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Sandbox ggc8

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<scene name='75/752272/Narg_active_site/2'>Active site of narG</scene> where nitrate is fixed to nitrite. The molybdenum molecule is responsible for nitrate reduction. The FS0 cluster is a potential electron transfer route for the molybdenum core.
<scene name='75/752272/Narg_active_site/2'>Active site of narG</scene> where nitrate is fixed to nitrite. The molybdenum molecule is responsible for nitrate reduction. The FS0 cluster is a potential electron transfer route for the molybdenum core.
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<scene name='75/752272/His_residue/1'>His residue</scene> where mutations can occur that prevent the FS0 cluster from binding, specifically a mutation to Serine.
+
<scene name='75/752272/His_residue/1'>His residue</scene> where mutations can occur that prevent the FS0 cluster from binding, specifically a mutation to <scene name='75/752272/3ir6_mutant/1'>Serine</scene>.
<scene name='75/752272/Ser_residue/1'>Ser residue</scene> mutations can reduce enzyme efficiency by removal of the positively charged Serine.
<scene name='75/752272/Ser_residue/1'>Ser residue</scene> mutations can reduce enzyme efficiency by removal of the positively charged Serine.

Revision as of 13:06, 1 May 2017

narG Nitrogen reductase

Caption for this structure

Drag the structure with the mouse to rotate

References

  1. doi: https://dx.doi.org/10.1007/s10533-009-9387-8
  2. doi: https://dx.doi.org/10.1007/s10533-009-9387-8
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