Team:TU Munich/Project/Thaumatin

From 2012.igem.org

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(BioBricks planning)
(Background and principles)
 
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* It opens the world of brewage to a whole '''new generation of lifestyle drinks''' - perhaps a bit too innovative for the conservative german beer market, but nevertheless there is quite a potential there for cutting-edge beverages with the soul of beer and the savor of all the fruits you can imagine. Thaumatin might serve as a '''low-carb ingredient to balance out the bitter and sour flavors''' of guava, grapefruits, currant - ''or even horseradish''.
* It opens the world of brewage to a whole '''new generation of lifestyle drinks''' - perhaps a bit too innovative for the conservative german beer market, but nevertheless there is quite a potential there for cutting-edge beverages with the soul of beer and the savor of all the fruits you can imagine. Thaumatin might serve as a '''low-carb ingredient to balance out the bitter and sour flavors''' of guava, grapefruits, currant - ''or even horseradish''.
-
==Background and principles==
+
==Background and Principles==
<hr/>
<hr/>
<div>
<div>
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===Expression of Thaumatin===
===Expression of Thaumatin===
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We plan to do a western blot of the supernatant to prove proper secretion. SDS page and coomassie/silver staining have proven to be too insensitive.
+
We are planning a western blot of the supernatant to prove proper secretion. SDS page and coomassie/silver staining have proven to be too insensitive.
<div style="clear:both">
<div style="clear:both">
==== Ion exchange chromatography ====
==== Ion exchange chromatography ====
</div>
</div>
[[file:TUM12_ThaumatinIEC.png|600px|thump|right|Bildbeschreibung]]
[[file:TUM12_ThaumatinIEC.png|600px|thump|right|Bildbeschreibung]]
-
Preprothaumatin becomes posttranslationally modified by cleaving a part of the N- and the C-terminal polypeptide. Therefore it was not possible to add a tag for affinity chromatography. For this reason it was necessary to purify the protein from the cytoplasm of the disintegrated yeast cells using ion exchange chromatography to have a proof of principle.
+
Preprothaumatin will be posttranslationally modified by cleaving a part of the N- and the C-terminal polypeptide. Therefore it was not possible to add a tag for affinity chromatography. For this reason it was necessary to purify the protein from the cytoplasm of the disintegrated yeast cells using ion exchange chromatography for having a proof of principle.
'''Experimental details:'''
'''Experimental details:'''
*Samples: cell lysate, supernatant from culture, reference for thaumatin (MedHerbs)
*Samples: cell lysate, supernatant from culture, reference for thaumatin (MedHerbs)
-
*Dialysis against 20mM MES Buffer pH 6.0 (twice) using a 12-16 kDa dialysis membrane
+
*Dialysis against 20 mM MES buffer pH 6.0 (twice) using a 12-16 kDa dialysis membrane
*Chromatography with a Äkta purifier equipped with a Ressource S 6ml (S: Methyl sulfonate (strong cation exchanger))
*Chromatography with a Äkta purifier equipped with a Ressource S 6ml (S: Methyl sulfonate (strong cation exchanger))
*Sample was applied using a super-loop
*Sample was applied using a super-loop
-
*Wash with two column volumes 20mM MES Buffer pH 6.0
+
*Wash with two column volumes 20 mM MES buffer pH 6.0
-
*Elution with a gradient of 0 - 500 mM NaCl over 5 column volumes
+
*Elution with a gradient of 0-500 mM NaCl over 5 column volumes
*Fractions of 1 ml were collected during the elution<br>
*Fractions of 1 ml were collected during the elution<br>
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*Reference thaumatin (see figure A and B)
*Reference thaumatin (see figure A and B)
**nearly no protein in the flow through during sample application (see figure A)
**nearly no protein in the flow through during sample application (see figure A)
-
**a major peak eluting at ~14 mS*cm-1 which corresponds to fraction Nr. 14 see figure A)
+
**a major peak eluting at ~14 mS*cm-1 which corresponds to fraction No. 14, see figure A)
-
** The corresponding SDS-PAGE showed a clear band around fraction Nr. 14 corresponding matching the expected 22 kDa
+
**the corresponding SDS-PAGE showed a clear bond around fraction No. 14 corresponding the expected 22 kDa
*Cell lysate
*Cell lysate
**high concentration of protein in the flow through (see figure C and D)
**high concentration of protein in the flow through (see figure C and D)
-
**no clear peak around fraction 14 could be detected  
+
**no clear peak around fraction No. 14 could be detected  
-
**The SDS-PAGE performed from the reference and the fractions 12 to 15 showed a weak band at the height of the reference. This band having the same size as the reference (see running properties on SDS-PAGE in figure D) and the same isoelectric point (both eluted in fraction 14) is very likely to be thaumatin which was produced by the yeast cells.
+
**SDS-PAGE performed from the reference and the fractions No. 12 to 15 showed a weak bond having the same size as the reference (see running properties on SDS-PAGE in figure D) and the same isoelectric point (both eluted in fraction No. 14)
*Supernatant of yeast culture (see figure E and F)
*Supernatant of yeast culture (see figure E and F)
-
**Export of the protein in high concentrations was unlikely to happen, therefore 48 ml of supernatant were loaded on the column
+
**export of the protein in high concentrations was unlikely to happen, therefore 48 ml of supernatant were loaded on the column
-
**Ratio between flow through and eluted protein was less favorable compared to the cell lysate.
+
**ratio between flow through and eluted protein was less favorable compared to the cell lysate
-
**Total protein quantities were to low to be detected by Coomassie stain, therefore a silver stain was performed (see figure F)
+
**total protein quantities were to low to be detected by coomassie stain, therefore a silver stain was performed (see figure F)
-
**Beside the reference no additional protein bands could be detected on the silver stained SDS-PAGE<br>
+
**beside the reference no additional protein bonds could be detected on the silver stained SDS-PAGE<br>
<br>
<br>
<br>
<br>
-
'''Conclusion from this experiment:'''<br>  
+
'''Conclusion of this experiment:'''<br>  
<br>
<br>
-
A '''proof of principle for the expression of thaumatin was achieved using ion exchange chromotography and comparison of bands optained on an SDS-PAGE relative to a standard of thaumatin'''. <br>  
+
A '''proof of principle for the expression of thaumatin was achieved using ion exchange chromotography and comparison of bonds obtained on SDS-PAGE relatively to a standard of thaumatin'''. <br>  
-
Further goals would include to increase the expression of the thaumatin and to investigate the secretion. This could be achieved by improving the purification protocol to load more than 10 ml of cell lysate on the column in order to purify a sufficient amount of protein for a mass spectrum of the produced thaumatin.  
+
Further goals would include to increase the expression of thaumatin and to investigate the secretion. This could be achieved by improving the purification protocol to load more than 10 ml of cell lysate on the column in order to purify a sufficient amount of protein for a mass spectrum of the produced thaumatin.  
<br>
<br>
<br>
<br>
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==== Toxicity Assay ====
==== Toxicity Assay ====
-
To check if thaumatin has an effect on yeast cells , we inoculated three different yeast strains with YPD including 45 mM of thaumatin and measured their growth rate after a defined period of time. The used yeast strains were the laboratory strain INVSc1, a strain which is used for brewing beer and a strain which can be purchased in a supermarket.  
+
To check if thaumatin has an effect on yeast cells, we inoculated three different yeast strains with YPD including 45 mM of thaumatin and measured their growth rate after a defined period of time. The used yeast strains were the laboratory strain ''INVSc1'', a strain which is used for brewing beer and a strain which can be purchased in supermarkets.  
The growth rate of yeast cells which were incubated with thaumatin does not show a difference compared to the negative control (incubation of analogous strains with YPD without thaumatin). The small differences in doubling time are errors in measurement.   
The growth rate of yeast cells which were incubated with thaumatin does not show a difference compared to the negative control (incubation of analogous strains with YPD without thaumatin). The small differences in doubling time are errors in measurement.   

Latest revision as of 18:54, 26 October 2012


Contents

Thaumatin


Responsible: Martin Schappert and Alois Bräuer
"Why? O WHY???" is the reaction we usually face when we tell our friends, that we genetically engineer yeast to secrete a sweetener. "Kruzifixnochemol" is another, more cryptic one.


We must admit, even we do not think that a "Münchner Hell" or a "Pils" would benefit from the distinct sweetness of Thaumatin, originally produced by Thaumatococcus daniellii.
So, why, o why have we chosen Thaumatin? There are a variety of arguments that have to be taken into consideration:

  • Since experiments in the 1980ies, nobody tried to express Thaumatin via S. cerevisiae - so we saw the possibility to enhance the production and make it more efficient (as one of the biggest problems for industrial use of Thaumatin so far is the low yield efficiency) by codon usage optimization.
  • If you think of the beers of the Anglo-Saxon world - stouts and ales - these are the sorts that could directly profit from the licorice-like sweetness, as they are generally more full-bodied and show a variety of caramel flavors.
  • It opens the world of brewage to a whole new generation of lifestyle drinks - perhaps a bit too innovative for the conservative german beer market, but nevertheless there is quite a potential there for cutting-edge beverages with the soul of beer and the savor of all the fruits you can imagine. Thaumatin might serve as a low-carb ingredient to balance out the bitter and sour flavors of guava, grapefruits, currant - or even horseradish.

Background and Principles


TUM12 structure thaumatin.png

Thaumatin is a natural α+β-protein which is synthesized by the katamfe plant (Thaumatococcus daniellii) – a species of tropical flowering plants - and belongs to the thaumatin-like protein family. There exist different varieties of thaumatin, however, thaumatin I und thaumatin II are well characterized and differ only in one amino acid position (position 46 – without signaling sequence; thaumatin I Asn; thaumatin II Lys). Both are said to be 22000 to 100000 times sweeter than sucrose on molar basis, but the sweetness builds slow and lasts long.

Thaumatin is a single chain with 207 amino acid residues, eight disulfide bonds and a molecular weight of 22.2 kDa. It is highly water soluble, stable at heating (not for cooking, bakery, etc.) and stable under acidic conditions. The production of thaumatin is induced by an attack upon the plant by viroid pathogens. Thus it is involved in systematically acquired resistance and stress response.

Thaumatin has been approved as a sweetener in the European Union (E957).

The general idea is to create a system that expresses thaumatin via genetic engineering of Saccharomyces cerevisiae, respectively the direct precursor (preprothaumatin). The N-terminal "pre" part is the internal signalling sequence for secretion, the C-terminal "pro" sequence supports the correct and functional folding of thaumatin. Alternatively one could have used a fusion product of prothaumatin and the Mat-α-factor to achieve secretion.

The natural preprothaumatin seems to be preferable, because of the expected higher yield http://www.ncbi.nlm.nih.gov/pubmed?term=21636903 Masuda et al., 2011 and the possibility that the pre-sequence is necessary for the correct procession http://www.ncbi.nlm.nih.gov/pubmed?term=17897626 Ide et al., 2007. A similar construct was used by the Kyoto University (Ide et al., submitted) in Pichia pastoris with a pPIC6α expression vector and achieved a high yield (especially with the preprothaumatin I gene and without the α-factor secretion signal).


The molecular and physiological effects of thaumatin

The sweet taste receptor is a heterodimeric receptor composed of T1R2 (also TAS1R2) and T1R3 (also TAS1R3) subunits. The large amino-terminal domains (NTD) of the T1R2 and T1R3 subunits have shown to be responsible for the primary ligand binding http://www.ncbi.nlm.nih.gov/pubmed?term=22450161 Maîtrepierre et al., 2012. In addition these receptors have a heptahelical transmembrane domain. T1R receptors belong to the family of class C G-Protein coupled receptors (GPCRs), which in this case means that, through ligand binding, an elevation of cAMP concentration in the taste buds is induced [[http://www.ncbi.nlm.nih.gov/pubmed?term=19489607 Ide et al., 2009], [http://www.ncbi.nlm.nih.gov/pubmed?term=15087236 Ozeck et al., 2004]]. As a result a decrease in the intracellular cAMP accumulation is measured. Released calcium (Ca2+) seems to be another independent second messenger within the transduction of the taste response (downstream of taste receptors) http://www.ncbi.nlm.nih.gov/pubmed?term=16510847 Trubey et al., 2006.

However, not only sucralose or other sugars can bind with the NTDs of the sweet taste receptor, but also thaumatin http://www.ncbi.nlm.nih.gov/pubmed?term=19489607 Ide et al., 2009. It seems to have a longer lasting and stronger effect than sucralose.

Theoretical consideration: How much thaumatin is needed in foodstuff?

The molecular weight of sucrose is 342,30 g/mol, respectively 22194,13 g/mol for thaumatin. This means that although the relative sweetness of thaumatin is 2000 to 10000 times the sweetness of sucrose on a molar basis, it's only ~30 to 150 times the sweetness when measured in mass.

Thus you need to put 0,07 to 0,35 g of thaumatin into 100 ml generic soft drink to create an equal level of sweetness.

Results


BioBricks planning

The BioBricks designed encode the Prepro-Thaumatin ([http://partsregistry.org/wiki/index.php?title=Part:BBa_K801080 BBa_K801080]) that is believed to be exported on its own http://www.ncbi.nlm.nih.gov/pubmed/6327079 Edens et al., 1984. The original gene sequence was optimized for best yeast codon usage using GeneArt® GeneOptimizer®. We ordered the gene synthesis and cloned this BioBrick into pSB1C3 and our galactose inducible yeast expression vector pTUM104. Furthermore we constructed an expression cassette with TeF1-promoter and the TeF1-terminator, which is also available as a protein generator (BBa_K801081). This expression cassette was subsequently cloned into the integration vector (BBa_K300001 ) assuring expression in brewing medium.

Expression of Thaumatin

We are planning a western blot of the supernatant to prove proper secretion. SDS page and coomassie/silver staining have proven to be too insensitive.

Ion exchange chromatography

Bildbeschreibung

Preprothaumatin will be posttranslationally modified by cleaving a part of the N- and the C-terminal polypeptide. Therefore it was not possible to add a tag for affinity chromatography. For this reason it was necessary to purify the protein from the cytoplasm of the disintegrated yeast cells using ion exchange chromatography for having a proof of principle.

Experimental details:

  • Samples: cell lysate, supernatant from culture, reference for thaumatin (MedHerbs)
  • Dialysis against 20 mM MES buffer pH 6.0 (twice) using a 12-16 kDa dialysis membrane
  • Chromatography with a Äkta purifier equipped with a Ressource S 6ml (S: Methyl sulfonate (strong cation exchanger))
  • Sample was applied using a super-loop
  • Wash with two column volumes 20 mM MES buffer pH 6.0
  • Elution with a gradient of 0-500 mM NaCl over 5 column volumes
  • Fractions of 1 ml were collected during the elution

Experimental results:

  • Reference thaumatin (see figure A and B)
    • nearly no protein in the flow through during sample application (see figure A)
    • a major peak eluting at ~14 mS*cm-1 which corresponds to fraction No. 14, see figure A)
    • the corresponding SDS-PAGE showed a clear bond around fraction No. 14 corresponding the expected 22 kDa
  • Cell lysate
    • high concentration of protein in the flow through (see figure C and D)
    • no clear peak around fraction No. 14 could be detected
    • SDS-PAGE performed from the reference and the fractions No. 12 to 15 showed a weak bond having the same size as the reference (see running properties on SDS-PAGE in figure D) and the same isoelectric point (both eluted in fraction No. 14)
  • Supernatant of yeast culture (see figure E and F)
    • export of the protein in high concentrations was unlikely to happen, therefore 48 ml of supernatant were loaded on the column
    • ratio between flow through and eluted protein was less favorable compared to the cell lysate
    • total protein quantities were to low to be detected by coomassie stain, therefore a silver stain was performed (see figure F)
    • beside the reference no additional protein bonds could be detected on the silver stained SDS-PAGE



Conclusion of this experiment:

A proof of principle for the expression of thaumatin was achieved using ion exchange chromotography and comparison of bonds obtained on SDS-PAGE relatively to a standard of thaumatin.
Further goals would include to increase the expression of thaumatin and to investigate the secretion. This could be achieved by improving the purification protocol to load more than 10 ml of cell lysate on the column in order to purify a sufficient amount of protein for a mass spectrum of the produced thaumatin.

Toxicity Assay

To check if thaumatin has an effect on yeast cells, we inoculated three different yeast strains with YPD including 45 mM of thaumatin and measured their growth rate after a defined period of time. The used yeast strains were the laboratory strain INVSc1, a strain which is used for brewing beer and a strain which can be purchased in supermarkets. The growth rate of yeast cells which were incubated with thaumatin does not show a difference compared to the negative control (incubation of analogous strains with YPD without thaumatin). The small differences in doubling time are errors in measurement.

As expected, thaumatin does not have an effect on the growth rate of yeast cells. Hence we are not limited in over-expressing the sweetener in our beer.


Evaluation of the Toxicity Assay for Thaumatin.

References


Others