RT Journal Article
SR Electronic
T1 6S RNA supports recovery from nitrogen depletion in <em>Synechocystis</em> sp. PCC 6803
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 134676
DO 10.1101/134676
A1 Beate Heilmann
A1 Kaisa Hakkila
A1 Jens Georg
A1 Taina Tyystjärvi
A1 Wolfgang R. Hess
A1 Ilka M. Axmann
A1 Dennis Dienst
YR 2017
UL http://biorxiv.org/content/early/2017/05/09/134676.abstract
AB Background The 6S RNA is a global transcriptional riboregulator, which is exceptionally widespread among most bacterial phyla. While its role is well-characterized in some heterotrophic bacteria, we subjected a cyanobacterial homolog to functional analysis, thereby extending the scope of 6S RNA action to the special challenges of photoautotrophic lifestyles.Results Physiological characterization of a 6S RNA deletion strain (ΔssaA) demonstrates a delay in the recovery from nitrogen starvation. Significantly decelerated phycobilisome reassembly and glycogen degradation are accompanied with reduced photosynthetic activity compared to the wild type.Transcriptome profiling further revealed that predominantly genes encoding photosystem components, ATP synthase, phycobilisomes and ribosomal proteins were negatively affected in ΔssaA. In vivo pull-down studies of the RNA polymerase complex indicated a promoting effect of 6S RNA on the recruitment of the cyanobacterial housekeeping σ factor SigA, concurrently supporting dissociation of group 2 σ factors during recovery from nitrogen starvation.Conclusions This study reveals 6S RNA as an integral part of the cellular response of Synechocystis sp. PCC 6803 to changing nitrogen availability. According to these results, 6S RNA supports a rapid acclimation to changing nitrogen supply by regulating the switch from group 2 σ factors SigB, SigC and SigE to SigA- dependent transcription.