Fluorescence characterization of the low pH-induced change in diphtheria toxin conformation: Effect of salt

Michael G. Blewitt; Jian Min Zhao; Brian McKeever; Raghupathy Sarma; Erwin London

doi:10.1016/0006-291X(84)91446-3

Fluorescence characterization of the low pH-induced change in diphtheria toxin conformation: Effect of salt

Michael G. Blewitt
, Jian Min Zhao
, Brian McKeever
, Raghupathy Sarma
, Erwin London

Biochemistry and Cell Biology

Stony Brook University

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

31 Scopus citations

Abstract

We have examined the effect of pH on diphtheria toxin conformation using intrinsic protein fluorescence and a new fluorescence quenching method. In aqueous solutions, fluorescence indicates toxin conformation undergoes a drastic change at low pH. This conformational change is closely associated with a switch from a hydrophilic conformation to a hydrophobic one, as judged by quenching-detected detergent binding. In the absence of NaCl these changes occur around pH 4-4.5. However, in 150 mM NaCl the conformational change occurs in the pH 5-5.5 range, close to the pH the toxin is expected to encounter in endosomes and lysosomes. Therefore, the conformational change observed at low pH is likely to be physiologically signficant.

Original language	English
Pages (from-to)	286-290
Number of pages	5
Journal	Biochemical and Biophysical Research Communications
Volume	120
Issue number	1
DOIs	https://doi.org/10.1016/0006-291X(84)91446-3
State	Published - Apr 16 1984

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title = "Fluorescence characterization of the low pH-induced change in diphtheria toxin conformation: Effect of salt",

abstract = "We have examined the effect of pH on diphtheria toxin conformation using intrinsic protein fluorescence and a new fluorescence quenching method. In aqueous solutions, fluorescence indicates toxin conformation undergoes a drastic change at low pH. This conformational change is closely associated with a switch from a hydrophilic conformation to a hydrophobic one, as judged by quenching-detected detergent binding. In the absence of NaCl these changes occur around pH 4-4.5. However, in 150 mM NaCl the conformational change occurs in the pH 5-5.5 range, close to the pH the toxin is expected to encounter in endosomes and lysosomes. Therefore, the conformational change observed at low pH is likely to be physiologically signficant.",

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T1 - Fluorescence characterization of the low pH-induced change in diphtheria toxin conformation

T2 - Effect of salt

AU - Blewitt, Michael G.

AU - Zhao, Jian Min

AU - McKeever, Brian

AU - Sarma, Raghupathy

AU - London, Erwin

PY - 1984/4/16

Y1 - 1984/4/16

N2 - We have examined the effect of pH on diphtheria toxin conformation using intrinsic protein fluorescence and a new fluorescence quenching method. In aqueous solutions, fluorescence indicates toxin conformation undergoes a drastic change at low pH. This conformational change is closely associated with a switch from a hydrophilic conformation to a hydrophobic one, as judged by quenching-detected detergent binding. In the absence of NaCl these changes occur around pH 4-4.5. However, in 150 mM NaCl the conformational change occurs in the pH 5-5.5 range, close to the pH the toxin is expected to encounter in endosomes and lysosomes. Therefore, the conformational change observed at low pH is likely to be physiologically signficant.

AB - We have examined the effect of pH on diphtheria toxin conformation using intrinsic protein fluorescence and a new fluorescence quenching method. In aqueous solutions, fluorescence indicates toxin conformation undergoes a drastic change at low pH. This conformational change is closely associated with a switch from a hydrophilic conformation to a hydrophobic one, as judged by quenching-detected detergent binding. In the absence of NaCl these changes occur around pH 4-4.5. However, in 150 mM NaCl the conformational change occurs in the pH 5-5.5 range, close to the pH the toxin is expected to encounter in endosomes and lysosomes. Therefore, the conformational change observed at low pH is likely to be physiologically signficant.

UR - https://www.scopus.com/pages/publications/0021765180

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DO - 10.1016/0006-291X(84)91446-3

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SN - 0006-291X

VL - 120

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EP - 290

JO - Biochemical and Biophysical Research Communications

JF - Biochemical and Biophysical Research Communications

IS - 1

ER -

Fluorescence characterization of the low pH-induced change in diphtheria toxin conformation: Effect of salt

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