Mutation:BRCA1

From Proteopedia

(Difference between revisions)

Sequence

⎈ mutations with manual annotation;pathogenic;benign;not yet reviewed;

wild typeShow which residues have mutations:

Revision as of 16:56, 27 June 2019

Some interesting examples:

A number of germline mutations in BRCA1 are known to substantially increase a carrier’s risk of breast and ovarian cancer. Human BRCA1 is a large protein and appears to be mostly disordered except for the N terminal RING domain and tandem BRCT domains at the C terminus. Many cancer risk mutations truncate the protein, consistent with low or absent in vivo protein levels. There are also a number of missense mutations in the structured regions. Most of these are too rare for clinical significance to have been established, and inspection of the structural context as well as analysis of sequence conservation may help distinguish those which are pathogenic from the benign ones. ^[1]

Mutations are assigned pathogenic or benign status according to the BRCA exchange (https://brcaexchange.org/) and Clinvar annotations. Six of the seven BRCA Exchange established pathogenic mutations in the RING domain act by destabilizing its three-dimensional structure. Five (C39R, H41R, C44Y, C44S and C61G) disrupt liganding to a zinc atom. The two zinc atoms are critical to the integrity of the small domain linking the two helices, so that loss of liganding is disruptive. A sixth mutation, T37K, introduces a large, positively charged residue into the interior of the zinc binding domain, causing destabilization both through over-packing and through costly desolvation of the charged epsilon amino group. The seventh mutation, L22S, lies in the interface between the RING domain and the obligatory BARD1 binding partner. That mutation introduces a buried hydroxyl group with no internal hydrogen bonds to compensate for the desolvation cost, and also creates an internal cavity approximately the size of two methyl groups, so weakening the protein-protein interaction.

Data on these pages are compiled by Yizhou Yin, Lipika Ray and John Moult, IBBR, University of Maryland. The mutation interface is built by Jaime Prilsuky and Joel Sussman (Weizmann Institute) and Angel Herraez (Universidad de Alcalá). The work is supported by NIH R01 GM120364.

References

↑ Clapperton JA, Manke IA, Lowery DM, Ho T, Haire LF, Yaffe MB, Smerdon SJ. Structure and mechanism of BRCA1 BRCT domain recognition of phosphorylated BACH1 with implications for cancer. Nat Struct Mol Biol. 2004 Jun;11(6):512-8. Epub 2004 May 9. PMID:15133502 doi:10.1038/nsmb775

Proteopedia Page Contributors and Editors (what is this?)

Jaime Prilusky, John Moult, Lipika Ray, Joel L. Sussman, Angel Herraez

Retrieved from "http://52.214.119.220/wiki/index.php/Mutation:BRCA1"

Category: Mutations

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 <ref>PMID: 15133502</ref>
-Mutations are assigned pathogenic or benign status according to the BRCA exchange (https://brcaexchange.org/)  and Clinvar annotations. Six of the seven BRCA Exchange established pathogenic mutations in the RING domain act by destabilizing its three-dimensional structure. Five (C39R, H41R, C44Y, C44S and C51G) disrupt liganding to a zinc atom. The two zinc atoms are critical to the integrity of the small domain linking the two helices, so that loss of liganding is disruptive. A sixth mutation, T37K, introduces a large, positively charged residue into the interior of the zinc binding domain, causing destabilization both through over-packing and through costly desolvation of the charged epsilon amino group. The seventh mutation, L22S, lies in the interface between the RING domain and the obligatory BARD1 binding partner. That mutation introduces a buried hydroxyl group with no internal hydrogen bonds to compensate for the desolvation cost, and also creates an internal cavity approximately the size of two methyl groups, so weakening the protein-protein interaction.
+Mutations are assigned pathogenic or benign status according to the BRCA exchange (https://brcaexchange.org/)  and Clinvar annotations. Six of the seven BRCA Exchange established pathogenic mutations in the RING domain act by destabilizing its three-dimensional structure. Five (C39R, H41R, C44Y, C44S and C61G) disrupt liganding to a zinc atom. The two zinc atoms are critical to the integrity of the small domain linking the two helices, so that loss of liganding is disruptive. A sixth mutation, T37K, introduces a large, positively charged residue into the interior of the zinc binding domain, causing destabilization both through over-packing and through costly desolvation of the charged epsilon amino group. The seventh mutation, L22S, lies in the interface between the RING domain and the obligatory BARD1 binding partner. That mutation introduces a buried hydroxyl group with no internal hydrogen bonds to compensate for the desolvation cost, and also creates an internal cavity approximately the size of two methyl groups, so weakening the protein-protein interaction.
 Data on these pages are compiled by Yizhou Yin, Lipika Ray and John Moult, IBBR, University of Maryland. The mutation interface is built by Jaime Prilsuky and Joel Sussman (Weizmann Institute) and Angel Herraez (Universidad de Alcalá). The work is supported by NIH R01 GM120364.

Mutation:BRCA1

From Proteopedia

Sequence

Revision as of 16:56, 27 June 2019

References

Proteopedia Page Contributors and Editors (what is this?)

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