Structural Insight Into the Role of Mutual Polymorphism and Conservatism in the Contact Zone of the NFR5–K1 Heterodimer With the Nod Factor

Structural Insight Into the Role of Mutual Polymorphism and Conservatism in the Contact Zone of the NFR5–K1 Heterodimer With the Nod Factor

Sandwich-like docking configurations of the heterodimeric complex of NFR5 and K1 Vicia sativa receptor-like kinases together with the putative ligand, Nod factor (NF) of Rhizobium leguminosarum bv. viciae, were modeled and two of the most probable configurations were assessed through the analysis of...

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Main Authors: A. A. Igolkina, Yu B. Porozov, E. P. Chizhevskaya, E. E. Andronov
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-04-01
Series:Frontiers in Plant Science
Subjects:
NFR5
K1
Nod factor
heterodimeric receptor
population polymorphism
sliding cylinder
Online Access:http://journal.frontiersin.org/article/10.3389/fpls.2018.00344/full
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spelling doaj-38b463487b644aaebc509a839b75b0042020-11-25T01:01:37ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2018-04-01910.3389/fpls.2018.00344317558Structural Insight Into the Role of Mutual Polymorphism and Conservatism in the Contact Zone of the NFR5–K1 Heterodimer With the Nod FactorA. A. Igolkina0A. A. Igolkina1Yu B. Porozov2Yu B. Porozov3E. P. Chizhevskaya4E. E. Andronov5E. E. Andronov6E. E. Andronov7Laboratory of Microbiological Monitoring and Bioremediation of Soil, All-Russia Research Institute for Agricultural Microbiology, St. Petersburg, RussiaMathematical Biology and Bioinformatics Laboratory, Institute of Applied Mathematics and Mechanics, Peter the Great St. Petersburg Polytechnic University, St. Petersburg, RussiaThe Laboratory of Bioinformatics, ITMO University, St. Petersburg, RussiaThe Laboratory of Bioinformatics, I.M. Sechenov First Moscow State Medical University, Moscow, RussiaLaboratory of Microbiological Monitoring and Bioremediation of Soil, All-Russia Research Institute for Agricultural Microbiology, St. Petersburg, RussiaLaboratory of Microbiological Monitoring and Bioremediation of Soil, All-Russia Research Institute for Agricultural Microbiology, St. Petersburg, RussiaLaboratory of Biology and Biochemistry of Soils, VV Dokuchaev Soil Science Institute, Moscow, RussiaSaint Petersburg State University, St. Petersburg, RussiaSandwich-like docking configurations of the heterodimeric complex of NFR5 and K1 Vicia sativa receptor-like kinases together with the putative ligand, Nod factor (NF) of Rhizobium leguminosarum bv. viciae, were modeled and two of the most probable configurations were assessed through the analysis of the mutual polymorphisms and conservatism. We carried out this analysis based on the hypothesis that in a contact zone of two docked components (proteins or ligands) the population polymorphism or conservatism is mutual, i.e., the variation in one component has a reflected variation in the other component. The population material of 30 wild-growing V. sativa (leaf pieces) was collected from a large field (uncultivated for the past 25-years) and pooled; form this pool, 100 randomly selected cloned fragments of NFR5 gene and 100 of K1 gene were sequenced by the Sanger method. Congruence between population trees of NFR5 and K1 haplotypes allowed us to select two respective haplotypes, build their 3D structures, and perform protein–protein docking. In a separate simulation, the protein-ligand docking between NFR5 and NF was carried out. We merged the results of the two docking experiments and extracted NFR5–NF–K1 complexes, in which NF was located within the cavity between two receptors. Molecular dynamics simulations indicated two out of six complexes as stable. Regions of mutual polymorphism in the contact zone of one complex overlapped with known NF structural variations produced by R. leguminosarum bv. viciae. A total of 74% of the contact zone of another complex contained mutually polymorphic and conservative areas. Common traits of the obtained two stable structures allowed us to hypothesize the functional role of three-domain structure of plant LysM-RLKs in their heteromers.http://journal.frontiersin.org/article/10.3389/fpls.2018.00344/fullNFR5K1Nod factorheterodimeric receptorpopulation polymorphismsliding cylinder
collection DOAJ
language English
format Article
sources DOAJ
author A. A. Igolkina
A. A. Igolkina
Yu B. Porozov
Yu B. Porozov
E. P. Chizhevskaya
E. E. Andronov
E. E. Andronov
E. E. Andronov
spellingShingle A. A. Igolkina
A. A. Igolkina
Yu B. Porozov
Yu B. Porozov
E. P. Chizhevskaya
E. E. Andronov
E. E. Andronov
E. E. Andronov
Structural Insight Into the Role of Mutual Polymorphism and Conservatism in the Contact Zone of the NFR5–K1 Heterodimer With the Nod Factor
Frontiers in Plant Science
NFR5
K1
Nod factor
heterodimeric receptor
population polymorphism
sliding cylinder
author_facet A. A. Igolkina
A. A. Igolkina
Yu B. Porozov
Yu B. Porozov
E. P. Chizhevskaya
E. E. Andronov
E. E. Andronov
E. E. Andronov
author_sort A. A. Igolkina
title Structural Insight Into the Role of Mutual Polymorphism and Conservatism in the Contact Zone of the NFR5–K1 Heterodimer With the Nod Factor
title_short Structural Insight Into the Role of Mutual Polymorphism and Conservatism in the Contact Zone of the NFR5–K1 Heterodimer With the Nod Factor
title_full Structural Insight Into the Role of Mutual Polymorphism and Conservatism in the Contact Zone of the NFR5–K1 Heterodimer With the Nod Factor
title_fullStr Structural Insight Into the Role of Mutual Polymorphism and Conservatism in the Contact Zone of the NFR5–K1 Heterodimer With the Nod Factor
title_full_unstemmed Structural Insight Into the Role of Mutual Polymorphism and Conservatism in the Contact Zone of the NFR5–K1 Heterodimer With the Nod Factor
title_sort structural insight into the role of mutual polymorphism and conservatism in the contact zone of the nfr5–k1 heterodimer with the nod factor
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2018-04-01
description Sandwich-like docking configurations of the heterodimeric complex of NFR5 and K1 Vicia sativa receptor-like kinases together with the putative ligand, Nod factor (NF) of Rhizobium leguminosarum bv. viciae, were modeled and two of the most probable configurations were assessed through the analysis of the mutual polymorphisms and conservatism. We carried out this analysis based on the hypothesis that in a contact zone of two docked components (proteins or ligands) the population polymorphism or conservatism is mutual, i.e., the variation in one component has a reflected variation in the other component. The population material of 30 wild-growing V. sativa (leaf pieces) was collected from a large field (uncultivated for the past 25-years) and pooled; form this pool, 100 randomly selected cloned fragments of NFR5 gene and 100 of K1 gene were sequenced by the Sanger method. Congruence between population trees of NFR5 and K1 haplotypes allowed us to select two respective haplotypes, build their 3D structures, and perform protein–protein docking. In a separate simulation, the protein-ligand docking between NFR5 and NF was carried out. We merged the results of the two docking experiments and extracted NFR5–NF–K1 complexes, in which NF was located within the cavity between two receptors. Molecular dynamics simulations indicated two out of six complexes as stable. Regions of mutual polymorphism in the contact zone of one complex overlapped with known NF structural variations produced by R. leguminosarum bv. viciae. A total of 74% of the contact zone of another complex contained mutually polymorphic and conservative areas. Common traits of the obtained two stable structures allowed us to hypothesize the functional role of three-domain structure of plant LysM-RLKs in their heteromers.
topic NFR5
K1
Nod factor
heterodimeric receptor
population polymorphism
sliding cylinder
url http://journal.frontiersin.org/article/10.3389/fpls.2018.00344/full
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