Anti-sigma factors


In the regulation of gene expression in prokaryotes, anti-sigma factors bind to sigma factors and inhibit transcriptional activity. Anti-sigma factors have been found in a number of bacteria, including Escherichia coli and Salmonella, and in the T4 bacteriophage. Anti-sigma factors are antagonists to the sigma factors, which regulate numerous cell processes including flagellar production, stress response, transport and cellular growth. For example, anti-sigma factor 70 Rsd in E. coli is present in the stationary phase and blocks the activity of sigma factor 70 which in essence initiates gene transcription. This allows the sigma S factor to associate with RNA polymerase and direct the expression of the stationary genes. Although binding of Rsd to σ70 has been shown and numerous structural studies on Rsd have been performed, the detailed mechanism of action is still unknown.

General information

is an important protein which starts the transcription by binding with RNAP, anti-sigma factor is a protein which inhibits the activities of sigma factor affect by several mechanism such as add up anti-sigma factor between sigma or twist the anti-sigma factor around sigma.
"In bacteria, the regulation of gene expression is the basis for adaptability, morphogenesis, and cellular differentiation. From all the different regulatory layers, regulation of transcription initiation is a very important step for controlling gene expression."
Each sigma factor has an associated anti-sigma factor which regulates it. These anti-sigma factors are divided into either cytoplasmic or inner membrane bound anti-sigma factors. Cytoplasmic bound anti-sigma factors are made up of FlgM, DnaK, RssB, & HscC. Inner membrane bound anti-sigma factors are made up of FecR & RseA. Anti-sigma factors are simultaneously transcribed with their associated sigma factor. This gives rise to a negative feedback loop effect, which takes part in maintaining proper levels of both contrasting factors.
As an example of a mechanism function of Anti-Sigma factors that it usually can play an important role instead of being a sigma factors destroyers since they inhibit some cell processes and activate another depending on some researches has been done. Researchers have studied several anti-sigma factor activities in the cell such as RsrA, which is a key sensor of thiol–disulphide and a negative regulator ofσR, what means that it needs some sensitive conditions to happen. They conclude by using Thioredoxin that it is able to reduce the oxidize RsrA.

Mechanism

There are four steps to start the complex: first, the relative sigma factor appears in a particular environmental signal. Second, different transcriptional factor and sigma factor interact with their correspondent anti-sigma factor. Third, anti-sigma factor has different roles: either stay not active or activate it in specific environmental signal. Finally, since the signals disappear, anti-sigma factor inhibit the sigma factor by confinement.

Specialized anti-sigma factors

In prokaryotes, E. coli has seven different sigma factors depends on the environment condition. Each one specific anti-sigma factors, check the below table for details:
Sigma factorRelated anti-sigma factor
σ70Rsd and HscC
σ24RseA
σ28FIgM
σ32Dnak
σ38RssB
σ54EBPs
σ19FecR

As another Anti-sigma factor example is σH which regulate the somatic stress response and the morphological differentiation in S treptomyces coelicolor as the studies results. From the same study it can be concluded that every anti-sigma factor has a specific gene location to act and affect in the cell.

Anti sigma factor and E-coli

As a negative feedback interaction, anti-sigma factor in E-coli, help the cell or allow it to control the gene expression in a particular environment terms. As soon as these terms disappeared, the gene expression complete the circle.

In Bacteriophage

T4 bacteriophage uses anti-sigma factor to ruin the Escherichia coli polymerase in order that direct exclusive transcription of its own genes.
. Which means that AsiA is an essential anti-sigma factor in bacteriophage.