Protein reconstitution and three-dimensional domain swapping: Benefits and constraints of covalency

Carey, Jannette; Lindman, Stina; Bauer, Mikael; Linse, Sara

Protein reconstitution and three-dimensional domain swapping: Benefits and constraints of covalency

Mark

Carey, Jannette ; Lindman, Stina ^LU ; Bauer, Mikael ^LU and Linse, Sara ^LU (2007) In Protein Science 16(11). p.2317-2333

Abstract: The phenomena of protein reconstitution and three-dimensional domain swapping reveal that highly similar structures can be obtained whether a protein is comprised of one or more polypeptide chains. In this review, we use protein reconstitution as a lens through which to examine the range of protein tolerance to chain interruptions and the roles of the primary structure in related features of protein structure and folding, including circular permutation, natively unfolded proteins, allostery, and amyloid fibril formation. The results imply that noncovalent interactions in a protein are sufficient to specify its structure under the constraints imposed by the covalent backbone.

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/651797

author

Carey, Jannette ; Lindman, Stina ^LU ; Bauer, Mikael ^LU and Linse, Sara ^LU

organization

Biophysical Chemistry

publishing date

2007

type

Contribution to journal

publication status

published

subject

Physical Chemistry

keywords

metastability, stability, steric constraints, ligand, cooperativity, binding

in

Protein Science

volume

16

issue

11

pages

2317 - 2333

publisher

The Protein Society

external identifiers

wos:000250444400001
scopus:35648930538

ISSN

1469-896X

DOI

10.1110/ps.072985007

language

English

LU publication?

yes

id

c5221548-daf5-4514-b752-e4e00fcc57be (old id 651797)

date added to LUP

2016-04-01 11:56:31

date last changed

2022-02-18 07:35:53

@article{c5221548-daf5-4514-b752-e4e00fcc57be,
  abstract     = {{The phenomena of protein reconstitution and three-dimensional domain swapping reveal that highly similar structures can be obtained whether a protein is comprised of one or more polypeptide chains. In this review, we use protein reconstitution as a lens through which to examine the range of protein tolerance to chain interruptions and the roles of the primary structure in related features of protein structure and folding, including circular permutation, natively unfolded proteins, allostery, and amyloid fibril formation. The results imply that noncovalent interactions in a protein are sufficient to specify its structure under the constraints imposed by the covalent backbone.}},
  author       = {{Carey, Jannette and Lindman, Stina and Bauer, Mikael and Linse, Sara}},
  issn         = {{1469-896X}},
  keywords     = {{metastability; stability; steric constraints; ligand; cooperativity; binding}},
  language     = {{eng}},
  number       = {{11}},
  pages        = {{2317--2333}},
  publisher    = {{The Protein Society}},
  series       = {{Protein Science}},
  title        = {{Protein reconstitution and three-dimensional domain swapping: Benefits and constraints of covalency}},
  url          = {{http://dx.doi.org/10.1110/ps.072985007}},
  doi          = {{10.1110/ps.072985007}},
  volume       = {{16}},
  year         = {{2007}},
}

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Protein reconstitution and three-dimensional domain swapping: Benefits and constraints of covalency