D. M. Ustinin scite author profile

Most biological functions, including photosynthetic activity, are mediated by protein interactions. The proteins plastocyanin and cytochrome f are reaction partners in a photosynthetic electron transport chain. We designed a 3D computer simulation model of diffusion and interaction of spinach plastocyanin and turnip cytochrome f in solution. It is the first step in simulating the electron transfer from cytochrome f to photosystem 1 in the lumen of thylakoid. The model is multiparticle and it can describe the interaction of several hundreds of proteins. In our model the interacting proteins are represented as rigid bodies with spatial fixed charges. Translational and rotational motion of proteins is the result of the effect of stochastic Brownian force and electrostatic force. The Poisson-Boltzmann formalism is used to determine the electrostatic potential field generated around the proteins. Using this model we studied the kinetic characteristics of plastocyanin-cytochrome f complex formation for plastocyanin mutants at pH 7 and a variety of ionic strength values.

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Comparative analysis of plastocyanin–cytochrome f complex formation in higher plants, green algae and cyanobacteria

Fedorov

Kovalenko

Khruschev

et al. 2019

Physiologia Plantarum

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Mechanisms of the complex formation between plastocyanin and cytochrome f in higher plants (Spinacia oleracea and Brassica rapa), green microalgae Chlamydomonas reinhardtii and two species of cyanobacteria (Phormidium laminosum and Nostoc sp.) were investigated using combined Brownian and molecular dynamics simulations and hierarchical cluster analysis. In higher plants and green algae, electrostatic interactions force plastocyanin molecule close to the heme of cytochrome f. In the subsequent rotation of plastocyanin molecule around the point of electrostatic contact in the vicinity of cytochrome f, copper (Cu) atom approaches cytochrome heme forming a stable configuration where cytochrome f molecule behaves as a rather rigid body without conformational changes. In Nostoc plastocyanin molecule approaches cytochrome f in a different orientation (head‐on) where the stabilization of the plastocyanin–cytochrome f complex is accompanied by the conformational changes of the G188E189D190 loop that stabilizes the whole complex. In cyanobacterium P. laminosum, electrostatic preorientation of the approaching molecules was not detected, thus indicating that random motions rather than long‐range electrostatic interactions are responsible for the proper mutual orientation. We demonstrated that despite the structural similarity of the investigated electron transport proteins in different photosynthetic organisms, the complexity of molecular mechanisms of the complex formation increases in the following sequence: non‐heterocystous cyanobacteria – heterocystous cyanobacteria – green algae – flowering plants.

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Computer simulation of plastocyanin-cytochrome f complex formation in the thylakoid lumen

et al. 2008

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Multi-particle Brownian Dynamics software ProKSim for protein-protein interactions modeling

Khruschev¹,

Abaturova²,

Diakonova³

et al. 2013

CRM

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Белок-белковые взаимодействия являются основой большинства биологических процессов. Компьютерное моделирование динамики связывания белков дает важную информацию для понимания механизмов их функционирования. Разработана компьютерная программа ProKSim (Protein Kinetics Simulator), предназначенная для моделирования взаимодействия макромолекул методом многочастичной броуновской динамики с учетом дальнодействующих электростатических взаимодействий. Проведено исследование диффузионностолкновительных комплексов для трех пар белков: ферредоксин и ферредоксин:НАДФ +-редуктаза, пластоцианин и цитохром f, барназа и барстар. Исследована роль электростатических взаимодействий во взаимной ориентации молекул белков при образовании диффузионно-столкновительных комплексов. Ключевые слова: многочастичная броуновская динамика, белок-белковые взаимодействия, механизмы молекулярного распознавания

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D. M. Ustinin

Magnetoelectric effect and toroidal ordering in Ga2−x FexO3

Direct simulation of plastocyanin and cytochrome f interactions in solution

Comparative analysis of plastocyanin–cytochrome f complex formation in higher plants, green algae and cyanobacteria

Computer simulation of plastocyanin-cytochrome f complex formation in the thylakoid lumen

Multi-particle Brownian Dynamics software ProKSim for protein-protein interactions modeling

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