A. M. Kudzhaev scite author profile

A. M. Kudzhaev

5Publications

38Citation Statements Received

245Citation Statements Given

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144

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Affiliations

Institute of Bioorganic Chemistry, Russian Academy of Sciences

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Cryo-EM structure of substrate-free E. coli Lon protease provides insights into the dynamics of Lon machinery

Botos

Lountos

et al. 2019

Current Research in Structural Biology

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Energy-dependent Lon proteases play a key role in cellular regulation by degrading short-lived regulatory proteins and misfolded proteins in the cell. The structure of the catalytically inactive S679A mutant of Escherichia coli LonA protease ( Ec Lon) has been determined by cryo-EM at the resolution of 3.5 Å. Ec LonA without a bound substrate adopts a hexameric open-spiral quaternary structure that might represent the resting state of the enzyme. Upon interaction with substrate the open-spiral hexamer undergoes a major conformational change resulting in a compact, closed-circle hexamer as in the recent structure of a complex of Yersinia pestis LonA with a protein substrate. This major change is accomplished by the rigid-body rearrangement of the individual domains within the protomers of the complex around the hinge points in the interdomain linkers. Comparison of substrate-free and substrate-bound Lon structures allows to mark the location of putative pivotal points involved in such conformational changes.

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New insights into structural and functional relationships between LonA proteases and ClpB chaperones

et al. 2019

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LonA proteases and ClpB chaperones are key components of the protein quality control system in bacterial cells. LonA proteases form a unique family of ATPases associated with diverse cellular activities (AAA + ) proteins due to the presence of an unusual N‐terminal region comprised of two domains: a β‐structured N domain and an α‐helical domain, including the coiled‐coil fragment, which is referred to as HI(CC). The arrangement of helices in the HI(CC) domain is reminiscent of the structure of the H1 domain of the first AAA + module of ClpB chaperones. It has been hypothesized that LonA proteases with a single AAA + module may also contain a part of another AAA + module, the full version of which is present in ClpB. Here, we established and tested the structural basis of this hypothesis using the known crystal structures of various fragments of LonA proteases and ClpB chaperones, as well as the newly determined structure of the Escherichia coli LonA fragment (235–584). The similarities and differences in the corresponding domains of LonA proteases and ClpB chaperones were examined in structural terms. The results of our analysis, complemented by the finding of a singular match in the location of the most conserved axial pore‐1 loop between the LonA NB domain and the NB2 domain of ClpB, support our hypothesis that there is a structural and functional relationship between two coiled–coil fragments and implies a similar mechanism of engagement of the pore‐1 loops in the AAA + modules of LonAs and ClpBs.

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Роль α-спирализованных доменов в функционировании АТР-зависимой Lon-протеазы изEscherichia coli

Андрианова¹,

Kudzhaev²,

Serova³

et al. 2014

Биоорган. химия

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Live Biosensors for Ultrahigh-Throughput Screening of Antimicrobial Activity against Gram-Negative Bacteria

et al. 2021

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Gram-negative pathogens represent an urgent threat due to their intrinsic and acquired antibiotic resistance. Many recent drug candidates display prominent antimicrobial activity against Gram-positive bacteria being inefficient against Gram-negative pathogens. Ultrahigh-throughput, microfluidics-based screening techniques represent a new paradigm for deep profiling of antibacterial activity and antibiotic discovery. A key stage of this technology is based on single-cell cocultivation of microbiome biodiversity together with reporter fluorescent pathogen in emulsion, followed by the selection of reporter-free droplets using fluorescence-activated cell sorting. Here, a panel of reporter strains of Gram-negative bacteria Escherichia coli was developed to provide live biosensors for precise monitoring of antimicrobial activity. We optimized cell morphology, fluorescent protein, and selected the most efficient promoters for stable, homogeneous, high-level production of green fluorescent protein (GFP) in E. coli. Two alternative strategies based on highly efficient constitutive promoter pJ23119 or T7 promoter leakage enabled sensitive fluorescent detection of bacterial growth and killing. The developed live biosensors were applied for isolating potent E. coli-killing Paenibacillus polymyxa P4 strain by the ultrahigh-throughput screening of soil microbiome. The multi-omics approach revealed antibiotic colistin (polymyxin E) and its biosynthetic gene cluster, mediating antibiotic activity. Live biosensors may be efficiently implemented for antibiotic/probiotic discovery, environmental monitoring, and synthetic biology.

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Роль фрагмента (1-106) в функционировании АТР-зависимой Lon-протеазыE. coli

Kudzhaev¹,

Dubovtseva²,

Serova³

et al. 2016

Биоорган. химия

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A. M. Kudzhaev

Cryo-EM structure of substrate-free E. coli Lon protease provides insights into the dynamics of Lon machinery

New insights into structural and functional relationships between LonA proteases and ClpB chaperones

Роль α-спирализованных доменов в функционировании АТР-зависимой Lon-протеазы изEscherichia coli

Live Biosensors for Ultrahigh-Throughput Screening of Antimicrobial Activity against Gram-Negative Bacteria

Роль фрагмента (1-106) в функционировании АТР-зависимой Lon-протеазыE. coli

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