Successful refolding and NMR structure of rMagi3: A disulfide-rich insecticidal spider toxin

Gustavo Titaux-Delgado; Elisa Carrillo; Angeles Mendoza; Marlen Mayorga-Flores; Fátima C. Escobedo-González; Patricia Cano-Sánchez; Estuardo López-Vera; Gerardo Corzo; Federico del Rio-Portilla

doi:10.1002/pro.3363

Successful refolding and NMR structure of rMagi3: A disulfide-rich insecticidal spider toxin

Gustavo Titaux-Delgado
, Elisa Carrillo
, Angeles Mendoza
, Marlen Mayorga-Flores
, Fátima C. Escobedo-González
, Patricia Cano-Sánchez
, Estuardo López-Vera
, Gerardo Corzo
, Federico del Rio-Portilla

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

10 Scopus citations

Abstract

The need for molecules with high specificity against noxious insects leads the search towards spider venoms that have evolved highly selective toxins for insect preys. In this respect, spiders as a highly diversified group of almost exclusive insect predators appear to possess infinite potential for the discovery of novel insect-selective toxins. In 2003, a group of toxins was isolated from the spider Macrothele gigas and the amino acid sequence was reported. We obtained, by molecular biology techniques in a heterologous system, one of these toxins. Purification process was optimized by chromatographic methods to determine the three-dimensional structure by nuclear magnetic resonance in solution, and, finally, their biological activity was tested. rMagi3 resulted to be a specific insect toxin with no effect on mice.

Original language	English (US)
Pages (from-to)	692-701
Number of pages	10
Journal	Protein Science
Volume	27
Issue number	3
DOIs	https://doi.org/10.1002/pro.3363
State	Published - Mar 2018
Externally published	Yes

Keywords

Macrothele gigas
NMR solution structure
insecticidal
refolding disulfide-bonded toxins
spider toxin

ASJC Scopus subject areas

Biochemistry
Molecular Biology

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10.1002/pro.3363

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title = "Successful refolding and NMR structure of rMagi3: A disulfide-rich insecticidal spider toxin",

abstract = "The need for molecules with high specificity against noxious insects leads the search towards spider venoms that have evolved highly selective toxins for insect preys. In this respect, spiders as a highly diversified group of almost exclusive insect predators appear to possess infinite potential for the discovery of novel insect-selective toxins. In 2003, a group of toxins was isolated from the spider Macrothele gigas and the amino acid sequence was reported. We obtained, by molecular biology techniques in a heterologous system, one of these toxins. Purification process was optimized by chromatographic methods to determine the three-dimensional structure by nuclear magnetic resonance in solution, and, finally, their biological activity was tested. rMagi3 resulted to be a specific insect toxin with no effect on mice.",

keywords = "Macrothele gigas, NMR solution structure, insecticidal, refolding disulfide-bonded toxins, spider toxin",

author = "Gustavo Titaux-Delgado and Elisa Carrillo and Angeles Mendoza and Marlen Mayorga-Flores and Escobedo-Gonz{\'a}lez, \{F{\'a}tima C.\} and Patricia Cano-S{\'a}nchez and Estuardo L{\'o}pez-Vera and Gerardo Corzo and \{del Rio-Portilla\}, Federico",

note = "Publisher Copyright: {\textcopyright} 2017 The Protein Society",

year = "2018",

month = mar,

doi = "10.1002/pro.3363",

language = "English (US)",

volume = "27",

pages = "692--701",

journal = "Protein Science",

issn = "0961-8368",

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T2 - A disulfide-rich insecticidal spider toxin

AU - Titaux-Delgado, Gustavo

AU - Carrillo, Elisa

AU - Mendoza, Angeles

AU - Mayorga-Flores, Marlen

AU - Escobedo-González, Fátima C.

AU - Cano-Sánchez, Patricia

AU - López-Vera, Estuardo

AU - Corzo, Gerardo

AU - del Rio-Portilla, Federico

PY - 2018/3

Y1 - 2018/3

N2 - The need for molecules with high specificity against noxious insects leads the search towards spider venoms that have evolved highly selective toxins for insect preys. In this respect, spiders as a highly diversified group of almost exclusive insect predators appear to possess infinite potential for the discovery of novel insect-selective toxins. In 2003, a group of toxins was isolated from the spider Macrothele gigas and the amino acid sequence was reported. We obtained, by molecular biology techniques in a heterologous system, one of these toxins. Purification process was optimized by chromatographic methods to determine the three-dimensional structure by nuclear magnetic resonance in solution, and, finally, their biological activity was tested. rMagi3 resulted to be a specific insect toxin with no effect on mice.

AB - The need for molecules with high specificity against noxious insects leads the search towards spider venoms that have evolved highly selective toxins for insect preys. In this respect, spiders as a highly diversified group of almost exclusive insect predators appear to possess infinite potential for the discovery of novel insect-selective toxins. In 2003, a group of toxins was isolated from the spider Macrothele gigas and the amino acid sequence was reported. We obtained, by molecular biology techniques in a heterologous system, one of these toxins. Purification process was optimized by chromatographic methods to determine the three-dimensional structure by nuclear magnetic resonance in solution, and, finally, their biological activity was tested. rMagi3 resulted to be a specific insect toxin with no effect on mice.

KW - Macrothele gigas

KW - NMR solution structure

KW - insecticidal

KW - refolding disulfide-bonded toxins

KW - spider toxin

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JO - Protein Science

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ER -

Successful refolding and NMR structure of rMagi3: A disulfide-rich insecticidal spider toxin

Abstract

Keywords

ASJC Scopus subject areas

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