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The pdf-file shows simulations of a hypothetical model of sigma factor competition. It simulates the dynamics that we can expect from the experiments and prepares for the analysis of the experimental data. Analysis of sigma factor competition is based on a Lineweaver-Burk representation of RNApolymerase and competing sigma factors.
Creator: Ulf Liebal
Submitter: Ulf Liebal
B. subtilis was grown in minimal media in a chemostat at different growth rates (µ= max, µ=0.1, µ=0.4) and in the presence of 1.2M NaCl (µ=0.1) with or without glycinebetaine. Here you'll find cell titers for every sample.
Creators: Sandra Maass, Michael Kohlstedt, Claudia Korneli
Submitter: Sandra Maass
B. subtilis was grown in minimal media in a chemostat at different growth rates (µ= max, µ=0.1, µ=0.4) and in the presence of 1.2M NaCl (µ=0.1) with or without glycinebetaine. Here you'll find cell sizes for every sample.
Creators: Sandra Maass, Michael Kohlstedt, Claudia Korneli
Submitter: Sandra Maass
B. subtilis was grown in minimal media in a chemostat at growth rate µ=0.1, with 1.2M NaCl, without glycine betaine. Relative quantification for the proteome was done using metabolic labeling.
Creator: Sandra Maass
Submitter: Sandra Maass
B. subtilis was grown in minimal media in a chemostat at growth rate µ=0.1, with 1.2M NaCl and glycine betaine. Relative quantification for the proteome was done using metabolic labeling.
Creator: Sandra Maass
Submitter: Sandra Maass
batch fermatation - The transition from growing to non-growing Bacillus subtilis cells
Creator: Sandra Maass
Submitter: The JERM Harvester
Creator: Praveen kumar Sappa
Submitter: The JERM Harvester
Array hybridisation was done at Roche Nimblegen Inc. It cannot be displayed over here.
Creator: Praveen kumar Sappa
Submitter: Praveen kumar Sappa
batch fermatation - The transition from growing to non-growing Bacillus subtilis cells
Creator: Sandra Maass
Submitter: Sandra Maass
Creator: Praveen kumar Sappa
Submitter: Praveen kumar Sappa
BCN-RNAsample001
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample002
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample003
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample004
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample005
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample006
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample007
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample008
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample009
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample010
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample011
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample012
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample013
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample014
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample015
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample016
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample017
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample018
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample019
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample020
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample021
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample022
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample023
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample024
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample025
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample026
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample027
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample028
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample029
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample030
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample031
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample032
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample033
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample034
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample035
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
BCN-RNAsample036
Creator: Lina Patricia Barreto Parra
Submitter: The JERM Harvester
Biomass weight during glucose pulse. Glucose pulse was performed in anaerobically growing yeast Saccharomyces cerevisiae in steady state chemostat (D = 0.1 h-1) and transent concentrations of the extra- and intracellular metabolites from central carbon metabolism (e.g. glycolysis, PPP, glycerol, purines, etc) were measured.
Creator: Maksim Zakhartsev
Submitter: Maksim Zakhartsev
Creators: Theresa Kouril, Jacky Snoep
Submitter: Theresa Kouril