Annexins: from structure to function.

@article{Gerke2002AnnexinsFS,
  title={Annexins: from structure to function.},
  author={Volker Gerke and Stephen E. Moss},
  journal={Physiological reviews},
  year={2002},
  volume={82 2},
  pages={
          331-71
        }
}
Annexins are Ca2+ and phospholipid binding proteins forming an evolutionary conserved multigene family with members of the family being expressed throughout animal and plant kingdoms. Structurally, annexins are characterized by a highly alpha-helical and tightly packed protein core domain considered to represent a Ca2+-regulated membrane binding module. Many of the annexin cores have been crystallized, and their molecular structures reveal interesting features that include the architecture of… 
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Structure-function relationship in annexin A13, the founder member of the vertebrate family of annexins.
TLDR
It is shown for the first time that myristoylation of annexin A13b enables the direct binding to phosphatidylcholine, raft-like liposomes and acidic phospholipids in a calcium-independent manner, as well as confirming its essential role in the structure-function relationship of this annexin.
Atypical properties displayed by annexin A9, a novel member of the annexin family of Ca2+ and lipid binding proteins
Structural and lipid-binding characterization of human annexin A13a reveals strong differences with its long A13b isoform
Abstract Annexin A13 is the founder member of the vertebrate family of annexins, which are comprised of a tetrad of unique conserved domains responsible for calcium-dependent binding to membranes.
Annexins: Calcium Binding Proteins with Unusual Binding Sites
TLDR
In comparison to EF hand calcium-binding proteins, the affinity for calcium ions of annexins is rather low, which might be due to the large number of water molecules involved in the coordination of the calcium ions.
Structure of the ALS Mutation Target Annexin A11 Reveals a Stabilising N-Terminal Segment
TLDR
The structure and stability of AnxA11 were studied and a short stabilising segment in the N-terminal end of the folded core was identified, which links domains I and IV, which are likely conserved in most annexins.
Structure of the ALS Mutation Target Annexin A11 Reveals a Stabilising N-Terminal Segment
TLDR
The structure and stability of AnxA11 was studied and a short stabilising segment in the N-terminal end of the folded core, which links domains I and IV was identified, indicating central roles in annexin folding.
Structural and functional characterization of recombinant mouse annexin A11: influence of calcium binding.
TLDR
This protein induces vesicle aggregation but requires non-physiological calcium concentrations in vitro, and a three-dimensional model was generated to conceptualize annexin A11 structure-function relationships.
Molecular dissection of the membrane aggregation mechanisms induced by monomeric annexin A2.
S100–annexin complexes – structural insights
TLDR
The diversity of these interactions indicates that multiple forms of recognition exist between S100 proteins and annexins, and may indicate that this process has several possible modes of protein–protein recognition.
Annexins and Calcium Signaling
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References

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TLDR
A model for the annexin V-membrane interaction, the ion channel formation, and the ion conduction pathway is proposed and it is proposed that ion permeation occurs in discrete conductance states and is regulated by voltage across the membrane.
X-ray structure of full-length annexin 1 and implications for membrane aggregation.
TLDR
The crystal structure of a full-length annexin with a complete N-terminal domain, annexin 1, is solved and implications for membrane aggregation will be discussed and a model of aggregation based on the structure will be presented.
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TLDR
An N-terminally shortened form of human annexin II was crystallized and its molecular structure determined, adding further weight to the notion that ion channel activity does not require major structural rearrangements.
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    Molecular and Cellular Biochemistry
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TLDR
The ability of annexin II tetramer to bridge secretory granules to plasma membrane has suggested that this protein may play a role in Ca2+-dependent exocytosis.
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TLDR
The structural basis of the annexin 1-S100C complex-formation probably resembles to a large extent that of the well-characterized annexin II-p11 interaction.
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TLDR
The superpositions of the corresponding loop regions in the four domains show that the calcium binding loops in annexin I can be divided into two classes: type II and type III, different from the well‐known EF‐hand motif (type I).
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TLDR
A number of studies show that various members of the annexin family of plants may play roles in secretion and/or fruit ripening, show interaction with the enzyme callose (1,3-β-glucan) synthase, possess intrinsic nucleotide phosphodiesterase activity, bind to F-actin, and/ or have peroxidase activity.
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TLDR
A resolution structure reveals a hexamer with the Lys105 epsilon-amino group nearly superimposable with the original intermolecular calcium position, which provides further evidence for hexameric annexin XII.
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