A series of new dansylamide derivatives have been synthesized and the specific bindingaffinity of such fluorophores to nucleic acids has been investigated by using absorption, circulardichroism (CD), fluorescence and ...A series of new dansylamide derivatives have been synthesized and the specific bindingaffinity of such fluorophores to nucleic acids has been investigated by using absorption, circulardichroism (CD), fluorescence and atomic force microscopy (AFM). The results indicate that thepositive charge of the ligand and the stacking between the dansy1 part of the ligand and theDNA base pair may play an important role when binding to polynucleotides.展开更多
Nucleic acid-based bioactive substances have recently emerged as a new class of nextgeneration therapeutics, but their development has been limited by their relatively weakdelivery into target cells. Cationic liposome...Nucleic acid-based bioactive substances have recently emerged as a new class of nextgeneration therapeutics, but their development has been limited by their relatively weakdelivery into target cells. Cationic liposomes have been studied as a means to enhance thestability of nucleic acid therapeutics in the bloodstream and improve their cellular delivery.As nucleic acid therapeutics, siRNA and plasmid DNA have been extensively tested fordelivery using cationic liposomes. This review discusses recent progress in the applicationof cationic liposomes for the delivery of nucleic acid therapeutics.展开更多
By making use of the fluorescence quenching properties of safranine T(ST) in its long range assembly on the molecular surfaces of nucleic acids, the assembly number and constant of ST with calf thymus DNA, fish sperm ...By making use of the fluorescence quenching properties of safranine T(ST) in its long range assembly on the molecular surfaces of nucleic acids, the assembly number and constant of ST with calf thymus DNA, fish sperm DNA and yeast RNA were determined at 12℃. The corresponding free energy change, enthalpy change and entropy change of the long range assembly were calculated at the same temperature. It was found the assembly complexes are very stable and the assembly is a spontaneous process characterized an entropy increase.展开更多
The present paper covers electronic structures and spectra of the bases and the base pairs of nucleic acids calculated by using the INDO/S method. For free bases we give the energy levels of ground states and transiti...The present paper covers electronic structures and spectra of the bases and the base pairs of nucleic acids calculated by using the INDO/S method. For free bases we give the energy levels of ground states and transition energies of low-lying excited states and discuss the band characters. The results indicate that the calculated spectra are in good agreement with experimental values. On the other hand, our calculations for A-T and G-C pairs are very beneficial to understanding hydrogen bond properties of these pairs.展开更多
To investigate the effects of anti-sense peptide nucleic acids (PNAs) targeting Ki-67 gene on modulation of the proliferation and apoptosis of human renal carcinoma cell lines, human renal carcinoma cell line 786-0 ...To investigate the effects of anti-sense peptide nucleic acids (PNAs) targeting Ki-67 gene on modulation of the proliferation and apoptosis of human renal carcinoma cell lines, human renal carcinoma cell line 786-0 cells were treated with anti-sense PNAs at different concentrations (1.0 μmol/L, 2.0 μmol/L, 10.0 μmol/L). The Ki-67 expression of 786-0 cells was detected by immunohistochemical technique and Western blot method respectively. The proliferation of 786-0 cells was studied by cell growth curves and ^3H-thymidine incorporation. The apoptosis of 786-0 cells was detected by TUNEL assay. The control groups were treated with anti-sense oligonucleotide (ASODNs) targeting Ki-67 gene. Our results showed that the Ki-67 expression of 786-0 cells treated with anti-sense PNAs (16.9±0.7) was significantly inhibited as compared with that of the control groups (28.6±0.4) (P〈0.01). The Ki-67 protein rate of 786-0 cells treated with anti-sense PNAs (42.1 ±2.2) was significantly reduced when compared with that of the control groups (83.6± 1.4) (P〈0.01). Proliferation of 786-0 cells treated with anti-sense PNAs (20.7 ± 1.5) was significantly inhibited as compared with that of the control groups (58.6± 1.4) (P〈0.01). The apoptosis rate of 786-0 cells treated with anti-sense PNAs (28.7 ± 2.3) was significantly increased higher compared with that of the control groups (13.8 ±1.0) (P〈0.01). From these finds we are led to conclude that anti-sense PNAs targeting Ki-67 gene have stronger effects on the inhibition of the proliferation and induction of apoptosis of human renal carcinoma cells than ASODNs targeting Ki-67 gene. The strategies using anti-sense PNAs targeting Ki-67 gene may be a promising approach for the treatment of renal cell carcinoma.展开更多
<em>Background:</em> Antisense peptide nucleic acids (PNAs) exhibit growth inhibitory effects on bacteria by inhibiting the expression of essential genes and could be promising therapeutic agents for treat...<em>Background:</em> Antisense peptide nucleic acids (PNAs) exhibit growth inhibitory effects on bacteria by inhibiting the expression of essential genes and could be promising therapeutic agents for treating bacterial infections. A study was carried out to determine the efficacy of several antisense PNAs in inhibiting extracellular and intracellular growth of <em>Mycobacterium smegmatis</em>. <em>Methods: </em>Six PNAs obtained from a commercial supplier were tested to evaluate the inhibitory effect on bacterial growth by inhibiting the expression of the following essential genes: <em>inhA </em>(a fatty acid elongase), <em>rpsL</em> (ribosomal S12 protein), <em>gyrA</em> (DNA gyrase), <em>pncA</em> (pyrazinamidase), <em>polA</em> (DNA polymerase I) and <em>rpoC</em> (RNA polymerase <em>β</em> subunit) of <em>M. smegmatis</em>. Each PNA was tested at 20 μM, 10 μM, 5 μM and 2.5 μM concentrations to determine whether they caused a dose dependent killing of <em>M. smegmatis</em> cultured in Middlebrook 7H9 broth or in a J774A.1 murine macrophage cell line.<em> Results:</em> In Middlebrook broth, the strong growth inhibitory effect against <em>M. smegmatis</em> was observed by PNAs targeting the <em>inhA </em>and <em>rpsL</em> genes at all four concentrations. The PNAs targeting the<em> pncA</em>, <em>polA</em> and<em> rpoC</em> genes were found to exhibit strong growth inhibition against <em>M. smegmatis</em> but only at 20 μM concentration. No growth inhibition of <em>M. smegmatis </em>was seen in pure culture when treated with PNAs targeting gyrA and a mismatch PNA targeting dnaG (DNA primase). All six PNAs showed killing of <em>M. smegmatis </em>in J774A.1 macrophage cell line that were statistically significant (p < 0.05). <em>Conclusion:</em> It may be concluded from this study that PNAs could be potential therapeutics for mycobacterial infections.展开更多
The hyperplasia and destruction of synovial tissue have an important impact on the development of rheumatoid arthritis(RA), the abnormal proliferation and migration of synovial fibroblast in synovial tissue is similar...The hyperplasia and destruction of synovial tissue have an important impact on the development of rheumatoid arthritis(RA), the abnormal proliferation and migration of synovial fibroblast in synovial tissue is similar to tumor cells. Targeting anomalous synovial fibroblast and designing a high bioavailability nano drug delivery system can reduce the dosage for the treatment of rheumatoid arthritis and it is of great significance to reduce toxic and side effects and improve curative effect. In this experiment, the nobiletin-loaded tetrahedral framework nucleic acids cargo tank was established, carrying antiinflammatory small molecule monomer drug nobiletin with minimal bioavailability. Both in vitro cell experiments and in vivo animal studies proved the nano cargo tank enhance the role of nobiletin in reducing the invasiveness of pathological synovial fibroblast and promote their apoptosis, effectively alleviate the disease development of rheumatoid arthritis.展开更多
Cognitive impairment often occurs after post traumatic brain injury. In addition, recovery of cognitive impairment is largely dependent on spontaneous repair and the severity of secondary insult. The tetrahedral frame...Cognitive impairment often occurs after post traumatic brain injury. In addition, recovery of cognitive impairment is largely dependent on spontaneous repair and the severity of secondary insult. The tetrahedral framework nucleic acid is a novel nanostructure has been shown to have a positive biological effect in promoting regeneration and anti-inflammation. To explore the treatment effect of tetrahedral framework nucleic acids for cognitive impairment recovery post traumatic brain injury, we established a mouse model of traumatic brain injury and verified the efficacy of tetrahedral framework nucleic acids in promoting cognitive impairment recovery post traumatic brain injury. The results show that the tetrahedral framework nucleic acids promoted the recovery of post-traumatic cognitive function by enhancing the proliferation of endogenous neural stem cells. Besides, tetrahedral framework nucleic acids modulated the neuroinflammatory response in the acute phase by inhibiting excessive astrocyte and microglial activation. Taken together, the results of the study indicate tetrahedral framework nucleic acids for treatment of cognitive impairment post traumatic brain injury.展开更多
DNA circuits based on toehold-mediated DNA strand displacement reaction are powerful tools owing to their programmability and predictability.However,performance and practical application of the circuits are greatly re...DNA circuits based on toehold-mediated DNA strand displacement reaction are powerful tools owing to their programmability and predictability.However,performance and practical application of the circuits are greatly restricted by leakage,which refers to the fact that there is no input(invading strand)in the circuit,and the output signal is still generated.Herein,we constructed locked nucleic acids-based DNA circuits with ultra-low leakage.High binding affinity of LNA(locked nucleic acid)-DNA/LNA suppressed the leakage by inhibiting the breathing effect.Based on the strategy,we have built various low-leakage DNA circuits,including translator circuit,catalytic hairpin assembly(CHA)circuit,entropy-driven circuit(EDC),and seesaw circuit.More importantly,our strategy would not affect the desired main reactions:The output signal remained above 85%for all tested circuits,and the signalto-noise ratios were elevated to 148.8-fold at the most.We believe our strategy will greatly promote the development and application of DNA circuits-based DNA nanotechnology.展开更多
Mercury is a threatening pollutant in food,herein,we developed a Tb^(3+)-nucleic acid probe-based label-free assay for mix-and-read,rapid detection of mercury pollution.The assay utilized the feature of light-up fluor...Mercury is a threatening pollutant in food,herein,we developed a Tb^(3+)-nucleic acid probe-based label-free assay for mix-and-read,rapid detection of mercury pollution.The assay utilized the feature of light-up fluorescence of terbium ions(Tb^(3+))via binding with single-strand DNA.Mercury ion,Hg^(2+)induced thymine(T)-rich DNA strand to form a double-strand structure(T-Hg^(2+)-T),thus leading to fluorescence reduction.Based on the principle,Hg^(2+)can be quantified based on the fluorescence of Tb^(3+),the limit of detection was 0.0689μmol/L and the linear range was 0.1-6.0μmol/L.Due to the specificity of T-Hg^(2+)-T artificial base pair,the assay could distinguish Hg^(2+)from other metal ions.The recovery rate was ranged in 98.71%-101.34%for detecting mercury pollution in three food samples.The assay is low-cost,separation-free and mix-to-read,thus was a competitive tool for detection of mercury pollution to ensure food safety.展开更多
Objective To develop a highly sensitive and rapid nucleic acid detection method for the severe acute respiratory syndrome coronavirus 2(SARS-CoV-2).Methods We designed,developed,and manufactured an integrated disposab...Objective To develop a highly sensitive and rapid nucleic acid detection method for the severe acute respiratory syndrome coronavirus 2(SARS-CoV-2).Methods We designed,developed,and manufactured an integrated disposable device for SARS-CoV-2 nucleic acid extraction and detection.The precision of the liquid transfer and temperature control was tested.A comparison between our device and a commercial kit for SARS-Cov-2 nucleic acid extraction was performed using real-time fluorescence reverse transcription polymerase chain reaction(RT-PCR).The entire process,from SARS-CoV-2 nucleic acid extraction to amplification,was evaluated.Results The precision of the syringe transfer volume was 19.2±1.9μL(set value was 20),32.2±1.6(set value was 30),and 57.2±3.5(set value was 60).Temperature control in the amplification tube was measured at 60.0±0.0℃(set value was 60)and 95.1±0.2℃(set value was 95)respectively.SARS-Cov-2 nucleic acid extraction yield through the device was 7.10×10^(6) copies/mL,while a commercial kit yielded 2.98×10^(6) copies/mL.The mean time to complete the entire assay,from SARS-CoV-2 nucleic acid extraction to amplification detection,was 36 min and 45 s.The detection limit for SARS-CoV-2 nucleic acid was 250 copies/mL.Conclusion The integrated disposable devices may be used for SARS-CoV-2 Point-of-Care test(POCT).展开更多
Background Peptide nucleic acid (PNA) has many characteristics useful in molecular biology. This paper described an effective way to raise the cell ingestion rate of PNA so as to kill gastric cancer cells. Methods H...Background Peptide nucleic acid (PNA) has many characteristics useful in molecular biology. This paper described an effective way to raise the cell ingestion rate of PNA so as to kill gastric cancer cells. Methods Heteroduplexes of PNAs and oligonucleotides, wrapped by Lipofectamine 2000, were used to infect SGC7901 cells. The inhibitive effect of heteroduplexes was evaluated by analyzing cell clone forming and cell growth rate. Telomerase activity of SGC7901 cells was detected by polymerase chain reaction enzyme-linked immunosorbent assay (PCR-ELISA) and silver staining assay.Results PNAs showed a dose-dependent inhibition of cell proliferation. The percentage of proliferation inhibition was 99.4% after 7 days; the rate of cloning inhibition was 98.2% after 8 days; whereas for oligonucleotide groups, at the same concentration, the percentages were 50.1% and 67.5% respectively. Antisense PNA-DNA-Lipofectamine 2000 group (AP-D-L group) exhibited significantly different percentages from the control groups (P<0.05). The test result indicated that telomerase activity of the AP-D-L group was inhibited (P<0.05). At the same time, the impact on cell morphology was observed. Conclusions The results showed that PNAs are potent antisense reagents. The telomerase-associated therapies are very promising for the treatment of malignant tumours.展开更多
Erythromycin is a commonly used broad-spectrum antibiotic,but resistance to this antibiotic makes its use less effective.Considerable efforts,beside finding alternatives,are needed to enhance its antimicrobial effect ...Erythromycin is a commonly used broad-spectrum antibiotic,but resistance to this antibiotic makes its use less effective.Considerable efforts,beside finding alternatives,are needed to enhance its antimicrobial effect and stability against bacteria.Tetrahedral framework nucleic acids(tFNAs),a novel delivery vehicle with a three-dimensional nanostructure,have been studied as a carrying platform of antineoplastic drugs.In this study,the use of tFNAs in delivering erythromycin into Escherichia coli(E.coli)was investigated for the first time.The tFNAs vehicle increased the bacterial uptake of erythromycin and promoted membrane destabilization.Moreover,it increased the permeability of the bacterial cell wall,and reduced drug resistance by improving the movement of the drug across the membrane.The tFNAs-based delivery system enhanced the effects of erythromycin against E.coli.It may therefore provide an effective delivery vehicle for erythromycin in targeting antibiotic-resistant bacteria with thick cell wall.展开更多
Nucleic acids are natural biopolymers of nucleotides that store, encode, transmit and express genetic information, which play central roles in diverse cellular events and diseases in living things. The analysis of nuc...Nucleic acids are natural biopolymers of nucleotides that store, encode, transmit and express genetic information, which play central roles in diverse cellular events and diseases in living things. The analysis of nucleic acids and nucleic acids-based analysis have been widely applied in biological studies, clinical diagnosis, environmental analysis, food safety and forensic analysis.During the past decades, the field of nucleic acids analysis has been rapidly advancing with many technological breakthroughs.In this review, we focus on the methods developed for analyzing nucleic acids, nucleic acids-based analysis, device for nucleic acids analysis, and applications of nucleic acids analysis. The representative strategies for the development of new nucleic acids analysis in this field are summarized, and key advantages and possible limitations are discussed. Finally, a brief perspective on existing challenges and further research development is provided.展开更多
Nucleic acids-based functional nanomaterials in biological imaging have drawn more and more attention in recent years.The rapid development of various nanomaterials provides nucleic acids more possibility to achieve t...Nucleic acids-based functional nanomaterials in biological imaging have drawn more and more attention in recent years.The rapid development of various nanomaterials provides nucleic acids more possibility to achieve the recognition and bioimaging of different small moleculars in living cells.Coupling of nucleic acids and various nanomaterials obviously enhances the cell uptake efficiency of nucleic acids and the signal amplification strategies of nucleic acids have successfully expanded the applications of nucleic acids-based functional nanomaterials for the detection of trace small molecules in living cells,like microRNAs,proteins,and so on.This review summarizes the recent progresses of nucleic acids-based functional nanomaterials in the application of bioimaging with different amplification mechanism and the recent rapid development of stimulate-response nucleic acids-based nanomaterial for time-spatial controlled imaging of intracellular targets.The advantages of these nucleic acids-based functional nanomaterials and possibility of future development of bioimaging are discussed from the perspective of biological imaging.展开更多
DNA is a biological polymer that encodes and stores genetic information in all living organism. Particularly, the precise nucleobase pairing inside DNA is exploited for the self-assembling of nanostructures with defin...DNA is a biological polymer that encodes and stores genetic information in all living organism. Particularly, the precise nucleobase pairing inside DNA is exploited for the self-assembling of nanostructures with defined size, shape and functionality. These DNA nanostructures are known as framework nucleic acids(FNAs) for their skeleton-like features. Recently, FNAs have been explored in various fields ranging from physics, chemistry to biology. In this review, we mainly focus on the recent progress of FNAs in a pharmaceutical perspective. We summarize the advantages and applications of FNAs for drug discovery, drug delivery and drug analysis. We further discuss the drawbacks of FNAs and provide an outlook on the pharmaceutical research direction of FNAs in the future.展开更多
One of the critical problems in bladder cancer(BC)management is the local recurrence of disease.However,achieving the accurate delineation of tumor margins intraoperatively remains extremely difficult due to the lack ...One of the critical problems in bladder cancer(BC)management is the local recurrence of disease.However,achieving the accurate delineation of tumor margins intraoperatively remains extremely difficult due to the lack of effective tumor margin recognition technology.Herein,survivin molecular beacon(MB)and R11 peptide-linked spherical nucleic acids(SNAs)were synthesized as nanoprobes(AuNP-MB@R11)for sensitive detection of BC margins.Physicochemical properties proved that R11 peptides and survivin MB were successfully loaded onto the surface of SNAs.AuNP-MB@R11 had good stability against nuclease activity and high sensitivity and specificity to detect survivin single strand DNA(ssDNA)in vitro.According to cytology,R11 peptides could increase the BC targeting ability and membrane penetrability of SNAs.Notably,R11 peptides significantly promoted the disintegration of lysosomes and the release of SNAs to enhance fluorescence imaging quality.Further RNA sequencing proved that some genes and pathways related to endocytosis and lysosomes were significantly regulated,such as AGPAT5,GPD1L,and GRB2.In orthotopic BC models and a clinical sample from a patient with BC,AuNP-MB@R11 showed a more legible cancerous fluorescence margin and offered remarkably improved detection compared to those achieved by SNAs.R11 peptide-linked SNAs present promising potential to identify BC margin,which may help to improve the R0 resection rate in surgery and improve patients’quality of life.展开更多
Many recent studies have shown that joint-resident mesenchymal stem cells(MSCs)play a vital role in articular cartilage(AC)in situ regeneration.Specifically,synovium-derived MSCs(SMSCs),which have strong chondrogenic ...Many recent studies have shown that joint-resident mesenchymal stem cells(MSCs)play a vital role in articular cartilage(AC)in situ regeneration.Specifically,synovium-derived MSCs(SMSCs),which have strong chondrogenic differentiation potential,may be the main driver of cartilage repair.However,both the insufficient number of MSCs and the lack of an ideal regenerative microenvironment in the defect area will seriously affect the regeneration of AC.Tetrahedral framework nucleic acids(tFNAs),notable novel nanomaterials,are considered prospective biological regulators in biomedical engineering.Here,we aimed to explore whether tFNAs have positive effects on AC in situ regeneration and to investigate the related mechanism.The results of in vitro experiments showed that the proliferation and migration of SMSCs were significantly enhanced by tFNAs.In addition,tFNAs,which were added to chondrogenic induction medium,were shown to promote the chondrogenic capacity of SMSCs by increasing the phosphorylation of Smad2/3.In animal models,the injection of tFNAs improved the therapeutic outcome of cartilage defects compared with that of the control treatments without tFNAs.In conclusion,this is the first report to demonstrate that tFNAs can promote the chondrogenic differentiation of SMSCs in vitro and enhance AC regeneration in vivo,indicating that tFNAs may become a promising therapeutic for AC regeneration.展开更多
A reliable and sensitive strategy which can assess nucleic acid levels in living cells would be essential for fundamental research of biomedical applications. Some nanomaterial-based fluorescence biosensors recently d...A reliable and sensitive strategy which can assess nucleic acid levels in living cells would be essential for fundamental research of biomedical applications. Some nanomaterial-based fluorescence biosensors recently developed for detecting nucleic acids, however, are often with expensive, complicated and timeconsuming preparation process. Here, by using a facile bottom-up synthesis method, a two-dimensional(2 D) coordination polymer(CP) nanosheet, [Cu(tz)](Htz = 1,2,4-triazole), was successfully prepared after optimizing reaction conditions. These ultrathin CP nanosheets with thickness of 4.7 ± 1.1 nm could readily form nanosensors by assembly with DNA probes, which exhibited a low limit of detection(LOD)for p53 DNA fragment as 144 pmol/L. Furthermore, by integrating [Cu(tz)] nanosheets with hybridization chain reaction(HCR) probes, mi R-21, one kind of micro RNA upregulated in many cancer cells, can be sensitively detected with a LOD of 100 pmol/L and monitored in living cells, giving consistent results with those obtained by quantitative reverse-transcription polymerase chain reaction(q RT-PCR) analysis.Thus [Cu(tz)] nanosheets, which not only possess much better nucleic acids sensing performance than bulk cystals, but also exhibit nucleic acid delivery functions, could be used as a novel nanoplatform in biomedical imaging and sensing applications.展开更多
N-Boc protected amino acids of analogues of peptide nucleic add (PNA), which are a class of conformationally constrained building blocks based on 4-aminoproline backbone with chirality at 2-C and 4-C, have been synthe...N-Boc protected amino acids of analogues of peptide nucleic add (PNA), which are a class of conformationally constrained building blocks based on 4-aminoproline backbone with chirality at 2-C and 4-C, have been synthesized. Those monomers can be used for the construction of novel peptide nucleic acid analogues.展开更多
文摘A series of new dansylamide derivatives have been synthesized and the specific bindingaffinity of such fluorophores to nucleic acids has been investigated by using absorption, circulardichroism (CD), fluorescence and atomic force microscopy (AFM). The results indicate that thepositive charge of the ligand and the stacking between the dansy1 part of the ligand and theDNA base pair may play an important role when binding to polynucleotides.
基金This work was supported by Research Settlement Fund for the new faculty of Seoul National University,and grants from Ministry of Science,ICT and Future Planning(No.2013035166)from Business for Cooperative R&D between Industry,Academy,and Research Institute funded Korea Small and Medium Business Administration in 2012(No.C0010962).
文摘Nucleic acid-based bioactive substances have recently emerged as a new class of nextgeneration therapeutics, but their development has been limited by their relatively weakdelivery into target cells. Cationic liposomes have been studied as a means to enhance thestability of nucleic acid therapeutics in the bloodstream and improve their cellular delivery.As nucleic acid therapeutics, siRNA and plasmid DNA have been extensively tested fordelivery using cationic liposomes. This review discusses recent progress in the applicationof cationic liposomes for the delivery of nucleic acid therapeutics.
文摘By making use of the fluorescence quenching properties of safranine T(ST) in its long range assembly on the molecular surfaces of nucleic acids, the assembly number and constant of ST with calf thymus DNA, fish sperm DNA and yeast RNA were determined at 12℃. The corresponding free energy change, enthalpy change and entropy change of the long range assembly were calculated at the same temperature. It was found the assembly complexes are very stable and the assembly is a spontaneous process characterized an entropy increase.
文摘The present paper covers electronic structures and spectra of the bases and the base pairs of nucleic acids calculated by using the INDO/S method. For free bases we give the energy levels of ground states and transition energies of low-lying excited states and discuss the band characters. The results indicate that the calculated spectra are in good agreement with experimental values. On the other hand, our calculations for A-T and G-C pairs are very beneficial to understanding hydrogen bond properties of these pairs.
基金This project was supported by a grant from the Nature Science Project of Health Bureau of Jiangsu Province (No. H200153).
文摘To investigate the effects of anti-sense peptide nucleic acids (PNAs) targeting Ki-67 gene on modulation of the proliferation and apoptosis of human renal carcinoma cell lines, human renal carcinoma cell line 786-0 cells were treated with anti-sense PNAs at different concentrations (1.0 μmol/L, 2.0 μmol/L, 10.0 μmol/L). The Ki-67 expression of 786-0 cells was detected by immunohistochemical technique and Western blot method respectively. The proliferation of 786-0 cells was studied by cell growth curves and ^3H-thymidine incorporation. The apoptosis of 786-0 cells was detected by TUNEL assay. The control groups were treated with anti-sense oligonucleotide (ASODNs) targeting Ki-67 gene. Our results showed that the Ki-67 expression of 786-0 cells treated with anti-sense PNAs (16.9±0.7) was significantly inhibited as compared with that of the control groups (28.6±0.4) (P〈0.01). The Ki-67 protein rate of 786-0 cells treated with anti-sense PNAs (42.1 ±2.2) was significantly reduced when compared with that of the control groups (83.6± 1.4) (P〈0.01). Proliferation of 786-0 cells treated with anti-sense PNAs (20.7 ± 1.5) was significantly inhibited as compared with that of the control groups (58.6± 1.4) (P〈0.01). The apoptosis rate of 786-0 cells treated with anti-sense PNAs (28.7 ± 2.3) was significantly increased higher compared with that of the control groups (13.8 ±1.0) (P〈0.01). From these finds we are led to conclude that anti-sense PNAs targeting Ki-67 gene have stronger effects on the inhibition of the proliferation and induction of apoptosis of human renal carcinoma cells than ASODNs targeting Ki-67 gene. The strategies using anti-sense PNAs targeting Ki-67 gene may be a promising approach for the treatment of renal cell carcinoma.
文摘<em>Background:</em> Antisense peptide nucleic acids (PNAs) exhibit growth inhibitory effects on bacteria by inhibiting the expression of essential genes and could be promising therapeutic agents for treating bacterial infections. A study was carried out to determine the efficacy of several antisense PNAs in inhibiting extracellular and intracellular growth of <em>Mycobacterium smegmatis</em>. <em>Methods: </em>Six PNAs obtained from a commercial supplier were tested to evaluate the inhibitory effect on bacterial growth by inhibiting the expression of the following essential genes: <em>inhA </em>(a fatty acid elongase), <em>rpsL</em> (ribosomal S12 protein), <em>gyrA</em> (DNA gyrase), <em>pncA</em> (pyrazinamidase), <em>polA</em> (DNA polymerase I) and <em>rpoC</em> (RNA polymerase <em>β</em> subunit) of <em>M. smegmatis</em>. Each PNA was tested at 20 μM, 10 μM, 5 μM and 2.5 μM concentrations to determine whether they caused a dose dependent killing of <em>M. smegmatis</em> cultured in Middlebrook 7H9 broth or in a J774A.1 murine macrophage cell line.<em> Results:</em> In Middlebrook broth, the strong growth inhibitory effect against <em>M. smegmatis</em> was observed by PNAs targeting the <em>inhA </em>and <em>rpsL</em> genes at all four concentrations. The PNAs targeting the<em> pncA</em>, <em>polA</em> and<em> rpoC</em> genes were found to exhibit strong growth inhibition against <em>M. smegmatis</em> but only at 20 μM concentration. No growth inhibition of <em>M. smegmatis </em>was seen in pure culture when treated with PNAs targeting gyrA and a mismatch PNA targeting dnaG (DNA primase). All six PNAs showed killing of <em>M. smegmatis </em>in J774A.1 macrophage cell line that were statistically significant (p < 0.05). <em>Conclusion:</em> It may be concluded from this study that PNAs could be potential therapeutics for mycobacterial infections.
基金supported by the National Key R&D Program of China (No. 2019YFA0110600)National Natural Science Foundation of China (Nos. 82171006, 81970986)Sichuan Province Youth Science and Technology Innovation Team (No. 2022JDTD0021)。
文摘The hyperplasia and destruction of synovial tissue have an important impact on the development of rheumatoid arthritis(RA), the abnormal proliferation and migration of synovial fibroblast in synovial tissue is similar to tumor cells. Targeting anomalous synovial fibroblast and designing a high bioavailability nano drug delivery system can reduce the dosage for the treatment of rheumatoid arthritis and it is of great significance to reduce toxic and side effects and improve curative effect. In this experiment, the nobiletin-loaded tetrahedral framework nucleic acids cargo tank was established, carrying antiinflammatory small molecule monomer drug nobiletin with minimal bioavailability. Both in vitro cell experiments and in vivo animal studies proved the nano cargo tank enhance the role of nobiletin in reducing the invasiveness of pathological synovial fibroblast and promote their apoptosis, effectively alleviate the disease development of rheumatoid arthritis.
基金supported by the National Key R&D Program of China (No. 2019YFA0110600)the National Natural Science Foundation of China (Nos. 81970916, 81971295, 92001216, 82171355)+2 种基金the China Postdoctoral Science Foundation (No. 2021M700699)Sichuan Province Youth Science and Technology Innovation Team (No. 2022JDTD0021)Research Funding from West China School/Hospital of Stomatology Sichuan University (No.RCDWJS2021–20)。
文摘Cognitive impairment often occurs after post traumatic brain injury. In addition, recovery of cognitive impairment is largely dependent on spontaneous repair and the severity of secondary insult. The tetrahedral framework nucleic acid is a novel nanostructure has been shown to have a positive biological effect in promoting regeneration and anti-inflammation. To explore the treatment effect of tetrahedral framework nucleic acids for cognitive impairment recovery post traumatic brain injury, we established a mouse model of traumatic brain injury and verified the efficacy of tetrahedral framework nucleic acids in promoting cognitive impairment recovery post traumatic brain injury. The results show that the tetrahedral framework nucleic acids promoted the recovery of post-traumatic cognitive function by enhancing the proliferation of endogenous neural stem cells. Besides, tetrahedral framework nucleic acids modulated the neuroinflammatory response in the acute phase by inhibiting excessive astrocyte and microglial activation. Taken together, the results of the study indicate tetrahedral framework nucleic acids for treatment of cognitive impairment post traumatic brain injury.
基金This work was financially supported by the National Key Research and Development Program of China(No.2021YFC2701402)the National Natural Science Foundation of China(No.81871732)+2 种基金the Open Research Fund of State Key Laboratory of Bioelectronics,South-east University(No.Sklb2021-k06)the Open Project Fund from NHC Key Lab of Reproduction Regulation(No.KF2021-02)the Open Research Fund of State Key Laboratory of Advanced Technology for Materials Synthesis and Processing(Wuhan University of Technology,No.2022-KF-2).
文摘DNA circuits based on toehold-mediated DNA strand displacement reaction are powerful tools owing to their programmability and predictability.However,performance and practical application of the circuits are greatly restricted by leakage,which refers to the fact that there is no input(invading strand)in the circuit,and the output signal is still generated.Herein,we constructed locked nucleic acids-based DNA circuits with ultra-low leakage.High binding affinity of LNA(locked nucleic acid)-DNA/LNA suppressed the leakage by inhibiting the breathing effect.Based on the strategy,we have built various low-leakage DNA circuits,including translator circuit,catalytic hairpin assembly(CHA)circuit,entropy-driven circuit(EDC),and seesaw circuit.More importantly,our strategy would not affect the desired main reactions:The output signal remained above 85%for all tested circuits,and the signalto-noise ratios were elevated to 148.8-fold at the most.We believe our strategy will greatly promote the development and application of DNA circuits-based DNA nanotechnology.
基金financially supported by National Natural Science Foundation of China(22074100)the Young Elite Scientist Sponsorship Program by CAST(YESS20200036)+3 种基金the Researchers Supporting Project Number RSP-2021/138King Saud University,Riyadh,Saudi ArabiaTechnological Innovation R&D Project of Chengdu City(2019-YF05-31702266-SN)Sichuan University-Panzhihua City joint Project(2020CDPZH-5)。
文摘Mercury is a threatening pollutant in food,herein,we developed a Tb^(3+)-nucleic acid probe-based label-free assay for mix-and-read,rapid detection of mercury pollution.The assay utilized the feature of light-up fluorescence of terbium ions(Tb^(3+))via binding with single-strand DNA.Mercury ion,Hg^(2+)induced thymine(T)-rich DNA strand to form a double-strand structure(T-Hg^(2+)-T),thus leading to fluorescence reduction.Based on the principle,Hg^(2+)can be quantified based on the fluorescence of Tb^(3+),the limit of detection was 0.0689μmol/L and the linear range was 0.1-6.0μmol/L.Due to the specificity of T-Hg^(2+)-T artificial base pair,the assay could distinguish Hg^(2+)from other metal ions.The recovery rate was ranged in 98.71%-101.34%for detecting mercury pollution in three food samples.The assay is low-cost,separation-free and mix-to-read,thus was a competitive tool for detection of mercury pollution to ensure food safety.
基金supported by National Key R&D Program of China[2021YFC2301103 and 2022YFE0202600]Shenzhen Science and Technology Program[JSGG20220606142605011].
文摘Objective To develop a highly sensitive and rapid nucleic acid detection method for the severe acute respiratory syndrome coronavirus 2(SARS-CoV-2).Methods We designed,developed,and manufactured an integrated disposable device for SARS-CoV-2 nucleic acid extraction and detection.The precision of the liquid transfer and temperature control was tested.A comparison between our device and a commercial kit for SARS-Cov-2 nucleic acid extraction was performed using real-time fluorescence reverse transcription polymerase chain reaction(RT-PCR).The entire process,from SARS-CoV-2 nucleic acid extraction to amplification,was evaluated.Results The precision of the syringe transfer volume was 19.2±1.9μL(set value was 20),32.2±1.6(set value was 30),and 57.2±3.5(set value was 60).Temperature control in the amplification tube was measured at 60.0±0.0℃(set value was 60)and 95.1±0.2℃(set value was 95)respectively.SARS-Cov-2 nucleic acid extraction yield through the device was 7.10×10^(6) copies/mL,while a commercial kit yielded 2.98×10^(6) copies/mL.The mean time to complete the entire assay,from SARS-CoV-2 nucleic acid extraction to amplification detection,was 36 min and 45 s.The detection limit for SARS-CoV-2 nucleic acid was 250 copies/mL.Conclusion The integrated disposable devices may be used for SARS-CoV-2 Point-of-Care test(POCT).
基金ThisworkwassupportedbytheProvincialTechnologyCouncilFoundationofHeilongjiang China (No QC0 1C0 8andNo GC0 3C60 5 6)
文摘Background Peptide nucleic acid (PNA) has many characteristics useful in molecular biology. This paper described an effective way to raise the cell ingestion rate of PNA so as to kill gastric cancer cells. Methods Heteroduplexes of PNAs and oligonucleotides, wrapped by Lipofectamine 2000, were used to infect SGC7901 cells. The inhibitive effect of heteroduplexes was evaluated by analyzing cell clone forming and cell growth rate. Telomerase activity of SGC7901 cells was detected by polymerase chain reaction enzyme-linked immunosorbent assay (PCR-ELISA) and silver staining assay.Results PNAs showed a dose-dependent inhibition of cell proliferation. The percentage of proliferation inhibition was 99.4% after 7 days; the rate of cloning inhibition was 98.2% after 8 days; whereas for oligonucleotide groups, at the same concentration, the percentages were 50.1% and 67.5% respectively. Antisense PNA-DNA-Lipofectamine 2000 group (AP-D-L group) exhibited significantly different percentages from the control groups (P<0.05). The test result indicated that telomerase activity of the AP-D-L group was inhibited (P<0.05). At the same time, the impact on cell morphology was observed. Conclusions The results showed that PNAs are potent antisense reagents. The telomerase-associated therapies are very promising for the treatment of malignant tumours.
基金This study was funded by the National Key R&D Program of China[2019YFA0110600]and National Natural Science Foundation of China [81970916, 81671031].
文摘Erythromycin is a commonly used broad-spectrum antibiotic,but resistance to this antibiotic makes its use less effective.Considerable efforts,beside finding alternatives,are needed to enhance its antimicrobial effect and stability against bacteria.Tetrahedral framework nucleic acids(tFNAs),a novel delivery vehicle with a three-dimensional nanostructure,have been studied as a carrying platform of antineoplastic drugs.In this study,the use of tFNAs in delivering erythromycin into Escherichia coli(E.coli)was investigated for the first time.The tFNAs vehicle increased the bacterial uptake of erythromycin and promoted membrane destabilization.Moreover,it increased the permeability of the bacterial cell wall,and reduced drug resistance by improving the movement of the drug across the membrane.The tFNAs-based delivery system enhanced the effects of erythromycin against E.coli.It may therefore provide an effective delivery vehicle for erythromycin in targeting antibiotic-resistant bacteria with thick cell wall.
文摘Nucleic acids are natural biopolymers of nucleotides that store, encode, transmit and express genetic information, which play central roles in diverse cellular events and diseases in living things. The analysis of nucleic acids and nucleic acids-based analysis have been widely applied in biological studies, clinical diagnosis, environmental analysis, food safety and forensic analysis.During the past decades, the field of nucleic acids analysis has been rapidly advancing with many technological breakthroughs.In this review, we focus on the methods developed for analyzing nucleic acids, nucleic acids-based analysis, device for nucleic acids analysis, and applications of nucleic acids analysis. The representative strategies for the development of new nucleic acids analysis in this field are summarized, and key advantages and possible limitations are discussed. Finally, a brief perspective on existing challenges and further research development is provided.
基金supported by the National Natural Science Foundation of China(21922408 and 61771253)the Natural Science Foundation of Jiangsu Province for Distinguished Young Scholars(BK20190038)the Scientific Research Foundation of Nanjing University of Posts and Telecommunications(NY220155)
文摘Nucleic acids-based functional nanomaterials in biological imaging have drawn more and more attention in recent years.The rapid development of various nanomaterials provides nucleic acids more possibility to achieve the recognition and bioimaging of different small moleculars in living cells.Coupling of nucleic acids and various nanomaterials obviously enhances the cell uptake efficiency of nucleic acids and the signal amplification strategies of nucleic acids have successfully expanded the applications of nucleic acids-based functional nanomaterials for the detection of trace small molecules in living cells,like microRNAs,proteins,and so on.This review summarizes the recent progresses of nucleic acids-based functional nanomaterials in the application of bioimaging with different amplification mechanism and the recent rapid development of stimulate-response nucleic acids-based nanomaterial for time-spatial controlled imaging of intracellular targets.The advantages of these nucleic acids-based functional nanomaterials and possibility of future development of bioimaging are discussed from the perspective of biological imaging.
基金supported by National Natural Science Foundation(No.82072087,China)Key Technologies Research and Development Program(No.2016YFA0201200,China)the Guangdong Natural Science Fund for Distinguished Young Scholars(No.2017A030306016,China)。
文摘DNA is a biological polymer that encodes and stores genetic information in all living organism. Particularly, the precise nucleobase pairing inside DNA is exploited for the self-assembling of nanostructures with defined size, shape and functionality. These DNA nanostructures are known as framework nucleic acids(FNAs) for their skeleton-like features. Recently, FNAs have been explored in various fields ranging from physics, chemistry to biology. In this review, we mainly focus on the recent progress of FNAs in a pharmaceutical perspective. We summarize the advantages and applications of FNAs for drug discovery, drug delivery and drug analysis. We further discuss the drawbacks of FNAs and provide an outlook on the pharmaceutical research direction of FNAs in the future.
基金the National Natural Science Foundation of China(No.81901838)Key research and development plan in Shaanxi province(Nos.2020SF-123 and 2020SF-195)+1 种基金Medical Technology Plan of Zhejiang Province(No.2021KY042)Medical research program of department of science and technology of Xi’an,Shaanxi Province(No.2019115713YX012SF048(4)).
文摘One of the critical problems in bladder cancer(BC)management is the local recurrence of disease.However,achieving the accurate delineation of tumor margins intraoperatively remains extremely difficult due to the lack of effective tumor margin recognition technology.Herein,survivin molecular beacon(MB)and R11 peptide-linked spherical nucleic acids(SNAs)were synthesized as nanoprobes(AuNP-MB@R11)for sensitive detection of BC margins.Physicochemical properties proved that R11 peptides and survivin MB were successfully loaded onto the surface of SNAs.AuNP-MB@R11 had good stability against nuclease activity and high sensitivity and specificity to detect survivin single strand DNA(ssDNA)in vitro.According to cytology,R11 peptides could increase the BC targeting ability and membrane penetrability of SNAs.Notably,R11 peptides significantly promoted the disintegration of lysosomes and the release of SNAs to enhance fluorescence imaging quality.Further RNA sequencing proved that some genes and pathways related to endocytosis and lysosomes were significantly regulated,such as AGPAT5,GPD1L,and GRB2.In orthotopic BC models and a clinical sample from a patient with BC,AuNP-MB@R11 showed a more legible cancerous fluorescence margin and offered remarkably improved detection compared to those achieved by SNAs.R11 peptide-linked SNAs present promising potential to identify BC margin,which may help to improve the R0 resection rate in surgery and improve patients’quality of life.
基金This study was supported by the National Key R&D Program of China(2019YFA0110600).
文摘Many recent studies have shown that joint-resident mesenchymal stem cells(MSCs)play a vital role in articular cartilage(AC)in situ regeneration.Specifically,synovium-derived MSCs(SMSCs),which have strong chondrogenic differentiation potential,may be the main driver of cartilage repair.However,both the insufficient number of MSCs and the lack of an ideal regenerative microenvironment in the defect area will seriously affect the regeneration of AC.Tetrahedral framework nucleic acids(tFNAs),notable novel nanomaterials,are considered prospective biological regulators in biomedical engineering.Here,we aimed to explore whether tFNAs have positive effects on AC in situ regeneration and to investigate the related mechanism.The results of in vitro experiments showed that the proliferation and migration of SMSCs were significantly enhanced by tFNAs.In addition,tFNAs,which were added to chondrogenic induction medium,were shown to promote the chondrogenic capacity of SMSCs by increasing the phosphorylation of Smad2/3.In animal models,the injection of tFNAs improved the therapeutic outcome of cartilage defects compared with that of the control treatments without tFNAs.In conclusion,this is the first report to demonstrate that tFNAs can promote the chondrogenic differentiation of SMSCs in vitro and enhance AC regeneration in vivo,indicating that tFNAs may become a promising therapeutic for AC regeneration.
基金supported by the National Key Research and Development Program of China (No.2018YFA0902801)the National Natural Science Foundations of China (Nos.21775169,21801259 and 21974153)+4 种基金the Scientific Technology Project of Shenzhen City (No.JCYJ20200109142410170)the Scientific Technology Project of Guangzhou City (No.202103000003)the Guangdong Natural Science Foundation (Nos.2018A030313290,2019A1515010587)the Guangdong Science and Technology Plan Project (No.2020B1212060077)the Fundamental Research Funds for the Central Universities,SYSU (No.19lgpy142)。
文摘A reliable and sensitive strategy which can assess nucleic acid levels in living cells would be essential for fundamental research of biomedical applications. Some nanomaterial-based fluorescence biosensors recently developed for detecting nucleic acids, however, are often with expensive, complicated and timeconsuming preparation process. Here, by using a facile bottom-up synthesis method, a two-dimensional(2 D) coordination polymer(CP) nanosheet, [Cu(tz)](Htz = 1,2,4-triazole), was successfully prepared after optimizing reaction conditions. These ultrathin CP nanosheets with thickness of 4.7 ± 1.1 nm could readily form nanosensors by assembly with DNA probes, which exhibited a low limit of detection(LOD)for p53 DNA fragment as 144 pmol/L. Furthermore, by integrating [Cu(tz)] nanosheets with hybridization chain reaction(HCR) probes, mi R-21, one kind of micro RNA upregulated in many cancer cells, can be sensitively detected with a LOD of 100 pmol/L and monitored in living cells, giving consistent results with those obtained by quantitative reverse-transcription polymerase chain reaction(q RT-PCR) analysis.Thus [Cu(tz)] nanosheets, which not only possess much better nucleic acids sensing performance than bulk cystals, but also exhibit nucleic acid delivery functions, could be used as a novel nanoplatform in biomedical imaging and sensing applications.
基金ProjectsupportedbytheNationalNaturalScienceFoundationofChina (No .2 0 172 0 70 )andtheMajorStateBasicResearchDevelopmentPro gram (No .G19985 110 3 )
文摘N-Boc protected amino acids of analogues of peptide nucleic add (PNA), which are a class of conformationally constrained building blocks based on 4-aminoproline backbone with chirality at 2-C and 4-C, have been synthesized. Those monomers can be used for the construction of novel peptide nucleic acid analogues.