.

A novel RHH family transcription factor aCcr1 and its viral homologs dictate cell cycle progression in archaea

(Submitter supplied) This SuperSeries is composed of the SubSeries listed below.

Organism:: Sulfolobus islandicus

Type:: Expression profiling by high throughput sequencing; Genome binding/occupancy profiling by high throughput sequencing

Platform:: GPL32733
9 Samples

Download data: BW

Series

Accession:: GSE218793

ID:: 200218793

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Select item 2002208192.

A novel RHH family transcription factor aCcr1 and its viral homologs dictate cell cycle progression in archaea [Synchronization RNA-seq]

(Submitter supplied) Cell cycle regulation is of paramount importance for all forms of life. Here we report that a conserved and essential cell cycle-specific transcription factor (designated as aCcr1) and its viral homologs control cell division in Sulfolobales. We show that the transcription level of accr1 reaches peak during active cell division (D-phase) subsequent to the expression of CdvA, an archaea-specific cell division protein. more...

Organism:: Sulfolobus islandicus

Type:: Expression profiling by high throughput sequencing

Platform:: GPL32733
18 Samples

Download data: TXT

Series

Accession:: GSE220819

ID:: 200220819

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Select item 2002187923.

A novel RHH family transcription factor aCcr1 and its viral homologs dictate cell cycle progression in archaea [RNA-seq]

(Submitter supplied) Cell cycle regulation is of paramount importance for all forms of life. Here we report that a conserved and essential cell cycle-specific transcription factor (designated as aCcr1) and its viral homologs control cell division in Sulfolobales. We show that the transcription level of accr1 reaches peak during active cell division (D-phase) subsequent to the expression of CdvA, an archaea-specific cell division protein. more...

Organism:: Sulfolobus islandicus

Type:: Expression profiling by high throughput sequencing

Platform:: GPL32733
6 Samples

Download data: XLS

Series

Accession:: GSE218792

ID:: 200218792

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Select item 2002187904.

A novel RHH family transcription factor aCcr1 and its viral homologs dictate cell cycle progression in archaea [ChIP-seq]

(Submitter supplied) Cell cycle regulation is of paramount importance for all forms of life. Here we report that a conserved and essential cell cycle-specific transcription factor (designated as aCcr1) and its viral homologs control cell division in Sulfolobales. We show that the transcription level of accr1 reaches peak during active cell division (D-phase) subsequent to the expression of CdvA, an archaea-specific cell division protein. more...

Organism:: Sulfolobus islandicus

Type:: Genome binding/occupancy profiling by high throughput sequencing

Platform:: GPL32733
3 Samples

Download data: BW

Series

Accession:: GSE218790

ID:: 200218790

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Select item 2001480655.

CdrL ChIP-seq data for the paper "CdrS is required for cell division site placement but not elongation in hypersaline-adapted archaea"

(Submitter supplied) Precise control of the cell cycle is central to the physiology of all cells. In prior work we demonstrated that archaeal cells maintain a constant cell size; however, the regulatory mechanisms underlying the cell cycle remain unexplored in this domain of life. In this study we use genetics, functional genomics, and quantitative imaging to identify and characterize the CdrSL gene regulatory network in a model species of archaea. more...

Organism:: Halobacterium salinarum

Type:: Genome binding/occupancy profiling by high throughput sequencing

Platform:: GPL28343
16 Samples

Download data: BED, WIG

Series

Accession:: GSE148065

ID:: 200148065

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Select item 2001111876.

Transcriptome analysis of Sulfolobus islandicus E233S1 and ∆tfb3 upon NQO treatment

(Submitter supplied) Transcriptome sequencing was carried out with an Illumina HiSeq platform to investigate the differently expressed genes in wide type strain E233S1 and tfb3 gene deletion mutant ∆tfb3 with or without 2 µM NQO treatment for 6 hours.