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===Array Team===

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With global target analyses, which were performed in collaboration with the iGEM Groningen Team, we were interested in identifying novel c-di-AMP regulatory elements that control gene expression in ''Bacillus subtilis''.

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~~ The genome of~~ the ~~Gram~~-~~positive model bacterium ~~Bacillus subtilis~~ contains the disA, cdaA, and cdaS genes encoding the three enzymatically active adenylate cyclases DisA, CdaA, and CdaS (Mehne et al. 2013)~~. ~~At least one of the three enzymes is needed~~ for ~~growth of the bacteria. By using the microarray technique we would like to analyze how many~~ genes ~~are regulated~~ by c-di-AMP ~~in B~~. ~~subtilis. We are not only interested in~~ the ~~impact~~ of c-di-AMP ~~on the transcriptome~~, we also ~~hope~~ to ~~identify novel regulatory elements (i.e. riboswitches)~~ and ~~also transcription factors that bind~~ to the ~~essential~~ signaling ~~molecule~~. ~~In our experiments we use three different B~~. ~~subtilis<~~/~~i> strains~~. ~~The wild~~-~~type strain contains all three diadenylate cyclases~~. ~~The second strain~~ is ~~a disA mutant strain lacking DisA~~, ~~a protein that was shown to be involved~~ in ~~DNA metabolism (Witte et al. 2008). This strain should produce less~~ c-di-AMP ~~than~~ the ~~isogenic parent~~ strain. The ~~third strain synthesizes~~ a ~~hyperactive CdaS mutant variant~~, which ~~produces a lot of~~ c-di-AMP ~~(Mehne et al~~.~~ 2013)~~. ~~In our microarray experiments~~ we will ~~compare~~ the ~~transcriptomes of each mutant strain with that~~ of the ~~wild~~-~~type strain~~. ~~Moreover~~, we ~~want to generate a triple knock~~-~~out mutant~~ (~~ΔdisA, ΔcdaA, ΔcdaS~~) ~~lacking all diadenylate cyclases~~. ~~We try~~ to ~~construct this mutant strain by feeding~~ the ~~cells~~ with ~~exogenous~~ c-di-AMP that is ~~commercially available~~. ~~~~

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~~</html>~~

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Our goal was to look for genes, whose expression level is affected by the level of c-di-AMP. Therefore we compared the wildtypewith a hyperactive strain of'' Bacillus'', which produces more c-di-AMP (Fig. 1).

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By doing so, we are able to: first, find other compartments which also respond to c-di-AMP and therefore can be used to construct our reporter system, second we can shed light on the signaling web of c-di-AMP.

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https://static.igem.org/mediawiki/2013/a/a6/Goe-arr-fig-1.png

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''Fig.1: C-di-AMP concentrations determined via liquid chromatography-coupled tandem mass spectrometry method by our collaboration partner from the Hannover Medical School. In blue the c-di-AmP amount in low phosphate medium is shown, in red the c-di-AMP amount in high phosphate medium. We compared the wildtype and a hyperactive strain (1344) of ''Bacillus''.''

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The microarray analyses in Groningen gave us a first glimpse on all the genes, which are affected by the c-di-AMP level. We were especially interested in ''ydaO''. From a poster of another workgroup we knew that ''ydaO'' is connected to an upstream c-di-AMP sensing riboswitch. This means that in the presence of c-di-AMP the riboswitch will assemble and prohibit the expression of ''ydaO''. With no c-di-AMP the riboswitch cannot be established and ''ydaO'' will be expressed. Therefore, ''ydaO'' was a perfect candidate for us to build another reporter around it. As the microarray analyses revealed, the expression of ''ydaO'' was indeed affected by c-di-AMP levels. To further analyse these results, we did some qRT-PCR analyses back in Göttingen (Fig. 2).

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https://static.igem.org/mediawiki/2013/e/e1/Goe-arr-fig-2.png

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''Fig.2: qRT-PCR analyses of c-di-AMP affected ''ydaO'' and a of control gene. The analyses revealed that in comparison to the wild type ydaO is upregulated with low c-di-AMP levels.''

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Our qRT-PCR analyses showed that ydaO is upregulated with low c-di-AMP levels. This means that the expression ofydaOis supposedly linked to the c-di-AMP levels inside the cell.

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References

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2. Witte et al. (2008) Structural biochemistry of a bacterial checkpoint protein reveals diadenylate cyclase activity regulated by DNA recombination intermediates. Mol. Cell. 30:167-178.

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Team:Goettingen/Team/Array

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Revision as of 10:21, 1 October 2013

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Array Team

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 ===Array Team===
-<html>
+With global target analyses, which were performed in collaboration with the iGEM Groningen Team, we were interested in identifying novel c-di-AMP regulatory elements that control gene expression in ''Bacillus subtilis''.
-<p> The genome of the Gram-positive model bacterium <i>Bacillus subtilis</i> contains the <i>disA, cdaA</i>, and <i>cdaS</i> genes encoding the three enzymatically active adenylate cyclases DisA, CdaA, and CdaS (Mehne <i>et al.</i> 2013). At least one of the three enzymes is needed for growth of the bacteria. By using the microarray technique we would like to analyze how many genes are regulated by c-di-AMP in <i>B. subtilis</i>. We are not only interested in the impact of c-di-AMP on the transcriptome, we also hope to identify novel regulatory elements (i.e. riboswitches) and also transcription factors that bind to the essential signaling molecule. In our experiments we use three different <i>B. subtilis</i> strains. The wild-type strain contains all three diadenylate cyclases. The second strain is a <i>disA</i> mutant strain lacking DisA, a protein that was shown to be involved in DNA metabolism (Witte <i>et al.</i> 2008). This strain should produce less c-di-AMP than the isogenic parent strain. The third strain synthesizes a hyperactive CdaS mutant variant, which produces a lot of c-di-AMP (Mehne <i>et al.</i> 2013). In our microarray experiments we will compare the transcriptomes of each mutant strain with that of the wild-type strain. Moreover, we want to generate a triple knock-out mutant (<i>ΔdisA, ΔcdaA, ΔcdaS</i>) lacking all diadenylate cyclases. We try to construct this mutant strain by feeding the cells with exogenous c-di-AMP that is commercially available. </p>
-</html>
+Our goal was to look for genes, whose expression level is affected by the level of c-di-AMP. Therefore we compared the wildtypewith a hyperactive strain of'' Bacillus'', which produces more c-di-AMP (Fig. 1).
+By doing so, we are able to: first, find other compartments which also respond to c-di-AMP and therefore can be used to construct our reporter system, second we can shed light on the signaling web of c-di-AMP.
+https://static.igem.org/mediawiki/2013/a/a6/Goe-arr-fig-1.png
+''Fig.1: C-di-AMP concentrations determined via liquid chromatography-coupled tandem mass spectrometry method by our collaboration partner from the Hannover Medical School. In blue the c-di-AmP amount in low phosphate medium is shown, in red the c-di-AMP amount in high phosphate medium. We compared the wildtype and a hyperactive strain (1344) of ''Bacillus''.''
+The microarray analyses in Groningen gave us a first glimpse on all the genes, which are affected by the c-di-AMP level. We were especially interested in ''ydaO''. From a poster of another workgroup we knew that ''ydaO'' is connected to an upstream c-di-AMP sensing riboswitch. This means that in the presence of c-di-AMP the riboswitch will assemble and prohibit the expression of ''ydaO''. With no c-di-AMP the riboswitch cannot be established and ''ydaO'' will be expressed. Therefore, ''ydaO'' was a perfect candidate for us to build another reporter around it. As the microarray analyses revealed, the expression of ''ydaO'' was indeed affected by c-di-AMP levels. To further analyse these results, we did some qRT-PCR analyses back in Göttingen (Fig. 2).
+https://static.igem.org/mediawiki/2013/e/e1/Goe-arr-fig-2.png
+''Fig.2: qRT-PCR analyses of c-di-AMP affected ''ydaO'' and a of control gene. The analyses revealed that in comparison to the wild type ydaO is upregulated with low c-di-AMP levels.''
+Our qRT-PCR analyses showed that ydaO is upregulated with low c-di-AMP levels. This means that the expression ofydaOis supposedly linked to the c-di-AMP levels inside the cell.
 <p> <strong>References</strong></p>
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 . Witte <i>et al.</i> (2008) Structural biochemistry of a bacterial checkpoint protein reveals diadenylate cyclase activity regulated by DNA recombination intermediates. <i>Mol. Cell.</i> 30:167-178.
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