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PDBsum entry 2m3c
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Structural protein
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PDB id
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2m3c
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PDB id:
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| Name: |
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Structural protein
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Title:
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Solution structure of gammam7-crystallin
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Structure:
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Crystallin, gamma m7. Chain: a. Synonym: gammam7-crystallin, uncharacterized protein. Engineered: yes
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Source:
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Danio rerio. Leopard danio,zebra danio,zebra fish. Organism_taxid: 7955. Gene: crygm7, dkey-57a22.1-001. Expressed in: escherichia coli. Expression_system_taxid: 562. Expression_system_variant: plyss.
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NMR struc:
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15 models
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Authors:
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B.Mahler,Z.Wu
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Key ref:
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B.Mahler
et al.
(2013).
Structure and dynamics of the fish eye lens protein, γM7-crystallin.
Biochemistry,
52,
3579-3587.
PubMed id:
DOI:
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Date:
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16-Jan-13
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Release date:
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28-Aug-13
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PROCHECK
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Headers
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References
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Q5XTN3
(Q5XTN3_DANRE) -
Crystallin, gamma M7 from Danio rerio
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Seq:
Struc:
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174 a.a.
174 a.a.
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Key: |
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PfamA domain |
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Secondary structure |
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CATH domain |
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DOI no:
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Biochemistry
52:3579-3587
(2013)
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PubMed id:
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Structure and dynamics of the fish eye lens protein, γM7-crystallin.
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B.Mahler,
Y.Chen,
J.Ford,
C.Thiel,
G.Wistow,
Z.Wu.
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ABSTRACT
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The vertebrate eye lens contains high concentrations of crystallins. The dense
lenses of fish are particularly abundant in a class called γM-crystallin whose
members are characterized by an unusually high methionine content and partial
loss of the four tryptophan residues conserved in all γ-crystallins from
mammals which are proposed to contribute to protection from UV-damage. Here, we
present the structure and dynamics of γM7-crystallin from zebrafish (Danio
rerio). The solution structure shares the typical two-domain, four-Greek-key
motif arrangement of other γ-crystallins, with the major difference noted in
the final loop of the N-terminal domain, spanning residues 65-72. This is likely
due to the absence of the conserved tryptophans. Many of the methionine residues
are exposed on the surface but are mostly well-ordered and frequently have
contacts with aromatic side chains. This may contribute to the specialized
surface properties of these proteins that exist under high molecular crowding in
the fish lens. NMR relaxation data show increased backbone conformational
motions in the loop regions of γM7 compared to those of mouse γS-crystallin
and show that fast internal motion of the interdomain linker in γ-crystallins
correlates with linker length. Unfolding studies monitored by tryptophan
fluorescence confirm results from mutant mouse γS-crystallin and show that
unfolding of a βγ-crystallin domain likely starts from unfolding of the
variable loop containing the more fluorescently quenched tryptophan residue,
resulting in a native-like unfolding intermediate.
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Links
