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Anopheles funestus glutathione-s-transferase epsilon 2 (GSTe2) protein structure from different alelles: A single amino acid change confers high level of DDT resistance and cross resistance to permethrin in a major malaria vector in Africa

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How to Cite

NIH 3D. (2017). Anopheles funestus glutathione-s-transferase epsilon 2 (GSTe2) protein structure from different alelles: A single amino acid change confers high level of DDT resistance and cross resistance to permethrin in a major malaria vector in Africa (Version 2.x). NIH 3D. https://doi.org/10.60705/3DPX/7905.2

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Summary Information

Title: Anopheles funestus glutathione-s-transferase epsilon 2 (GSTe2) protein structure from different alelles: A single amino acid change confers high level of DDT resistance and cross resistance to permethrin in a major malaria vector in Africa

Description:

The 3D representations presented in this DOI were automatically generated by NIH's 3D workflows using data extracted from PDB 3ZML in the Protein Data Bank.

Creator(s):

NIH 3D
National Institute of Allergy and Infectious Diseases

Contributor(s):

NIH 3D, Data Manager

Publisher: NIH 3D

Publication Year: 2017

Version: 2.x

"x" corresponds to any minor version

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NIH3D

Anopheles funestus glutathione-s-transferase epsilon 2 (GSTe2) protein structure from different alelles: A single amino acid change confers high level of DDT resistance and cross resistance to permethrin in a major malaria vector in Africa

NIH 3D Model Entry

How to Cite

Summary Information