Team:Macquarie Australia/parts

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	<td></td><td><span style="color:#8B0000"><font size = 5><a class="three" href='http://parts.igem.org/wiki/index.php?title=Part:BBa_K1080003'><b>GUN4</b></a></font size></span>		<td></td><td><span style="color:#8B0000"><font size = 5><a class="three" href='http://parts.igem.org/wiki/index.php?title=Part:BBa_K1080003'><b>GUN4</b></a></font size></span>
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	<b>Tetrapyrrole-binding protein -</b> In Arabidopsis, GUN4 (Genomes uncoupled 4) is required for the functioning of the plastid mediated repression of nuclear transcription that is involved in controlling the levels of magnesium- protoporphyrin IX. GUN4 binds the product and substrate of Mg-chelatase, an enzyme that produces Mg-Proto, and activates Mg-chelatase. GUN4 is thought to participates in plastid-to-nucleus signaling by regulating magnesium-protoporphyrin IX synthesis or trafficking.		<b>Tetrapyrrole-binding protein -</b> In Arabidopsis, GUN4 (Genomes uncoupled 4) is required for the functioning of the plastid mediated repression of nuclear transcription that is involved in controlling the levels of magnesium- protoporphyrin IX. GUN4 binds the product and substrate of Mg-chelatase, an enzyme that produces Mg-Proto, and activates Mg-chelatase. GUN4 is thought to participates in plastid-to-nucleus signaling by regulating magnesium-protoporphyrin IX synthesis or trafficking.
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	<td></td><td><span style="color:#8B0000"><font size = 5><a class="three" href='http://parts.igem.org/wiki/index.php?title=Part:BBa_K1080006'><b>Plastocyanin</b></a></font size></span>		<td></td><td><span style="color:#8B0000"><font size = 5><a class="three" href='http://parts.igem.org/wiki/index.php?title=Part:BBa_K1080006'><b>Plastocyanin</b></a></font size></span>
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	<b>Electron transfer agent -</b> In photosynthesis, plastocyanin functions as an electron transfer agent between cytochrome f of the cytochrome b6f complex from photosystem II and P700+ from photosystem I. Cytochrome b6f complex and P700+ are both membrane-bound proteins with exposed residues on the lumen-side of the thylakoid membrane of chloroplasts. Cytochrome f acts as an electron donor while P700+ accepts electrons from reduced plastocyanin. <b>[Condense This, Stolen directly from Wikiwikiwikipedia]</b>		<b>Electron transfer agent -</b> In photosynthesis, plastocyanin functions as an electron transfer agent between cytochrome f of the cytochrome b6f complex from photosystem II and P700+ from photosystem I. Cytochrome b6f complex and P700+ are both membrane-bound proteins with exposed residues on the lumen-side of the thylakoid membrane of chloroplasts. Cytochrome f acts as an electron donor while P700+ accepts electrons from reduced plastocyanin. <b>[Condense This, Stolen directly from Wikiwikiwikipedia]</b>
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Revision as of 14:03, 26 September 2013

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Gene registry ("Sellin' It") - The 2013 Macquarie iGEM team, have designed, developed and added many new genes to the gene registry. Our intention of assisting the expansion of the gene registry, was to allow future teams the access and documentation of genes, which were previously out of reach. The multitude of new genes we have added not only allows future team to continue with similar goals of harnessing photosynthetic properties, but to allow new and novel research tasks to be performed.

Parts Submitted - Under Construction

Our Team has successfully characterized the following parts and have submitted them to the registry:

GUN4

Tetrapyrrole-binding protein - In Arabidopsis, GUN4 (Genomes uncoupled 4) is required for the functioning of the plastid mediated repression of nuclear transcription that is involved in controlling the levels of magnesium- protoporphyrin IX. GUN4 binds the product and substrate of Mg-chelatase, an enzyme that produces Mg-Proto, and activates Mg-chelatase. GUN4 is thought to participates in plastid-to-nucleus signaling by regulating magnesium-protoporphyrin IX synthesis or trafficking.

Plastocyanin

Electron transfer agent - In photosynthesis, plastocyanin functions as an electron transfer agent between cytochrome f of the cytochrome b6f complex from photosystem II and P700+ from photosystem I. Cytochrome b6f complex and P700+ are both membrane-bound proteins with exposed residues on the lumen-side of the thylakoid membrane of chloroplasts. Cytochrome f acts as an electron donor while P700+ accepts electrons from reduced plastocyanin. [Condense This, Stolen directly from Wikiwikiwikipedia]