Structure, specificity, and mode of interaction for bacterial albumin-binding modules.

Maria U Johansson; Inga-Maria Frick; Hanna Nilsson; Per J Kraulis; Sophia Hober; Per Jonasson; Martin Linhult; Per-Ake Nygren; Mathias Uhlén; Lars Björck; Torbjörn Drakenberg; Sture Forsén; Mats Wikström

doi:10.1074/jbc.M109943200

Structure, specificity, and mode of interaction for bacterial albumin-binding modules.

Maria U Johansson, Inga-Maria Frick, Hanna Nilsson, Per J Kraulis, Sophia Hober, Per Jonasson, Martin Linhult, Per-Ake Nygren, Mathias Uhlén, Lars Björck, Torbjörn Drakenberg, Sture Forsén, Mats Wikström

Research output: Contribution to journal › Article › peer-review

Abstract

We have determined the solution structure of an albumin binding domain of protein G, a surface protein of group C and G streptococci. We find that it folds into a left handed three-helix bundle similar to the albumin binding domain of protein PAB from Peptostreptococcus magnus. The two domains share 59% sequence identity, are thermally very stable, and bind to the same site on human serum albumin. The albumin binding site, the first determined for this structural motif known as the GA module, comprises residues spanning the first loop to the beginning of the third helix and includes the most conserved region of GA modules. The two GA modules have different affinities for albumin from different species, and their albumin binding patterns correspond directly to the host specificity of C/G streptococci and P. magnus, respectively. These studies of the evolution, structure, and binding properties of the GA module emphasize the power of bacterial adaptation and underline ecological and medical problems connected with the use of antibiotics.

Original language	English
Pages (from-to)	8114-8120
Journal	Journal of Biological Chemistry
Volume	277
Issue number	10
DOIs	https://doi.org/10.1074/jbc.M109943200
Publication status	Published - 2002

Subject classification (UKÄ)

Physical Chemistry (including Surface- and Colloid Chemistry)

Free keywords

Binding Competitive
Circular Dichroism
Dose-Response Relationship Drug
Drug Resistance
Evolution Molecular
Inhibitory Concentration 50
Kinetics
Magnetic Resonance Spectroscopy
Models Molecular
Molecular Sequence Data
Peptostreptococcus : metabolism
Protein Binding
Sequence Homology Amino Acid
Rabbits
Binding Sites
Amino Acid Sequence
Animal
Serum Albumin : chemistry : metabolism
Substrate Specificity
Support Non-U.S. Gov't
Temperature

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10.1074/jbc.M109943200

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Johansson, M. U., Frick, I.-M., Nilsson, H., Kraulis, P. J., Hober, S., Jonasson, P., Linhult, M., Nygren, P.-A., Uhlén, M., Björck, L., Drakenberg, T., Forsén, S., & Wikström, M. (2002). Structure, specificity, and mode of interaction for bacterial albumin-binding modules. Journal of Biological Chemistry, 277(10), 8114-8120. https://doi.org/10.1074/jbc.M109943200

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abstract = "We have determined the solution structure of an albumin binding domain of protein G, a surface protein of group C and G streptococci. We find that it folds into a left handed three-helix bundle similar to the albumin binding domain of protein PAB from Peptostreptococcus magnus. The two domains share 59\% sequence identity, are thermally very stable, and bind to the same site on human serum albumin. The albumin binding site, the first determined for this structural motif known as the GA module, comprises residues spanning the first loop to the beginning of the third helix and includes the most conserved region of GA modules. The two GA modules have different affinities for albumin from different species, and their albumin binding patterns correspond directly to the host specificity of C/G streptococci and P. magnus, respectively. These studies of the evolution, structure, and binding properties of the GA module emphasize the power of bacterial adaptation and underline ecological and medical problems connected with the use of antibiotics.",

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AU - Frick, Inga-Maria

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AU - Kraulis, Per J

AU - Hober, Sophia

AU - Jonasson, Per

AU - Linhult, Martin

AU - Nygren, Per-Ake

AU - Uhlén, Mathias

AU - Björck, Lars

AU - Drakenberg, Torbjörn

AU - Forsén, Sture

AU - Wikström, Mats

PY - 2002

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N2 - We have determined the solution structure of an albumin binding domain of protein G, a surface protein of group C and G streptococci. We find that it folds into a left handed three-helix bundle similar to the albumin binding domain of protein PAB from Peptostreptococcus magnus. The two domains share 59% sequence identity, are thermally very stable, and bind to the same site on human serum albumin. The albumin binding site, the first determined for this structural motif known as the GA module, comprises residues spanning the first loop to the beginning of the third helix and includes the most conserved region of GA modules. The two GA modules have different affinities for albumin from different species, and their albumin binding patterns correspond directly to the host specificity of C/G streptococci and P. magnus, respectively. These studies of the evolution, structure, and binding properties of the GA module emphasize the power of bacterial adaptation and underline ecological and medical problems connected with the use of antibiotics.

AB - We have determined the solution structure of an albumin binding domain of protein G, a surface protein of group C and G streptococci. We find that it folds into a left handed three-helix bundle similar to the albumin binding domain of protein PAB from Peptostreptococcus magnus. The two domains share 59% sequence identity, are thermally very stable, and bind to the same site on human serum albumin. The albumin binding site, the first determined for this structural motif known as the GA module, comprises residues spanning the first loop to the beginning of the third helix and includes the most conserved region of GA modules. The two GA modules have different affinities for albumin from different species, and their albumin binding patterns correspond directly to the host specificity of C/G streptococci and P. magnus, respectively. These studies of the evolution, structure, and binding properties of the GA module emphasize the power of bacterial adaptation and underline ecological and medical problems connected with the use of antibiotics.

KW - Binding Competitive

KW - Circular Dichroism

KW - Dose-Response Relationship Drug

KW - Drug Resistance

KW - Evolution Molecular

KW - Inhibitory Concentration 50

KW - Kinetics

KW - Magnetic Resonance Spectroscopy

KW - Models Molecular

KW - Molecular Sequence Data

KW - Peptostreptococcus : metabolism

KW - Protein Binding

KW - Sequence Homology Amino Acid

KW - Rabbits

KW - Binding Sites

KW - Amino Acid Sequence

KW - Animal

KW - Serum Albumin : chemistry : metabolism

KW - Substrate Specificity

KW - Support Non-U.S. Gov't

KW - Temperature

UR - https://www.scopus.com/pages/publications/0037041036

U2 - 10.1074/jbc.M109943200

DO - 10.1074/jbc.M109943200

M3 - Article

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SN - 1083-351X

VL - 277

SP - 8114

EP - 8120

JO - Journal of Biological Chemistry

JF - Journal of Biological Chemistry

IS - 10

ER -

Structure, specificity, and mode of interaction for bacterial albumin-binding modules.

Abstract

Subject classification (UKÄ)

Free keywords

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