Julia Demydchuk scite author profile

Julia Demydchuk

3Publications

38Citation Statements Received

103Citation Statements Given

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Affiliations

University of Burgundy, French National Centre for Scientific Research, Hans Knöll Institute

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A β‐lysine adenylating enzyme and a β‐lysine binding protein involved in poly β‐lysine chain assembly in nourseothricin synthesis in Streptomyces noursei

Grammel

Pankevych

Demydchuk

et al. 2002

European Journal of Biochemistry

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Nourseothricins (syn. Streptothricins), a group of nucleoside peptides produced by several streptomycete strains, contain a poly b-lysine chain of variable length attached in amide linkage to the amino sugar moiety gulosamine of the nucleoside portion. We show that the nourseothricin-producing Streptomyces noursei contains an enzyme (NpsA) of an apparent M r 56 000 that speci®cally activates b-lysine by adenylation but does not bind to it as a thioester. Cloning and sequencing of npsA from S. noursei including its¯ank-ing DNA regions revealed that it is closely linked to the nourseothricin resistance gene nat1 and some other genes on the chromosome possibly involved in nourseothricin biosynthesis. The deduced amino-acid sequence revealed that NpsA is a stand-alone adenylation domain with similarity to the adenylation domains of nonribosomal peptide synthetases (NRPS). Further analysis revealed that S. noursei contains a b-lysine binding enzyme (NpsB) of about M r 64 100 which can be loaded by NpsA with b-lysine as a thioester. Analysis of the deduced amino-acid sequence from the gene (npsB) of NpsB showed that it consists of two domains. The N-terminal domain of 100 amino-acid residues has high similarity to PCP domains of NRPSs whereas the 450-amino-acid C-terminal domain has a high similarity to epimerization (E)-domains of NRPSs. Remarkably, in this E-domain the conserved H-H-motif is changed to H-Q, which suggests that either the domain is nonfunctional or has a specialized function. The presence of one single adenylating b-lysine activating enzyme in nourseothricin-producing streptomycete and a separate binding protein suggests an iteratively operating NRPS-module catalyses synthesis of the poly b-lysine chain.

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FXRE can function as an LXRE in the promoter of human ileal bile acid‐binding protein (I‐BABP) gene

et al. 2003

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Ileal bile acid-binding protein (I-BABP) is a 14 kDa cytosolic protein which binds bile acids with a high a⁄nity. It is thought to be implicated in the enterohepatic circulation of bile acids and, hence, in cholesterol homeostasis. Using a combination of in vivo and in vitro experiments, we have recently shown that I-BABP gene expression can be indirectly up-regulated by cholesterol through the activation of sterol-responsive elementbinding protein 1c (SREBP1c) by liver X-receptor (LXR). We report here that I-BABP can be also a direct target for LXR. I-BABP regulation by LXR is maintained when the SREBP binding site is deleted in the I-BABP promoter and occurs, in the absence of conventional LXRE sequences, through an IR1 sequence previously identi¢ed as a farnesoid X-receptor-responsive element (FXRE). Electrophoretic mobility shift assays demonstrated that the LXR/RXR heterodimer speci¢cally recognizes the FXRE. Collectively, these data strongly suggest that LXR can regulate the I-BABP gene by both direct and indirect mechanisms.

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Analysis of a kanamycin resistance gene(kmr) fromStreptomyces kanamyceticus and a mutant with increased aminoglycoside resistance

Demydchuk¹,

Oliynyk²,

Fedorenko³

1998

J. Basic Microbiol.

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Julia Demydchuk

A β‐lysine adenylating enzyme and a β‐lysine binding protein involved in poly β‐lysine chain assembly in nourseothricin synthesis in Streptomyces noursei

FXRE can function as an LXRE in the promoter of human ileal bile acid‐binding protein (I‐BABP) gene

Analysis of a kanamycin resistance gene(kmr) fromStreptomyces kanamyceticus and a mutant with increased aminoglycoside resistance

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