Team:Cambridge-JIC/Marchantia/Promoter
From 2014.igem.org
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To start off, we hypothesised that inducible promoters would be associated with responses to environmental cues or pressures and that, given their importance, related genetic motifs would be largely conserved in the evolution of land plants. So as <em>Marchantia polymorpha</em> is an early land plant<a href="#Footnote1">[1]</a>, we thought it was likely that many homologues to its genes could still be found in later plants and that these genes could be used to find promoters. | To start off, we hypothesised that inducible promoters would be associated with responses to environmental cues or pressures and that, given their importance, related genetic motifs would be largely conserved in the evolution of land plants. So as <em>Marchantia polymorpha</em> is an early land plant<a href="#Footnote1">[1]</a>, we thought it was likely that many homologues to its genes could still be found in later plants and that these genes could be used to find promoters. | ||
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- | We | + | We reviewed research papers to create a shortlist of inducible plant promoters for which we might find homologues in the <em>marchantia</em> genome. We narrowed our search to promoters regulated under limiting supply of nutrients nitrates, sulphates, phosphates (although light variation, circadian rhythm, metabolism and development related inducers were also considered initially). For the majority of our analyses, we selected <em>Arabidopsis thaliana</em> as a model organism from which to identify target genes given the quality of genetic information that is available for the plant. However, we also used genes from the following organisms were data was available: <em>B. nigra, L. esculentum, B. napus, C. reinhardtii, G. max, N. plumbaginifolia, P. patens.</em> |
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We identified a shortlist of 27 genes that might be regulated under limiting supply of the essential nutrients nitrates, sulphates, and phosphates. | We identified a shortlist of 27 genes that might be regulated under limiting supply of the essential nutrients nitrates, sulphates, and phosphates. | ||
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- | We obtained the peptide sequences for these genes from the following online databases | + | We obtained the peptide sequences for these genes from the following online databases: <br> |
Thalemine - https://apps.araport.org/thalemine/begin.do <a href="#Footnote2">[2]</a> <br> | Thalemine - https://apps.araport.org/thalemine/begin.do <a href="#Footnote2">[2]</a> <br> | ||
GenBank - http://www.ncbi.nlm.nih.gov/genbank <a href="#Footnote3">[3]</a> <br> | GenBank - http://www.ncbi.nlm.nih.gov/genbank <a href="#Footnote3">[3]</a> <br> |
Revision as of 23:33, 17 October 2014
One of the key aims for our project is to introduce Marchantia polymorpha to iGEM with a toolset that enables future teams to develop it further and capitalise on its benefits. So given the limited knowledge about its genetic makeup at present, we have sought to find possible inducible promoters in Marchantia that could be used for parts.
Method
To start off, we hypothesised that inducible promoters would be associated with responses to environmental cues or pressures and that, given their importance, related genetic motifs would be largely conserved in the evolution of land plants. So as Marchantia polymorpha is an early land plant[1], we thought it was likely that many homologues to its genes could still be found in later plants and that these genes could be used to find promoters.
We reviewed research papers to create a shortlist of inducible plant promoters for which we might find homologues in the marchantia genome. We narrowed our search to promoters regulated under limiting supply of nutrients nitrates, sulphates, phosphates (although light variation, circadian rhythm, metabolism and development related inducers were also considered initially). For the majority of our analyses, we selected Arabidopsis thaliana as a model organism from which to identify target genes given the quality of genetic information that is available for the plant. However, we also used genes from the following organisms were data was available: B. nigra, L. esculentum, B. napus, C. reinhardtii, G. max, N. plumbaginifolia, P. patens.
We identified a shortlist of 27 genes that might be regulated under limiting supply of the essential nutrients nitrates, sulphates, and phosphates.
We obtained the peptide sequences for these genes from the following online databases:
Thalemine - https://apps.araport.org/thalemine/begin.do [2]
GenBank - http://www.ncbi.nlm.nih.gov/genbank [3]
TAIR - http://www.arabidopsis.org/ [4]
UniProt - http://www.uniprot.org/ [5]
We used ran blastx on our data to verify the validity of the predicted ORFs and to compare the sequences with the proteins present in Arabidopsis3. A list of candidate genes was compiled from the results and this list was used to calculate a frequency table of codon usage for m.polymorpha.
Example of a BLAST hit, matching an inducible nitrate transporter sequence to a Marchantia gene
We identified 30 candidate promoters this way, that we are planning to screen by inserting in a construct driving the yellow fluorescent protein Venus. For each promoter, we will make a construct with and one without amplification by GAL4 and GAL4 UAS, to evaluate the promoter strength and get around any leakages due to the use of GAL4.
References
1. Wellman CH, Osterloff PL, Mohiuddin U. 2003. Fragments of the earliest land plants. Nature 425, pp. 282-285. back to top
2. Thalemine - https://apps.araport.org/thalemine/begin.do [Accessed: July – September 2014]back to top
3. GenBank - http://www.ncbi.nlm.nih.gov/genbank [Accessed: July – September 2014]back to top
4. TAIR - http://www.arabidopsis.org/ [Accessed: July – September 2014]back to top
5. UniProt - http://www.uniprot.org/ [Accessed: July – September 2014]back to top