I. V. Deineko scite author profile

Originating from COMPEL, the TRANSCompel database emphasizes the key role of specific interactions between transcription factors binding to their target sites providing specific features of gene regulation in a particular cellular content. Composite regulatory elements contain two closely situated binding sites for distinct transcription factors and represent minimal functional units providing combinatorial transcriptional regulation. Both specific factor--DNA and factor--factor interactions contribute to the function of composite elements (CEs). Information about the structure of known CEs and specific gene regulation achieved through such CEs appears to be extremely useful for promoter prediction, for gene function prediction and for applied gene engineering as well. Each database entry corresponds to an individual CE within a particular gene and contains information about two binding sites, two corresponding transcription factors and experiments confirming cooperative action between transcription factors. The COMPEL database, equipped with the search and browse tools, is available at http://www.gene-regulation.com/pub/databases.html#transcompel. Moreover, we have developed the program CATCH for searching potential CEs in DNA sequences. It is freely available as CompelPatternSearch at http://compel.bionet.nsc.ru/FunSite/CompelPatternSearch.html.

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A high throughput assay of lichenase activity with Congo red dye in plants

Tyurin

Suhorukova

Deineko

et al. 2021

Plant Methods

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Background Since the beginning of the use of reporter proteins for expression analysis, a variety of approaches have been developed and proposed; both qualitative and quantitative. The lack of simple methods for direct observation of gene expression in living organisms makes it necessary to continue to propose new methods. In this work, we consider a method for the quantitative analysis of the expression of thermostable lichenase from Clostridium thermocellum used as a sensitive reporter protein. Results In this study, we report the design a high throughput fluorometric method for quantification of thermostable lichenase C. thermocellum using Congo red and further experimental verification of its relevance and efficiency in assessment of the functional role of regulatory sequences in the plant cell. Conclusions The specific interaction between the dye Congo red and $$\beta$$ β -d-glucans formed the background for designing a high-throughput fluorometric assay for quantification of C. thermocellum thermostable lichenase as a reporter protein for plants. This assay (i) makes it possible to precisely measure the amount of reporter protein in a plant sample; (ii) has shown a high sensitivity for quantification of thermostable lichenase; (iii) is more time- and cost-efficient as compared with the Somogyi–Nelson assay; and (iv) is to the least degree dependent on the presence of the tested buffer components as compared with the Somogyi–Nelson assay.

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Regulatory Contexts in the 5'-Region of mRNA from Arabidopsis thaliana Plants and Their Role in Translation Efficiency

Кабардаева

Turin

Kouchoro

et al. 2020

Russ J Plant Physiol

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A High Throughput Assay of Lichenase Activity with Congo Red Dye in Plants

Tyurin

Suhorukova

Deineko

et al. 2021

Preprint

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Background : To elucidate the functional role of regulatory sequences and contexts identified and predicted during omics studies in the complex mechanisms of gene expression regulation, experimental verification methods in a plant cell are required. For this, the method of transient expression of reporter genes fused with the tested sequences is widely used. Several reporter systems are available that have shown good performance in the studies including the thermostable lichenase Clostridium thermocellum . However, each reporter system has its own limitations with respect to the quantification of the protein product of a reporter gene and, in particular, for the use of high-throughput approaches. Results: In this study, we report the design a high throughput fluorometric method for quantification of thermostable lichenase C. thermocellum using Congo red and further experimental verification of its relevance and efficiency in assessment of the functional role of regulatory sequences in the plant cell. Conclusion: The specific interaction between the dye Congo red and β -D-glucans formed the background for designing a high-throughput fluorometric assay for quantification of C. thermocellum thermostable lichenase as a reporter protein for plants. This assay (i) makes it possible to precisely measure the amount of reporter protein in a plant sample; (ii) has shown a high sensitivity for quantification of thermostable lichenase; (iii) is more time- and cost-efficient as compared with the Somogyi–Nelson assay; and (iv) is to the least degree dependent on the presence of the tested buffer components as compared with the Somogyi–Nelson assay.

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JetGene: Internet Resource for Analysis of Regulatory Regions or Nucleotide Contexts in Differentially Translated Plant Transcripts

Sadovskaya

Mustafaev

Tyurin

et al. 2021

Russ J Plant Physiol

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I. V. Deineko

TRANSCompel(R): a database on composite regulatory elements in eukaryotic genes

A high throughput assay of lichenase activity with Congo red dye in plants

Regulatory Contexts in the 5'-Region of mRNA from Arabidopsis thaliana Plants and Their Role in Translation Efficiency

A High Throughput Assay of Lichenase Activity with Congo Red Dye in Plants

JetGene: Internet Resource for Analysis of Regulatory Regions or Nucleotide Contexts in Differentially Translated Plant Transcripts

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