Accession | Title | Series type(s) | Organism(s) | Samples | GDS | Supplementary | Contact | Release date |
---|---|---|---|---|---|---|---|---|
Filter | Caulobacter vibrioides NA1000 | SRA Run Selector | ||||||
GSE166765 |
Plasticity in AAA+ proteases reveals substrate specificity niches
|
9 |
|
Peter Chien | Feb 12, 2022 | |||
GSE162320 |
The chaperonin GroESL supports the functions of the Z-ring regulators FtsA and FzlA
|
2 |
|
Kristina Jonas | Mar 30, 2021 | |||
GSE148652 |
The DUF1013 protein TrcR tracks with RNA polymerase to control bacterial cell cycle and protection against antibiotics (ChIP-seq dataset)
|
|
16 |
|
Patrick Viollier | Feb 03, 2021 | ||
GSE148653 |
The DUF1013 protein TrcR tracks with RNA polymerase to control bacterial cell cycle and protection against antibiotics (RNA-seq dataset)
|
4 |
|
Patrick Viollier | Feb 03, 2021 | |||
GSE153949 |
An unorthodox flagellin paralog integrates cell cycle and flagellar assembly cues for flagellin translation (Tn-seq)
|
2 |
|
Patrick H. Viollier | Oct 27, 2020 | |||
GSE134665 |
Structural and biochemical analyses of Caulobacter crescentus ParB reveal the role of its N-terminal domain in chromosome segregation
|
|
27 |
|
Tung Ba Khanh Le | Jul 22, 2020 | ||
GSE152426 |
The Lon protease links nucleotide metabolism with proteotoxic stress
|
8 | Rilee D Zeinert | Jun 14, 2020 | ||||
GSE144533 |
Polymerase occupancy (ChIP-Seq) in WT and mutants of Caulobacter crescentus NA1000
|
3 |
|
Patrick Viollier | Mar 19, 2020 | |||
GSE134017 |
Developmental switch within the bacterial cell cycle regulator CtrA
|
10 |
|
Patrick H. Viollier | Nov 25, 2019 | |||
GSE126478 |
Flagellar mutants have reduced pilus synthesis in Caulobacter crescentus
|
9 |
|
Yves V Brun | Jul 05, 2019 | |||
GSE133522 |
BR-body enrichment for RNA substrate identification.
|
4 |
|
Jared Michael Schrader | Jun 29, 2019 | |||
GSE133532 |
BR-body mutant mRNA half-life profiling.
|
16 |
|
Jared Michael Schrader | Jun 29, 2019 | |||
GSE100657 |
A bacterial chromosome structuring protein binds overtwisted DNA to stimulate type II topoisomerases and enable DNA replication
|
21 |
|
Monica S Guo | Sep 13, 2018 | |||
GSE104186 |
Identification of small RNAs expressed in Caulobacter crescentus in response to DNA damage
|
6 |
|
Konrad U. Förstner | Aug 16, 2018 | |||
GSE102372 |
An essential regulatory function of the DnaK chaperone dictates the decision between proliferation and maintenance in Caulobacter crescentus
|
7 |
|
Kristina Jonas | Dec 13, 2017 | |||
GSE85344 |
ChIP-seq data of RedN-venus from asynchronous and swarmer populations of Caulobacter crescentus NA1000
|
8 |
|
Christine Jacobs-Wagner | Aug 11, 2017 | |||
GSE87171 |
Identification of a U/Zn/Cu responsive global regulatory two-component system in Caulobacter crescentus [ChIP-seq]
|
3 |
|
Dan Park | Dec 21, 2016 | |||
GSE79880 |
Conserved local hypomethylation control during the bacterial cell cycle and by superimposed environmental cues
|
|
16 | Antonio Frandi | Nov 28, 2016 | |||
GSE85186 |
In-phase oscillation of global regulons is orchestrated by a pole-specific organizer
|
5 |
|
Johann Mignolet | Oct 24, 2016 | |||
GSE71860 |
Identification of the PhoB regulon and role of PhoU in the phosphate-starvation response of Caulobacter crescentus (ChIP-seq)
|
6 |
|
Michael Laub | Aug 06, 2016 |