Difference between revisions of "Part:BBa K239001:Design"

(References)
(Design Notes)
Line 8: Line 8:
 
Detect and remove possible restriction sites: XbaI, EcoRI, PstI, SpeI, AgeI, BamHI, BglII, NogMIV, NotI and XhoI. No restriction site had to be removed. Sequence starts 3 bp before the first BaeR binding site and ends 5 pb after the -10 box.
 
Detect and remove possible restriction sites: XbaI, EcoRI, PstI, SpeI, AgeI, BamHI, BglII, NogMIV, NotI and XhoI. No restriction site had to be removed. Sequence starts 3 bp before the first BaeR binding site and ends 5 pb after the -10 box.
  
 +
'''The spy gene and promoter'''
  
 +
Spy (Spheroplast protein Y) was first discovered by Hagenmaier et al. (1997) as a protein being expressed exclusively in cells being subjected to spheroplasting stress. Raffa and Ravio (2002) demonstrated that Spy is, in addition to CpxAR, also being induced by the much smaller regulon BaeSR. BaeSR and CpxAR are also sharing some stimulon related to the periplasm, Screening of spy inducing metals by Yamamoto et al. (2008) has showed that Zn2+ is the metal causing the strongest induction of the operon over longer exposure, acting via the BaeSR system. However, the copper shock induction through CpxAR seems to mediate a quicker response. Bury-Moné et al. (2009) are showing that also RcsB (Regulator of colanic acid Capsule Synthesis) could induce expression of the Spy gene.
 +
Experiments, by Yamamoto et al. (2008), in which spy promoter fragments have been exposed to purified BaeR and acetyl phosphate have revealed a promoter-distal site between -162 and -137 and a promoter-proximal site between -109 and -79. The BaeR-box TCTNCANAA is present as a direct repeat in the promoter-distal site. The promoter-proximal site includes one single copy of the BaeR-box.
 +
 +
'''CpxA-CpxR envelope stress response'''
 +
 +
The CpxA-CpxR (Conjugative Plasmid eXpression) response functions as a two-component signal transduction system.
 +
The CpxA is the system’s sensor kinase which auto-phosphorylates when proteins designated for the outer membrane or secretion (e.g. pili or curli fibers) are mounting in the periplams. The concentration of proteins can be due to problems in transport or damage to the outer membrane. (Snyder and Champess 2007)
 +
The phosphorylated CpxA  transfers its phosphate to CpxR which becomes activated as a DNA binding protein activating or increasing the transcription of more than 100 different genes. The genes activated are mostly chaperones and proteases involved in the refolding or degradation of proteins in the periplasm. DiGuiseppe and Silhavy (2003) have showed that of all the genes being induced by CpxR the operon cpxP (part of the cpx operon and involved in feedback inhibition) promoter is the strongest induced of them all.
 +
The CpxA-CpxR system also regulates the pore size in the membrane by increasing the transcription of ompC and repressing the transcription ompF with the effect that fewer toxins can get in through the smaller porin OmpC. OmpC and OmpF are the two major porin proteins in E.coli and their main function is to balance the osmotic pressure of the cell. They are otherwise regulated due to changes in the osmolarity via EnvZ and OmpR.  (Snyder and Champess 2007)
 +
Yamamoto and Ishihama (2005) have demonstrated that CpxAR is being activated as a response to external copper. 
 +
An example of an additional protein regulating the activity of CpxA is NlpE (an outer membrane lipoprotein), which increases activity following adhesion. (Bury-Moné et al., 2009)
 +
GTAAANNNNNGTAAA has been proposed as the CpxR binding site. (Wulf et al. 2002) However, an examination of a large amount of CpxR induced operons by Price and Ravio (2009) indicates that the level of consensus with the proposed sequence or its orientation seems to play a minor role when determining the strength of induction by CpxR for a particular promoter. Of larger importance seems to be the location of the binding site.
 +
 +
 +
'''BaeS-BaeR envelope stress response'''
 +
 +
The BaeSR (Bacterial Adaptative rEsponse) is another example of a two component signal transduction system and its signal pathway is the same as for CpxAR system.
 +
It was first discovered as an envelope stress signal transduction pathway in E.coli by Raffa and Ravio (2002). BaeR was discovered as an additional transcription factor of the uncharacterized Spy gene, in addition to the previously known CpxAR system. BaeSR was showed to partly share stimuli with CpxAR as the two systems both are induced by PapG overexpression, spheroplast formation and indole. Indole is regarded as a putative inducer of the BaeSR system and as such it has also been used for investigations of how the BaeSR system responds and influences gene expression. (Nishino et al., 2005)
 +
BaeSR stress induced activation in E.coli is less well characterized than the activation of the Cpx system and only 4 operons have been showed to be induced by BaeR. No negative regulation by the system has been found. BaeR is binding upstream of spy, arcD, ycaC and the mtd-bae operon. (Bury-Moné et al., 2009)
 +
Baranova and Nikaido (2002) have showed that BaeR activates transcription of yegMNOB /mdtABCD (multidrug transporters) which increases e.coli’s resistance to Novobiocin and Deoxycholate. BaeSR seem to have a conserved function in at least one more gram negative bacteria as experiments by Nishino et al. (2007) have showed that the BaeSR complex is responsible for multidrug and metal resistance in Salmonella enterica. Yamamoto et al. (2008) has identified BaeRS two component system as a fifth regulon member of the zinc-responsive stimulon (adding to previously existing Zur, ZraSR, ZntR and NhaR).
 +
Analysis of the upstream region of spy, mdtA and arcD, by Nishino et al. (2005), has led to the identification of a 18bp long binding sequence for BaeR. It is located between -156 to -54 bp before initial transcription point and reads: 5’-TTTTTCTCCATDATTGGC-3’. Where D is any nucleotide G, A or T.
 +
Experiments on the spy promoter, by Yamamoto et al. (2008), identify the sequence TCTNCANAA as the BaeR-box.
  
 
===Source===
 
===Source===

Revision as of 18:36, 21 October 2009

Spy promoter, activated by Phosporylated CpxR, BaeR and Sigma70


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]


Design Notes

Detect and remove possible restriction sites: XbaI, EcoRI, PstI, SpeI, AgeI, BamHI, BglII, NogMIV, NotI and XhoI. No restriction site had to be removed. Sequence starts 3 bp before the first BaeR binding site and ends 5 pb after the -10 box.

The spy gene and promoter

Spy (Spheroplast protein Y) was first discovered by Hagenmaier et al. (1997) as a protein being expressed exclusively in cells being subjected to spheroplasting stress. Raffa and Ravio (2002) demonstrated that Spy is, in addition to CpxAR, also being induced by the much smaller regulon BaeSR. BaeSR and CpxAR are also sharing some stimulon related to the periplasm, Screening of spy inducing metals by Yamamoto et al. (2008) has showed that Zn2+ is the metal causing the strongest induction of the operon over longer exposure, acting via the BaeSR system. However, the copper shock induction through CpxAR seems to mediate a quicker response. Bury-Moné et al. (2009) are showing that also RcsB (Regulator of colanic acid Capsule Synthesis) could induce expression of the Spy gene. Experiments, by Yamamoto et al. (2008), in which spy promoter fragments have been exposed to purified BaeR and acetyl phosphate have revealed a promoter-distal site between -162 and -137 and a promoter-proximal site between -109 and -79. The BaeR-box TCTNCANAA is present as a direct repeat in the promoter-distal site. The promoter-proximal site includes one single copy of the BaeR-box.

CpxA-CpxR envelope stress response

The CpxA-CpxR (Conjugative Plasmid eXpression) response functions as a two-component signal transduction system. The CpxA is the system’s sensor kinase which auto-phosphorylates when proteins designated for the outer membrane or secretion (e.g. pili or curli fibers) are mounting in the periplams. The concentration of proteins can be due to problems in transport or damage to the outer membrane. (Snyder and Champess 2007) The phosphorylated CpxA transfers its phosphate to CpxR which becomes activated as a DNA binding protein activating or increasing the transcription of more than 100 different genes. The genes activated are mostly chaperones and proteases involved in the refolding or degradation of proteins in the periplasm. DiGuiseppe and Silhavy (2003) have showed that of all the genes being induced by CpxR the operon cpxP (part of the cpx operon and involved in feedback inhibition) promoter is the strongest induced of them all. The CpxA-CpxR system also regulates the pore size in the membrane by increasing the transcription of ompC and repressing the transcription ompF with the effect that fewer toxins can get in through the smaller porin OmpC. OmpC and OmpF are the two major porin proteins in E.coli and their main function is to balance the osmotic pressure of the cell. They are otherwise regulated due to changes in the osmolarity via EnvZ and OmpR. (Snyder and Champess 2007) Yamamoto and Ishihama (2005) have demonstrated that CpxAR is being activated as a response to external copper. An example of an additional protein regulating the activity of CpxA is NlpE (an outer membrane lipoprotein), which increases activity following adhesion. (Bury-Moné et al., 2009) GTAAANNNNNGTAAA has been proposed as the CpxR binding site. (Wulf et al. 2002) However, an examination of a large amount of CpxR induced operons by Price and Ravio (2009) indicates that the level of consensus with the proposed sequence or its orientation seems to play a minor role when determining the strength of induction by CpxR for a particular promoter. Of larger importance seems to be the location of the binding site.


BaeS-BaeR envelope stress response

The BaeSR (Bacterial Adaptative rEsponse) is another example of a two component signal transduction system and its signal pathway is the same as for CpxAR system. It was first discovered as an envelope stress signal transduction pathway in E.coli by Raffa and Ravio (2002). BaeR was discovered as an additional transcription factor of the uncharacterized Spy gene, in addition to the previously known CpxAR system. BaeSR was showed to partly share stimuli with CpxAR as the two systems both are induced by PapG overexpression, spheroplast formation and indole. Indole is regarded as a putative inducer of the BaeSR system and as such it has also been used for investigations of how the BaeSR system responds and influences gene expression. (Nishino et al., 2005) BaeSR stress induced activation in E.coli is less well characterized than the activation of the Cpx system and only 4 operons have been showed to be induced by BaeR. No negative regulation by the system has been found. BaeR is binding upstream of spy, arcD, ycaC and the mtd-bae operon. (Bury-Moné et al., 2009) Baranova and Nikaido (2002) have showed that BaeR activates transcription of yegMNOB /mdtABCD (multidrug transporters) which increases e.coli’s resistance to Novobiocin and Deoxycholate. BaeSR seem to have a conserved function in at least one more gram negative bacteria as experiments by Nishino et al. (2007) have showed that the BaeSR complex is responsible for multidrug and metal resistance in Salmonella enterica. Yamamoto et al. (2008) has identified BaeRS two component system as a fifth regulon member of the zinc-responsive stimulon (adding to previously existing Zur, ZraSR, ZntR and NhaR). Analysis of the upstream region of spy, mdtA and arcD, by Nishino et al. (2005), has led to the identification of a 18bp long binding sequence for BaeR. It is located between -156 to -54 bp before initial transcription point and reads: 5’-TTTTTCTCCATDATTGGC-3’. Where D is any nucleotide G, A or T. Experiments on the spy promoter, by Yamamoto et al. (2008), identify the sequence TCTNCANAA as the BaeR-box.

Source

Genomic sequence from biocyc, Escherichia coli K-12. Native unmodified sequence.

References

A third envelope stress signal transduction pathway in Escherichia coli.

Robert G. Raffa and Tracy L. Raivio*. Molecular Microbiology (2002) 45(6), 1599–1611


Genome-Wide Analyses of Escherichia coli Gene Expression Responsive to the BaeSR Two-Component Regulatory System Kunihiko Nishino, Takeshi Honda, and Akihito Yamaguchi J Bacteriol. 2005 March; 187(5): 1763–1772. doi: 10.1128/JB.187.5.1763-1772.2005. PMCID: PMC1063996


The BaeSR two-component regulatory system mediates resistance to condensed tannins in Escherichia coli. Zoetendal EG, Smith AH, Sundset MA, Mackie RI. 2008 Appl Environ Microbiol. 2008 Jan;74(2):535-9. Epub 2007 Nov 26.


Global Analysis of Extracytoplasmic Stress Signaling in Escherichia coli Stéphanie Bury-Moné, Yanoura Nomane, Nancie Reymond, Romain Barbet, Eric Jacquet, Sandrine Imbeaud, Annick Jacq, and Philippe Bouloc PLoS Genet. 2009 September; 5(9): e1000651. Published online 2009 September 18. doi: 10.1371/journal.pgen.1000651. PMCID: PMC2731931


Signal Detection and Target Gene Induction by the CpxRA Two-Component System Patricia A. DiGiuseppe and Thomas J. Silhavy J Bacteriol. 2003 April; 185(8): 2432–2440. doi: 10.1128/JB.185.8.2432-2440.2003. PMCID: PMC152615

Nishino, K., T. Honda, and A. Yamaguchi. 2005. Genome-wide analyses of Escherichia coli gene expression responsive to the BaeSR two-component regulatory system. J. Bacteriol. 187:1763–1772.


Yamamoto K, Ogasawara H, Ishihama A (2008). "Involvement of multiple transcription factors for metal-induced spy gene expression in Escherichia coli." J Biotechnol 133(2):196-200. PMID: 17884222