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1.
Biochemistry (Mosc) ; 85(8): 930-937, 2020 Aug.
Article in English | MEDLINE | ID: mdl-33045953

ABSTRACT

The effects of N,N'-dicyclohexylcarbodiimide (DCCD), non-specific inhibitor of various transport systems functioning in biological membranes, on Na+-transporting P-type ATPase of the green halotolerant microalga Dunaliella maritima were studied in the experiments with vesicular plasma membranes isolated from the alga cells. The effects of DCCD on electrogenic/ion transport function of the enzyme and its ATP hydrolase activity were investigated. Electrogenic/ion transport function of the enzyme was recorded as a Na+-dependent generation of electric potential on the vesicle membranes with the help of the potential-sensitive probe oxonol VI. It was found that unlike many other ion-transporting ATPases, the Na+-ATPase of D. maritima is insensitive to DCCD. This agent did not inhibit either ATP hydrolysis catalyzed by this enzyme or its transport activity. At the same time DCCD affected the ability of the vesicle membranes to maintain electric potential generated by the D. maritima Na+-ATPase. The observed effects can be explained based on the assumption that DCCD interacts with the Na+/H+ antiporter in the plasma membrane of D. maritima.


Subject(s)
Adenosine Triphosphatases/metabolism , Cation Transport Proteins/metabolism , Cell Membrane/metabolism , Chlorophyceae/enzymology , Dicyclohexylcarbodiimide/pharmacology , Membrane Potentials/drug effects , Microalgae/enzymology , Signal Transduction/drug effects , Adenosine Triphosphate/metabolism , Biological Transport, Active/drug effects , Hydrogen-Ion Concentration , Hydrolysis/drug effects , Ion Transport/drug effects , P-type ATPases/metabolism , Protons
2.
Dokl Biochem Biophys ; 488(1): 327-331, 2019 Sep.
Article in English | MEDLINE | ID: mdl-31768853

ABSTRACT

Partial sequences of P-type ATPases were cloned from the marine microalgae Dunaliella maritima, two putative H+-ATPases (DmHA1 and DmHA2) and two putative Ca2+-ATPases (DmCA1 and DmCA2). The probable functions of the cloned proteins were suggested on the basis of their primary structure similarity with the proteins whose functions have been already characterized. The transcriptional response of the cloned D. maritima ATPase genes to a sharp increase in the NaCl concentration in the culture medium (from 100 to 500 mM) was investigated by quantitative RT-PCR. Hyperosmotic salt shock led to a significant increase in the DmHA2 expression and to a slight increase in the DmCA2 expression, whereas the expression of the two other ATPases, DmHA1 and DmCA1, was decreased. These data indicate that the DmHA2 ATPase is involved in maintenance of ion homeostasis in D. maritima cells under hyperosmotic salt shock.


Subject(s)
Adenosine Triphosphatases/biosynthesis , Chlorophyceae/enzymology , Gene Expression Regulation, Enzymologic , Gene Expression Regulation, Plant , Microalgae/enzymology , Plant Proteins/biosynthesis
3.
Mol Biol (Mosk) ; 52(4): 601-615, 2018.
Article in Russian | MEDLINE | ID: mdl-30113026

ABSTRACT

De novo assembled transcriptomes of the marine microalga Dunaliella tertiolecta (Chlorophyta) were analyzed. Transcriptome assemblies were performed using short-read RNA-seq data deposited in the SRA database (DNA and RNA Sequence Read Archive, NCBI). A merged transcriptome was assembled using a pooled RNA-seq data set. The goal of the study was in silico identification of nucleotide sequences encoding P-type ATPases in D. tertiolecta transcriptomes. P-type ATPases play a considerable role in the adaptation of an organism to a variable environment, and this problem is particularly significant for microalgae inhabiting an environment with an unstable ionic composition. Particular emphasis was given to searching for a sequence coding Na^(+)-ATPase. This enzyme is expected to function in the plasma membrane of D. tertiolecta like in some marine algae, in particular, in the closely related alga Dunaliella maritima. An ensemble of 12 P-type ATPases consisting of members belonging to the five main subfamilies of the P-type ATPase family was revealed in the assembled transcriptomes. The genes of the following P-type ATPases were found: (1) heavy metal ATPases (subfamily PIB); (2) Ca^(2+)-ATPases of SERCA type (subfamily P2A); (3) H^(+)-ATPases (subfamily P3); (4) phospholipid-transporting ATPases (flippases) (subfamily P4); (5) cation-transporting ATPases of uncertain specificities (subfamily P5). The presence of functional Na^(+)-ATPases in marine algae is presently undoubted. However, contrary to expectations, we failed to find a nucleotide sequence encoding a protein that could unequivocally be considered a Na^(+)-ATPase. Further study is necessary to elucidate the roles of in silico revealed D. tertiolecta ATPases in Na^(+) transport.


Subject(s)
Adenosine Triphosphatases/genetics , Microalgae/genetics , P-type ATPases/genetics , Transcriptome/genetics , Adenosine Triphosphatases/classification , Adenosine Triphosphatases/isolation & purification , Base Sequence , Computer Simulation , Molecular Sequence Annotation , P-type ATPases/isolation & purification
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