Donghua Su scite author profile

Donghua Su

3Publications

8Citation Statements Received

72Citation Statements Given

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Chinese PLA General Hospital

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Identification of ssDNA aptamers specific to clinical isolates of <italic>Streptococcus mutans</italic> strains with different cariogenicity

Cui¹,

Liu²,

Su³

et al. 2016

ABBS

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Streptococcus mutans, a Gram-positive facultative anaerobic bacterium, is considered to be a major etiological factor for dental caries. In this study, plaques from dental enamel surfaces of caries-active and caries-free individuals were obtained and cultivated for S. mutans isolation. Morphology examination, biochemical characterization, and polymerase chain reaction were performed to identify S. mutans. The cariogenicity of S. mutans strains isolated from clinical specimens was evaluated by testing the acidogenicity, aciduricity, extracellular polysaccharide production, and adhesion ability of the bacteria. Finally, subtractive SELEX (systematic evolution of ligands by exponential enrichment) technology targeting whole intact cells was used to screen for ssDNA aptamers specific to the strains with high cariogenicity. After nine rounds of subtractive SELEX, sufficient pool enrichment was achieved as shown by radioactive isotope analysis. The enriched pool was cloned and sequenced randomly, followed by MEME online and RNA structure software analysis of the sequences. Results from the flow cytometry indicated that aptamers H1, H16, H4, L1, L10, and H19 could discriminate highly cariogenic S. mutans strains from poorly cariogenic strains. Among these, Aptamer H19 had the strongest binding capacity with cariogenic S. mutans strains with a dissociation constant of 69.45 ± 38.53 nM. In conclusion, ssDNA aptamers specific to highly cariogenic clinical S. mutans strains were successfully obtained. These ssDNA aptamers might be used for the early diagnosis and treatment of dental caries.

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Dissection of the Functional Structure of Aptamer17, Which Specifically Recognizes Differentiated PC12 Cells

Liu

Wang

et al. 2011

Nucleic Acid Therapeutics

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A specific single-stranded DNA (ssDNA) aptamer (aptamer17) that specifically recognizes differentiated PC12 cells had been previously obtained after 6 rounds of whole cell-based subtractive systematic evolution of ligands by exponential enrichment selection from a random ssDNA library. To further investigate the relationship between the structure and function of this aptamer, 3 truncated ssDNA aptamers were designed according to the predicted secondary structure of aptamer17. Our results show that the stem-loop is the core structure of the aptamers required for specific binding to differentiated PC12 cells, specifically loops I and II. Aptamer17 and the truncated aptamers with this basic structure could bind specifically to differentiated PC12 cells and identify these cells from a mixture of differentiated and undifferentiated PC12 cells. Therefore, truncated forms of aptamer17 may be useful in the clinic to identify undifferentiated and differentiated PC12 cells from a mixture of cells.

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Dissection of the Functional Structure of Aptamer17, Which Specifically Recognizes Differentiated PC12 Cells

Liu¹,

Wang²,

Xi³

et al. 2011

Oligonucleotides

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Donghua Su

Identification of ssDNA aptamers specific to clinical isolates of <italic>Streptococcus mutans</italic> strains with different cariogenicity

Dissection of the Functional Structure of Aptamer17, Which Specifically Recognizes Differentiated PC12 Cells

Dissection of the Functional Structure of Aptamer17, Which Specifically Recognizes Differentiated PC12 Cells

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Donghua Su

Identification of ssDNA aptamers specific to clinical isolates of &lt;italic&gt;Streptococcus mutans&lt;/italic&gt; strains with different cariogenicity

Dissection of the Functional Structure of Aptamer17, Which Specifically Recognizes Differentiated PC12 Cells

Dissection of the Functional Structure of Aptamer17, Which Specifically Recognizes Differentiated PC12 Cells

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Identification of ssDNA aptamers specific to clinical isolates of <italic>Streptococcus mutans</italic> strains with different cariogenicity