Structure-based mutation analysis

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Revision as of 13:53, 30 June 2011 by Greil (talk | contribs) (Mapping)

General

According to the UniProt entry about HFE_HUMAN are three 3D-structures of the HFE_HUMAN available, which are listed below. We have chosen the '1A6Z' because it has the best resolution, a very good R-Value (it measures the quality of the model obtained from the crystallographic data), a pH near the physiological optimum and is as good as complete. '1DE4' has a slightly better R-Value and pH, but this PDB also includes the transferrin receptor, which we do not need and do not want in our structure. '1C42' is only a hypothetical model, so we exclude it from further research.

stereochemistrical properties of 1a6z

All stereochemistrical properties of the structure are shown in the figure to the right<ref>Lebrón JA, Bennett MJ, Vaughn DE, Chirino AJ, Snow PM, Mintier GA, Feder JN, Bjorkman PJ.: Crystal structure of the hemochromatosis protein HFE and characterization of its interaction with transferrin receptor.</ref>.

PDB Method Resolution (Å) Chain R-Value R-Free pH
1A6Z X-ray 2.60 A/C 0.233 0.277 6.5
1C42 model - A - - -
1DE4 X-ray 2.80 A/D/G 0.231 0.265 8.0

Mapping

Because we have no annotation about the active site so we just visualized the mutations at the '1A6Z' structure. Secondly we are using the same mutations as in Task 6 and have therefore the same problemes with their visualization (only 7 of 10 visualizeable).

All mutations are scattered accross the protein with no affinity to some special region or secondary structure element.

1A6ZA with 7 of 10 visualized mutations taken from task 6

SCWRL

Energy comparison

References

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