MicroRNA-based therapeutics,particularly antimiRNA oligonucleotides(AMOs),have emerged as promising agents for cancer treatment.However,the intrinsic bio-instability of linear AMOs has posed a significant challenge to...MicroRNA-based therapeutics,particularly antimiRNA oligonucleotides(AMOs),have emerged as promising agents for cancer treatment.However,the intrinsic bio-instability of linear AMOs has posed a significant challenge to their development.Herein,we present an innovative strategy employing enzymatically synthesized circular single-stranded DNA to achieve simultaneous suppression of multiple oncogenic miRNAs.Our one-pot-synthesized 132-nt circular AMO demonstrated enhanced exonuclease resistance,thereby significantly improving intracellular stability compared with its linear counterparts.Concurrently,the circular topology enabled simultaneous suppression of four oncogenic miRNAs(miR-21/221/155/10b)through the RNase H-dependent cleavage mechanism.Such synergistic inhibition can upregulate tumor suppressor mRNAs(PTEN,HIPK2,SOCS1,and HOXD10),effectively curtailing both proliferation and migration of MCF-7 cells.This chemical modification-free platform not only addresses the inherent stability issues of nucleic acid-based therapies but also establishes a versatile paradigm for multitargeted oligonucleotide therapeutics.展开更多
Circular single-stranded DNA(ssDNA)viruses have been rarely found in fungi,and the evolutionary and ecological relationships among ssDNA viruses infecting fungi and other organisms remain unclear.In this study,a novel...Circular single-stranded DNA(ssDNA)viruses have been rarely found in fungi,and the evolutionary and ecological relationships among ssDNA viruses infecting fungi and other organisms remain unclear.In this study,a novel circular ssDNA virus,tentatively named Diaporthe sojae circular DNA virus 1(DsCDV1),was identified in the phytopathogenic fungus Diaporthe sojae isolated from pear trees.DsCDV1 has a monopartite genome(3185 nt in size)encapsidated in isometric virions(21-26 nm in diameter).The genome comprises seven putative open reading frames encoding a discrete replicase(Rep)split by an intergenic region,a putative capsid protein(CP),several proteins of unknown function(P1-P4),and a long intergenic region.Notably,the two split parts of DsCDV1 Rep share high identities with the Reps of Geminiviridae and Genomoviridae,respectively,indicating an evolutionary linkage with both families.Phylogenetic analysis based on Rep or CP sequences placed DsCDV1 in a unique cluster,supporting the establishment of a new family,tentatively named Gegemycoviridae,intermediate to both families.DsCDV1 significantly attenuates fungal growth and nearly erases fungal virulence when transfected into the host fungus.Remarkably,DsCDV1 can systematically infect tobacco and pear seedlings,providing broad-spectrum resistance to fungal diseases.Subcellular localization analysis revealed that DsCDV1 P3 is systematically localized in the plasmodesmata,while its expression in trans-complementation experiments could restore systematic infection of a movement-deficient plant virus,suggesting that P3 is a movement protein.DsCDV1 exhibits unique molecular and biological traits not observed in other ssDNA viruses,serving as a link between fungal and plant ssDNA viruses and presenting an evolutionary connection between ssDNA viruses and fungi.These findings contribute to expanding our understanding of ssDNA virus diversity and evolution,offering potential biocontrol applications for managing crucial plant diseases.展开更多
Terminal deoxynucleotidyl transferase(Td T) has been characterized as template-independent polymerase using single-stranded DNA(ss DNA) as primers to generate random oligonucleotides. However, the extension performanc...Terminal deoxynucleotidyl transferase(Td T) has been characterized as template-independent polymerase using single-stranded DNA(ss DNA) as primers to generate random oligonucleotides. However, the extension performance of Td T to single-stranded RNA(ss RNA) is vague. By systematically comparing and contrasting the performance of Td T-catalyzed ss DNA and ss RNA extension, it is indicated that the catalytic efficiency of ss RNA as primers was about 3 times lower than ss DNA as primers. Collectively, it is believed that understanding the catalytic performance of Td T will help to design the strategy to synthesize chimeric DNA on 3-OH of ss RNA, which becomes invaluable.展开更多
An ss-DNA gold chip was prepared based on self-assembly of the thiol-derivatized oligonucleotide, and used for the determination of single-stranded binding protein (SSB) by surface plasmon resonance microscopy (SPR...An ss-DNA gold chip was prepared based on self-assembly of the thiol-derivatized oligonucleotide, and used for the determination of single-stranded binding protein (SSB) by surface plasmon resonance microscopy (SPR). The experiment results showed that SSB binds ss-DNA with high specificity, and relative signal of SPR response is proportional to the concentration of SSB in the range of 0.1-100 ng/mL with a detection limit (S/N = 3) of 0.07 ng/mL.展开更多
[Objective] This study aimed to optimize the PCR amplification conditions for random ssDNA pool in SELEX technology. [Method] L16(45) orthogonal experimental design was adopted for optimization of five important fac...[Objective] This study aimed to optimize the PCR amplification conditions for random ssDNA pool in SELEX technology. [Method] L16(45) orthogonal experimental design was adopted for optimization of five important factors affecting PCR reaction system for random single-stranded DNA pool including Mg2+ concentration, dNTP concentration, amount of Taq DNA polymerase, primer concentration and amount of random single-stranded DNA pool at four levels. Meanwhile, the annealing temperature and number of PCR reaction cycles were optimized to establish the optimal reaction system and PCR procedure. [Result] The optimal combination of PCR reaction system for random ssDNA pool was obtained, with a total system volume of 20 μl containing 2.0 μl of 10 × Buffer, 0.5 ng of random ssDNA pool, 2.5 mmol/L Mg2+, 0.25 mmol/L dNTP Mixture, 0.6 μmol/L upstream and downstream primers and 1.5 U of Taq DNA polymerase; the optimal annealing temperature was 68 ℃ and the optimal number of cycles was 12. Under the above conditions, clear and stable bands with high specificity for random ssDNA pool were amplified. [Conclusion] This study laid the foundation for selection of parameters with higher specificity in SELEX technology.展开更多
Chronic hepatitis B infection is caused by hepatitis B virus(HBV) and a total cure is yet to be achieved. The viral covalently closed circular DNA(ccc DNA) is the key to establish a persistent infection within hepatoc...Chronic hepatitis B infection is caused by hepatitis B virus(HBV) and a total cure is yet to be achieved. The viral covalently closed circular DNA(ccc DNA) is the key to establish a persistent infection within hepatocytes. Current antiviral strategies have no effect on the pre-existing ccc DNA reservoir. Therefore, the study of the molecular mechanism of ccc DNA formation is becoming a major focus of HBV research. This review summarizes the current advances in ccc DNA molecular biology and the latest studies on the elimination or inactivation of ccc DNA, including three major areas:(1) epigenetic regulation of ccc DNA by HBV X protein,(2) immune-mediated degradation,and(3) genome-editing nucleases. All these aspects provide clues on how to finally attain a cure for chronic hepatitis B infection.展开更多
Single-strand breaks (SSBs) can occur in cells either directly, or indirectly following initiation of base excision repair (BER). SSBs generally have blocked termini lacking the conventional 5'-phosphate and 3'-...Single-strand breaks (SSBs) can occur in cells either directly, or indirectly following initiation of base excision repair (BER). SSBs generally have blocked termini lacking the conventional 5'-phosphate and 3'-hydroxyl groups and require further processing prior to DNA synthesis and ligation. XRCC1 is devoid of any known enzymatic activity, but it can physically interact with other proteins involved in all stages of the overlapping SSB repair and BER pathways, including those that conduct the rate-limiting end-tailoring, and in many cases can stimulate their enzymatic activities. XRCC1^-/- mouse fibroblasts are most hypersensitive to agents that produce DNA lesions repaired by monofunctional glycosylase-initiated BER and that result in formation of indirect SSBs. A requirement for the deoxyribose phosphate lyase activity of DNA polymerase β (pol β) is specific to this pathway, whereas pol β is implicated in gap-filling during repair of many types of SSBs. Elevated levels of strand breaks, and diminished repair, have been demonstrated in MMS- treated XRCC1^-/-, and to a lesser extent in pol β^-/- cell lines, compared with wild-type cells. Thus a strong correlation is observed between cellular sensitivity to MMS and the ability of cells to repair MMS-induced damage. Exposure of wild-type and polβ^-/- cells to an inhibitor of PARP activity dramatically potentiates MMS-induced cytotoxicity. XRCC1^-/- cells are also sensitized by PARP inhibition demonstrating that PARP-mediated poly(ADP-ribosyl)ation plays a role in modulation of cytotoxicity beyond recruitment of XRCC 1 to sites of DNA damage.展开更多
250 million people worldwide continue to be chronically infected with the virus.While patients may be treated with nucleoside/nucleotide analogues,this only suppresses HBV titre to sub-detection levels without elimina...250 million people worldwide continue to be chronically infected with the virus.While patients may be treated with nucleoside/nucleotide analogues,this only suppresses HBV titre to sub-detection levels without eliminating the persistent HBV covalently closed circular DNA(cccDNA)genome.As a result,HBV infection cannot be cured,and the virus reactivates when conditions are favorable.Interferons(IFNs)are cytokines known to induce powerful antiviral mechanisms that clear viruses from infected cells.They have been shown to induce cccDNA clearance,but their use in the treatment of HBV infection is limited as HBVtargeting immune cells are exhausted and HBV has evolved multiple mechanisms to evade and suppress IFN signalling.Thus,to fully utilize IFN-mediated intracellular mechanisms to effectively eliminate HBV,instead of direct IFN administration,novel strategies to sustain IFN-mediated anti-cccDNA and antiviral mechanisms need to be developed.This review will consolidate what is known about how IFNs act to achieve its intracellular antiviral effects and highlight the critical interferon-stimulated gene targets and effector mechanisms with potent anti-cccDNA functions.These include cccDNA degradation by APOBECs and cccDNA silencing and transcription repression by epigenetic modifications.In addition,the mechanisms that HBV employs to disrupt IFN signalling will be discussed.Drugs that have been developed or are in the pipeline for components of the IFN signalling pathway and HBV targets that detract IFN signalling mechanisms will also be identified and discussed for utility in the treatment of HBV infections.Together,these will provide useful insights into design strategies that specifically target cccDNA for the eradication of HBV.展开更多
AIM: To evaluate the effects of antiviral agents and HBV genotypes on intrahepatic covalently closed circular DNA (ccc DNA) in HBeAg-positive chronic hepatitis B patients.METHODS: Seventy-one patients received lam...AIM: To evaluate the effects of antiviral agents and HBV genotypes on intrahepatic covalently closed circular DNA (ccc DNA) in HBeAg-positive chronic hepatitis B patients.METHODS: Seventy-one patients received lamivudine (n = 35), or sequential therapy with lamivudine- interferon alpha 2b (IFN-α 2b, n = 24) for 48 wk, or IFN-α 2b (n = 12) for 24 wk. All subjects were followed up for 24 wk. Intrahepatic ccc DNA was measured quantitatively by PCR. HBV genotypes were analyzed by PCR-RFLP.RESULTS: Sequential lamivudine- INF-α therapy, lamivudine and INF-α monotherapy reduced ccc DNA of 1.7 log, 1.4 log and 0.8 log, respectively (P 〈 0.05). Seventeen out of the 71 patieots developed HBeAg seroconversion, the reduction of ccc DNA in the HBeAg seroconversion patients was more significant than that in the HBeAg positive patients (3.0 log vs 1.6 log, P = 0.0407). Twenty-four weeks after antiviral therapy withdrawal, 16 patients had a sustained virological response, the baseline intrahepatic ccc DNA in the patients with a sustained virological response was significantly lower than that in the patients with virological rebound (4.6 log vs 5.4 log, P = 0.0472). HBV genotype C accounted for 85.9% (n = 61), and genotype B for 14.1% (n = 10), respectively, in the 71 patients. There was no significant difference in the change of ccc DNA level between HBV genotypes C and B (2.1 log vs 1.9 log).CONCLUSION: Forty-eight week sequential lamivudine- INF-α therapy and lamivudine monotherapy reduce ccc DNA more significantly than 24-wk INF-α monotherapy. Low baseline intrahepatic ccc DNA level may predict the long-term efficacy of antiviral treatment. HBV genotypes C and B have no obvious influence on ccc DNA load.展开更多
Objective: This study aimed to investigate DNA sequences that are substantially homologous to the corresponding RNA sequence sections of the hepatitis C virus (HCV). These DNA sequences are present in the whole DNA ex...Objective: This study aimed to investigate DNA sequences that are substantially homologous to the corresponding RNA sequence sections of the hepatitis C virus (HCV). These DNA sequences are present in the whole DNA extracted from peripheral blood mononuclear cells (PBMCs) of HCV-negative subjects. We presumed that these experimentally proven 5'-noncoding region (5'-NCR) homologous DNA sequences could be contained in the extrachromosomal circular DNA (eccDNA) fraction as part of the whole cellular DNA. Methods: Home-made polymerase chain reaction (PCR) with whole cellular and isolated eccDNA, nucleotide basic local alignment search tool (BLASTn) alignments, and tests for patterns of methylation in selected sequence sections were performed. Results: The PCR tests revealed DNA sequences of up to 320 bp that broadly matched the corresponding sequence sections of known HCV genotypes. In contrast, BLASTn alignment searches of published HCV 5'-NCR sequences with human genome databases revealed only sequence segments of up to 36 bp of the 5'-NCR. The composition of these sequences shows missing base pairs, base pair mismatches as well as complete homology with HCV reference sequences. These short sequence sections are present in numerous copies on both the same and different chromosomes. The selected sequence region within the DNA sequences of the 5'-NCR revealed a broad diversity of individual patterns of methylation. Conclusions: The experimental results confirm our assumption that parts of the HCV 5'-NCR genomic RNA sequences are present at the DNA level in the eccDNA fraction of PBMCs. The tests for methylation patterns therein revealed individual methylomes which could represent an epigenetic feature. The respective sequence section might be subject to genetic regulation.展开更多
Hepatitis B virus(HBV) infection is a major global health problem. Although current therapies, such as the use of nucleos(t)ide analogs, inhibit HBV replication efficiently, they do not eliminate covalently closed cir...Hepatitis B virus(HBV) infection is a major global health problem. Although current therapies, such as the use of nucleos(t)ide analogs, inhibit HBV replication efficiently, they do not eliminate covalently closed circular DNA(ccc DNA), which persists in hepatocyte nuclei. As HBV ccc DNA is a viral transcription template, novel therapeutic approaches to directly target HBV ccc DNA are necessary to completely eradicate persistent HBV infections. HBV ccc DNA levels in HBV-infected human liver cells are extremely low; thus, more reliable and simple measurement methods are needed to correctly monitor their levels during therapeutic treatment. Although reverse transcription-polymerase chain reaction or Southern blot procedures are currently used in research studies, these methods are not completely reliable and are also time-consuming and labor-intensive. Genome editing technologies, such as zinc finger nucleases, transcription activator-like effector nucleases, and the clustered regularly interspaced short palindromic repeats/Cas9(CRISPR/Cas9) system, which are designed to target specific DNA sequences, represent highly promising potential therapeutic tools. In particular, the CRISPR/Cas9 system is an easily customizable sequencespecific nuclease with high flexibility and may be the most feasible approach to target HBV ccc DNA. Further research to develop easier, safer, and more effective protocols should be pursued.展开更多
Chronic infection with hepatitis B virus(HBV)remains a major global health problem,especially in developing countries.It may lead to prolonged liver damage,fibrosis,cirrhosis,and hepatocellular carcinoma.Persistent ch...Chronic infection with hepatitis B virus(HBV)remains a major global health problem,especially in developing countries.It may lead to prolonged liver damage,fibrosis,cirrhosis,and hepatocellular carcinoma.Persistent chronic HBV infection is related to host immune response and the stability of the covalently closed circular DNA(cccDNA)in human hepatocytes.In addition to being essential for viral transcription and replication,cccDNA is also suspected to play a role in persistent HBV infections or hepatitis relapses since cccDNA is very stable in non-dividing human hepatocytes.Understanding the pathogenicity and oncogenicity of HBV components would be essential in the development of new diagnostic tools and treatment strategies.This review summarizes the role and molecular mechanisms of HBV cccDNA in hepatocyte transformation and hepatocarcinogenesis and current efforts to its detection and targeting.展开更多
BACKGROUND Minimally invasive or noninvasive,sensitive and accurate detection of colorectal cancer(CRC)is urgently needed in clinical practice.AIM To identify a noninvasive,sensitive and accurate circular free DNA mar...BACKGROUND Minimally invasive or noninvasive,sensitive and accurate detection of colorectal cancer(CRC)is urgently needed in clinical practice.AIM To identify a noninvasive,sensitive and accurate circular free DNA marker detected by digital polymerase chain reaction(dPCR)for the early diagnosis of clinical CRC.METHODS A total of 195 healthy control(HC)individuals and 101 CRC patients(38 in the early CRC group and 63 in the advanced CRC group)were enrolled to establish the diagnostic model.In addition,100 HC individuals and 62 patients with CRC(30 early CRC and 32 advanced CRC groups)were included separately to validate the model.CAMK1D was dPCR.Binary logistic regression analysis was used to establish a diagnostic model including CAMK1D and CEA.RESULTS To differentiate between the 195 HCs and 101 CRC patients(38 early CRC and 63 advanced CRC patients),the common biomarkers CEA and CAMK1D were used alone or in combination to evaluate their diagnostic value.The area under the curves(AUCs)of CEA and CAMK1D were 0.773(0.711,0.834)and 0.935(0.907,0.964),respectively.When CEA and CAMK1D were analyzed together,the AUC was 0.964(0.945,0.982).In differentiating between the HC and early CRC groups,the AUC was 0.978(0.960,0.995),and the sensitivity and specificity were 88.90%and 90.80%,respectively.In differentiating between the HC and advanced CRC groups,the AUC was 0.956(0.930,0.981),and the sensitivity and specificity were 81.30%and 95.90%,respectively.After building the diagnostic model containing CEA and CAMK1D,the AUC of the CEA and CAMK1D joint model was 0.906(0.858,0.954)for the validation group.In differentiating between the HC and early CRC groups,the AUC was 0.909(0.844,0.973),and the sensitivity and specificity were 93.00%and 83.30%,respectively.In differentiating between the HC and advanced CRC groups,the AUC was 0.904(0.849,0.959),and the sensitivity and specificity were 93.00%and 75.00%,respectively.CONCLUSION We built a diagnostic model including CEA and CAMK1D for differentiating between HC individuals and CRC patients.Compared with the common biomarker CEA alone,the diagnostic model exhibited significant improvement.展开更多
Fur seal feces-associated circular DNA virus(FSfa CV)is an unclassified circular replication-associated protein(Rep)-encoding single-stranded(CRESS)DNA virus that has been detected in mammals(fur seals and pigs).The b...Fur seal feces-associated circular DNA virus(FSfa CV)is an unclassified circular replication-associated protein(Rep)-encoding single-stranded(CRESS)DNA virus that has been detected in mammals(fur seals and pigs).The biology and epidemiology of the virus remain largely unknown.To investigate the virus diversity among pigs in Anhui Province,China,we pooled 600 nasal samples in 2017 and detected viruses using viral metagenomic methods.From the assembled contigs,12 showed notably high nucleotide acid sequence similarities to the genome sequences of FSfa CVs.Based on these sequences,a full-length genome sequence of the virus was then obtained using overlapping PCR and sequencing,and the virus was designated as FSfa CV-CHN(Gen Bank No.MK462122).This virus shared 91.3%and 90.9%genome-wide nucleotide sequence similarities with the New Zealand fur seal strain FSfa CV-as50 and the Japanese pig strain FSfa CVJPN1,respectively.It also clustered with the two previously identified FSfa CVs in a unique branch in the phylogenetic tree based on the open reading frame 2(ORF2),Rep-coding gene,and the genome of the reference CRESS DNA viruses.Further epidemiological investigation using samples collected in 2018 showed that the overall positive rate for the virus was 56.4%(111/197)in Anhui Province.This is the first report of FSfa CVs identified in pigs in China,and further epidemiological studies are warranted to evaluate the influence of the virus on pigs.展开更多
BACKGROUND Colorectal cancer(CRC) is the third most common cancer worldwide, and it is the second leading cause of death from cancer in the world, accounting for approximately 9% of all cancer deaths. Early detection ...BACKGROUND Colorectal cancer(CRC) is the third most common cancer worldwide, and it is the second leading cause of death from cancer in the world, accounting for approximately 9% of all cancer deaths. Early detection of CRC is urgently needed in clinical practice.AIM To build a multi-parameter diagnostic model for early detection of CRC.METHODS Total 59 colorectal polyps(CRP) groups, and 101 CRC patients(38 early-stage CRC and 63 advanced CRC) for model establishment. In addition, 30 CRP groups,and 62 CRC patients(30 early-stage CRC and 32 advanced CRC) were separately included to validate the model. 51 commonly used clinical detection indicators and the 4 extrachromosomal circular DNA markers NDUFB7, CAMK1D, PIK3CD and PSEN2 that we screened earlier. Four multi-parameter joint analysis methods:binary logistic regression analysis, discriminant analysis, classification tree and neural network to establish a multi-parameter joint diagnosis model.RESULTS Neural network included carcinoembryonic antigen(CEA), ischemia-modified albumin(IMA),sialic acid(SA), PIK3CD and lipoprotein a(LPa) was chosen as the optimal multi-parameter combined auxiliary diagnosis model to distinguish CRP and CRC group, when it differentiated 59CRP and 101 CRC, its overall accuracy was 90.8%, its area under the curve(AUC) was 0.959(0.934,0.985), and the sensitivity and specificity were 91.5% and 82.2%, respectively. After validation,when distinguishing based on 30 CRP and 62 CRC patients, the AUC was 0.965(0.930-1.000), and its sensitivity and specificity were 66.1% and 70.0%. When distinguishing based on 30 CRP and 32early-stage CRC patients, the AUC was 0.960(0.916-1.000), with a sensitivity and specificity of 87.5% and 90.0%, distinguishing based on 30 CRP and 30 advanced CRC patients, the AUC was 0.970(0.936-1.000), with a sensitivity and specificity of 96.7% and 86.7%.CONCLUSION We built a multi-parameter neural network diagnostic model included CEA, IMA, SA, PIK3CD and LPa for early detection of CRC, compared to the conventional CEA, it showed significant improvement.展开更多
The availability of the plastid genome sequences is one of the bases for comparative,functional,and structural genomic studies of plastid-containing living organisms,in addition to the application
Circular double stranded DNA has different topological states which are defined by their linking numbers.Equilibrium distribution of linking numbers can be obtained by closing a linear DNA into a circle by ligase.Usin...Circular double stranded DNA has different topological states which are defined by their linking numbers.Equilibrium distribution of linking numbers can be obtained by closing a linear DNA into a circle by ligase.Using Monte Carlo simulation,we predict the temperature dependence of the linking number distribution of small circular DNAs.Our predictions are based on flexible defect excitations resulted from local melting or unstacking of DNA base pairs.We found that the reduced bending rigidity alone can lead to measurable changes of the variance of linking number distribution of short circular DNAs.展开更多
基金the National Basic Research Plan of China(grant nos.2023YFA0915201 and 2024YFA1308500)Beijing Municipal Science&Technology Commission(grant no.Z231100007223003)+1 种基金Beijing Natural Science Foundation(grant no.JQ24007)National Natural Science Foundation of China(grant nos.22477122 and 32270627).
文摘MicroRNA-based therapeutics,particularly antimiRNA oligonucleotides(AMOs),have emerged as promising agents for cancer treatment.However,the intrinsic bio-instability of linear AMOs has posed a significant challenge to their development.Herein,we present an innovative strategy employing enzymatically synthesized circular single-stranded DNA to achieve simultaneous suppression of multiple oncogenic miRNAs.Our one-pot-synthesized 132-nt circular AMO demonstrated enhanced exonuclease resistance,thereby significantly improving intracellular stability compared with its linear counterparts.Concurrently,the circular topology enabled simultaneous suppression of four oncogenic miRNAs(miR-21/221/155/10b)through the RNase H-dependent cleavage mechanism.Such synergistic inhibition can upregulate tumor suppressor mRNAs(PTEN,HIPK2,SOCS1,and HOXD10),effectively curtailing both proliferation and migration of MCF-7 cells.This chemical modification-free platform not only addresses the inherent stability issues of nucleic acid-based therapies but also establishes a versatile paradigm for multitargeted oligonucleotide therapeutics.
基金supported by Earmarked Fund for China Agricultural Research System(grant number CARS-28)to G.W.and W.X.the National Natural Science Foundation of China(grant number 32172475)to W.X.
文摘Circular single-stranded DNA(ssDNA)viruses have been rarely found in fungi,and the evolutionary and ecological relationships among ssDNA viruses infecting fungi and other organisms remain unclear.In this study,a novel circular ssDNA virus,tentatively named Diaporthe sojae circular DNA virus 1(DsCDV1),was identified in the phytopathogenic fungus Diaporthe sojae isolated from pear trees.DsCDV1 has a monopartite genome(3185 nt in size)encapsidated in isometric virions(21-26 nm in diameter).The genome comprises seven putative open reading frames encoding a discrete replicase(Rep)split by an intergenic region,a putative capsid protein(CP),several proteins of unknown function(P1-P4),and a long intergenic region.Notably,the two split parts of DsCDV1 Rep share high identities with the Reps of Geminiviridae and Genomoviridae,respectively,indicating an evolutionary linkage with both families.Phylogenetic analysis based on Rep or CP sequences placed DsCDV1 in a unique cluster,supporting the establishment of a new family,tentatively named Gegemycoviridae,intermediate to both families.DsCDV1 significantly attenuates fungal growth and nearly erases fungal virulence when transfected into the host fungus.Remarkably,DsCDV1 can systematically infect tobacco and pear seedlings,providing broad-spectrum resistance to fungal diseases.Subcellular localization analysis revealed that DsCDV1 P3 is systematically localized in the plasmodesmata,while its expression in trans-complementation experiments could restore systematic infection of a movement-deficient plant virus,suggesting that P3 is a movement protein.DsCDV1 exhibits unique molecular and biological traits not observed in other ssDNA viruses,serving as a link between fungal and plant ssDNA viruses and presenting an evolutionary connection between ssDNA viruses and fungi.These findings contribute to expanding our understanding of ssDNA virus diversity and evolution,offering potential biocontrol applications for managing crucial plant diseases.
基金supported by the National Natural Science Foundation of China (NSFC, Nos. 21927814 and 21772143 to J.Y. Zhang)the National Science Foundation of Tianjin (Nos. 20YDTPJC00090, 19ZXDBSY00070 and 20YFZCSY00990 to X.Q. Gong)。
文摘Terminal deoxynucleotidyl transferase(Td T) has been characterized as template-independent polymerase using single-stranded DNA(ss DNA) as primers to generate random oligonucleotides. However, the extension performance of Td T to single-stranded RNA(ss RNA) is vague. By systematically comparing and contrasting the performance of Td T-catalyzed ss DNA and ss RNA extension, it is indicated that the catalytic efficiency of ss RNA as primers was about 3 times lower than ss DNA as primers. Collectively, it is believed that understanding the catalytic performance of Td T will help to design the strategy to synthesize chimeric DNA on 3-OH of ss RNA, which becomes invaluable.
基金the Science Foundation of the National Education Ministry (No, 206096) the Education Department of Hubei Province (No. Z200522002).
文摘An ss-DNA gold chip was prepared based on self-assembly of the thiol-derivatized oligonucleotide, and used for the determination of single-stranded binding protein (SSB) by surface plasmon resonance microscopy (SPR). The experiment results showed that SSB binds ss-DNA with high specificity, and relative signal of SPR response is proportional to the concentration of SSB in the range of 0.1-100 ng/mL with a detection limit (S/N = 3) of 0.07 ng/mL.
基金Supported by Central University Basic Research Operating Expenses Special Fund(XDJK2011C026)Southwest University Doctoral Fund(09BSR04)~~
文摘[Objective] This study aimed to optimize the PCR amplification conditions for random ssDNA pool in SELEX technology. [Method] L16(45) orthogonal experimental design was adopted for optimization of five important factors affecting PCR reaction system for random single-stranded DNA pool including Mg2+ concentration, dNTP concentration, amount of Taq DNA polymerase, primer concentration and amount of random single-stranded DNA pool at four levels. Meanwhile, the annealing temperature and number of PCR reaction cycles were optimized to establish the optimal reaction system and PCR procedure. [Result] The optimal combination of PCR reaction system for random ssDNA pool was obtained, with a total system volume of 20 μl containing 2.0 μl of 10 × Buffer, 0.5 ng of random ssDNA pool, 2.5 mmol/L Mg2+, 0.25 mmol/L dNTP Mixture, 0.6 μmol/L upstream and downstream primers and 1.5 U of Taq DNA polymerase; the optimal annealing temperature was 68 ℃ and the optimal number of cycles was 12. Under the above conditions, clear and stable bands with high specificity for random ssDNA pool were amplified. [Conclusion] This study laid the foundation for selection of parameters with higher specificity in SELEX technology.
基金supported by the Key Project of Hubei Province Natural Science Foundation(2014CFA075)the National Natural Science Foundation of China(31400153)the Applied Basic Research Program(2015060101010033),Wuhan,China
文摘Chronic hepatitis B infection is caused by hepatitis B virus(HBV) and a total cure is yet to be achieved. The viral covalently closed circular DNA(ccc DNA) is the key to establish a persistent infection within hepatocytes. Current antiviral strategies have no effect on the pre-existing ccc DNA reservoir. Therefore, the study of the molecular mechanism of ccc DNA formation is becoming a major focus of HBV research. This review summarizes the current advances in ccc DNA molecular biology and the latest studies on the elimination or inactivation of ccc DNA, including three major areas:(1) epigenetic regulation of ccc DNA by HBV X protein,(2) immune-mediated degradation,and(3) genome-editing nucleases. All these aspects provide clues on how to finally attain a cure for chronic hepatitis B infection.
文摘Single-strand breaks (SSBs) can occur in cells either directly, or indirectly following initiation of base excision repair (BER). SSBs generally have blocked termini lacking the conventional 5'-phosphate and 3'-hydroxyl groups and require further processing prior to DNA synthesis and ligation. XRCC1 is devoid of any known enzymatic activity, but it can physically interact with other proteins involved in all stages of the overlapping SSB repair and BER pathways, including those that conduct the rate-limiting end-tailoring, and in many cases can stimulate their enzymatic activities. XRCC1^-/- mouse fibroblasts are most hypersensitive to agents that produce DNA lesions repaired by monofunctional glycosylase-initiated BER and that result in formation of indirect SSBs. A requirement for the deoxyribose phosphate lyase activity of DNA polymerase β (pol β) is specific to this pathway, whereas pol β is implicated in gap-filling during repair of many types of SSBs. Elevated levels of strand breaks, and diminished repair, have been demonstrated in MMS- treated XRCC1^-/-, and to a lesser extent in pol β^-/- cell lines, compared with wild-type cells. Thus a strong correlation is observed between cellular sensitivity to MMS and the ability of cells to repair MMS-induced damage. Exposure of wild-type and polβ^-/- cells to an inhibitor of PARP activity dramatically potentiates MMS-induced cytotoxicity. XRCC1^-/- cells are also sensitized by PARP inhibition demonstrating that PARP-mediated poly(ADP-ribosyl)ation plays a role in modulation of cytotoxicity beyond recruitment of XRCC 1 to sites of DNA damage.
文摘250 million people worldwide continue to be chronically infected with the virus.While patients may be treated with nucleoside/nucleotide analogues,this only suppresses HBV titre to sub-detection levels without eliminating the persistent HBV covalently closed circular DNA(cccDNA)genome.As a result,HBV infection cannot be cured,and the virus reactivates when conditions are favorable.Interferons(IFNs)are cytokines known to induce powerful antiviral mechanisms that clear viruses from infected cells.They have been shown to induce cccDNA clearance,but their use in the treatment of HBV infection is limited as HBVtargeting immune cells are exhausted and HBV has evolved multiple mechanisms to evade and suppress IFN signalling.Thus,to fully utilize IFN-mediated intracellular mechanisms to effectively eliminate HBV,instead of direct IFN administration,novel strategies to sustain IFN-mediated anti-cccDNA and antiviral mechanisms need to be developed.This review will consolidate what is known about how IFNs act to achieve its intracellular antiviral effects and highlight the critical interferon-stimulated gene targets and effector mechanisms with potent anti-cccDNA functions.These include cccDNA degradation by APOBECs and cccDNA silencing and transcription repression by epigenetic modifications.In addition,the mechanisms that HBV employs to disrupt IFN signalling will be discussed.Drugs that have been developed or are in the pipeline for components of the IFN signalling pathway and HBV targets that detract IFN signalling mechanisms will also be identified and discussed for utility in the treatment of HBV infections.Together,these will provide useful insights into design strategies that specifically target cccDNA for the eradication of HBV.
基金Beijing Municipal Science & Technology Commission, No. H020920020690
文摘AIM: To evaluate the effects of antiviral agents and HBV genotypes on intrahepatic covalently closed circular DNA (ccc DNA) in HBeAg-positive chronic hepatitis B patients.METHODS: Seventy-one patients received lamivudine (n = 35), or sequential therapy with lamivudine- interferon alpha 2b (IFN-α 2b, n = 24) for 48 wk, or IFN-α 2b (n = 12) for 24 wk. All subjects were followed up for 24 wk. Intrahepatic ccc DNA was measured quantitatively by PCR. HBV genotypes were analyzed by PCR-RFLP.RESULTS: Sequential lamivudine- INF-α therapy, lamivudine and INF-α monotherapy reduced ccc DNA of 1.7 log, 1.4 log and 0.8 log, respectively (P 〈 0.05). Seventeen out of the 71 patieots developed HBeAg seroconversion, the reduction of ccc DNA in the HBeAg seroconversion patients was more significant than that in the HBeAg positive patients (3.0 log vs 1.6 log, P = 0.0407). Twenty-four weeks after antiviral therapy withdrawal, 16 patients had a sustained virological response, the baseline intrahepatic ccc DNA in the patients with a sustained virological response was significantly lower than that in the patients with virological rebound (4.6 log vs 5.4 log, P = 0.0472). HBV genotype C accounted for 85.9% (n = 61), and genotype B for 14.1% (n = 10), respectively, in the 71 patients. There was no significant difference in the change of ccc DNA level between HBV genotypes C and B (2.1 log vs 1.9 log).CONCLUSION: Forty-eight week sequential lamivudine- INF-α therapy and lamivudine monotherapy reduce ccc DNA more significantly than 24-wk INF-α monotherapy. Low baseline intrahepatic ccc DNA level may predict the long-term efficacy of antiviral treatment. HBV genotypes C and B have no obvious influence on ccc DNA load.
基金Project supported by the Exchange Scholarship Programs of the Landesregierung Schleswig-Holstein,Germany,for Jian-er WO
文摘Objective: This study aimed to investigate DNA sequences that are substantially homologous to the corresponding RNA sequence sections of the hepatitis C virus (HCV). These DNA sequences are present in the whole DNA extracted from peripheral blood mononuclear cells (PBMCs) of HCV-negative subjects. We presumed that these experimentally proven 5'-noncoding region (5'-NCR) homologous DNA sequences could be contained in the extrachromosomal circular DNA (eccDNA) fraction as part of the whole cellular DNA. Methods: Home-made polymerase chain reaction (PCR) with whole cellular and isolated eccDNA, nucleotide basic local alignment search tool (BLASTn) alignments, and tests for patterns of methylation in selected sequence sections were performed. Results: The PCR tests revealed DNA sequences of up to 320 bp that broadly matched the corresponding sequence sections of known HCV genotypes. In contrast, BLASTn alignment searches of published HCV 5'-NCR sequences with human genome databases revealed only sequence segments of up to 36 bp of the 5'-NCR. The composition of these sequences shows missing base pairs, base pair mismatches as well as complete homology with HCV reference sequences. These short sequence sections are present in numerous copies on both the same and different chromosomes. The selected sequence region within the DNA sequences of the 5'-NCR revealed a broad diversity of individual patterns of methylation. Conclusions: The experimental results confirm our assumption that parts of the HCV 5'-NCR genomic RNA sequences are present at the DNA level in the eccDNA fraction of PBMCs. The tests for methylation patterns therein revealed individual methylomes which could represent an epigenetic feature. The respective sequence section might be subject to genetic regulation.
文摘Hepatitis B virus(HBV) infection is a major global health problem. Although current therapies, such as the use of nucleos(t)ide analogs, inhibit HBV replication efficiently, they do not eliminate covalently closed circular DNA(ccc DNA), which persists in hepatocyte nuclei. As HBV ccc DNA is a viral transcription template, novel therapeutic approaches to directly target HBV ccc DNA are necessary to completely eradicate persistent HBV infections. HBV ccc DNA levels in HBV-infected human liver cells are extremely low; thus, more reliable and simple measurement methods are needed to correctly monitor their levels during therapeutic treatment. Although reverse transcription-polymerase chain reaction or Southern blot procedures are currently used in research studies, these methods are not completely reliable and are also time-consuming and labor-intensive. Genome editing technologies, such as zinc finger nucleases, transcription activator-like effector nucleases, and the clustered regularly interspaced short palindromic repeats/Cas9(CRISPR/Cas9) system, which are designed to target specific DNA sequences, represent highly promising potential therapeutic tools. In particular, the CRISPR/Cas9 system is an easily customizable sequencespecific nuclease with high flexibility and may be the most feasible approach to target HBV ccc DNA. Further research to develop easier, safer, and more effective protocols should be pursued.
基金Supported by International Cooperation 2021 with Indonesia from the Regione of Friuli Venezia Giulia(Prot.0015911/P)to the FIF.
文摘Chronic infection with hepatitis B virus(HBV)remains a major global health problem,especially in developing countries.It may lead to prolonged liver damage,fibrosis,cirrhosis,and hepatocellular carcinoma.Persistent chronic HBV infection is related to host immune response and the stability of the covalently closed circular DNA(cccDNA)in human hepatocytes.In addition to being essential for viral transcription and replication,cccDNA is also suspected to play a role in persistent HBV infections or hepatitis relapses since cccDNA is very stable in non-dividing human hepatocytes.Understanding the pathogenicity and oncogenicity of HBV components would be essential in the development of new diagnostic tools and treatment strategies.This review summarizes the role and molecular mechanisms of HBV cccDNA in hepatocyte transformation and hepatocarcinogenesis and current efforts to its detection and targeting.
基金Supported by the Henan Medical Science and Technology Research Program,No.LHGJ20210045.
文摘BACKGROUND Minimally invasive or noninvasive,sensitive and accurate detection of colorectal cancer(CRC)is urgently needed in clinical practice.AIM To identify a noninvasive,sensitive and accurate circular free DNA marker detected by digital polymerase chain reaction(dPCR)for the early diagnosis of clinical CRC.METHODS A total of 195 healthy control(HC)individuals and 101 CRC patients(38 in the early CRC group and 63 in the advanced CRC group)were enrolled to establish the diagnostic model.In addition,100 HC individuals and 62 patients with CRC(30 early CRC and 32 advanced CRC groups)were included separately to validate the model.CAMK1D was dPCR.Binary logistic regression analysis was used to establish a diagnostic model including CAMK1D and CEA.RESULTS To differentiate between the 195 HCs and 101 CRC patients(38 early CRC and 63 advanced CRC patients),the common biomarkers CEA and CAMK1D were used alone or in combination to evaluate their diagnostic value.The area under the curves(AUCs)of CEA and CAMK1D were 0.773(0.711,0.834)and 0.935(0.907,0.964),respectively.When CEA and CAMK1D were analyzed together,the AUC was 0.964(0.945,0.982).In differentiating between the HC and early CRC groups,the AUC was 0.978(0.960,0.995),and the sensitivity and specificity were 88.90%and 90.80%,respectively.In differentiating between the HC and advanced CRC groups,the AUC was 0.956(0.930,0.981),and the sensitivity and specificity were 81.30%and 95.90%,respectively.After building the diagnostic model containing CEA and CAMK1D,the AUC of the CEA and CAMK1D joint model was 0.906(0.858,0.954)for the validation group.In differentiating between the HC and early CRC groups,the AUC was 0.909(0.844,0.973),and the sensitivity and specificity were 93.00%and 83.30%,respectively.In differentiating between the HC and advanced CRC groups,the AUC was 0.904(0.849,0.959),and the sensitivity and specificity were 93.00%and 75.00%,respectively.CONCLUSION We built a diagnostic model including CEA and CAMK1D for differentiating between HC individuals and CRC patients.Compared with the common biomarker CEA alone,the diagnostic model exhibited significant improvement.
基金supported by the National Key Research and Development Program of China(2016YFD0500705)Central Public-interest Scientific Institution Basal Research Fund(No.1610302019002)
文摘Fur seal feces-associated circular DNA virus(FSfa CV)is an unclassified circular replication-associated protein(Rep)-encoding single-stranded(CRESS)DNA virus that has been detected in mammals(fur seals and pigs).The biology and epidemiology of the virus remain largely unknown.To investigate the virus diversity among pigs in Anhui Province,China,we pooled 600 nasal samples in 2017 and detected viruses using viral metagenomic methods.From the assembled contigs,12 showed notably high nucleotide acid sequence similarities to the genome sequences of FSfa CVs.Based on these sequences,a full-length genome sequence of the virus was then obtained using overlapping PCR and sequencing,and the virus was designated as FSfa CV-CHN(Gen Bank No.MK462122).This virus shared 91.3%and 90.9%genome-wide nucleotide sequence similarities with the New Zealand fur seal strain FSfa CV-as50 and the Japanese pig strain FSfa CVJPN1,respectively.It also clustered with the two previously identified FSfa CVs in a unique branch in the phylogenetic tree based on the open reading frame 2(ORF2),Rep-coding gene,and the genome of the reference CRESS DNA viruses.Further epidemiological investigation using samples collected in 2018 showed that the overall positive rate for the virus was 56.4%(111/197)in Anhui Province.This is the first report of FSfa CVs identified in pigs in China,and further epidemiological studies are warranted to evaluate the influence of the virus on pigs.
基金Supported by National Natural Science Foundation of China,No. 81972010National Key Research and Development Program of China,No. 2020YFC2002700National Key Research and Development Program of China,No. 2020YFC2004604。
文摘BACKGROUND Colorectal cancer(CRC) is the third most common cancer worldwide, and it is the second leading cause of death from cancer in the world, accounting for approximately 9% of all cancer deaths. Early detection of CRC is urgently needed in clinical practice.AIM To build a multi-parameter diagnostic model for early detection of CRC.METHODS Total 59 colorectal polyps(CRP) groups, and 101 CRC patients(38 early-stage CRC and 63 advanced CRC) for model establishment. In addition, 30 CRP groups,and 62 CRC patients(30 early-stage CRC and 32 advanced CRC) were separately included to validate the model. 51 commonly used clinical detection indicators and the 4 extrachromosomal circular DNA markers NDUFB7, CAMK1D, PIK3CD and PSEN2 that we screened earlier. Four multi-parameter joint analysis methods:binary logistic regression analysis, discriminant analysis, classification tree and neural network to establish a multi-parameter joint diagnosis model.RESULTS Neural network included carcinoembryonic antigen(CEA), ischemia-modified albumin(IMA),sialic acid(SA), PIK3CD and lipoprotein a(LPa) was chosen as the optimal multi-parameter combined auxiliary diagnosis model to distinguish CRP and CRC group, when it differentiated 59CRP and 101 CRC, its overall accuracy was 90.8%, its area under the curve(AUC) was 0.959(0.934,0.985), and the sensitivity and specificity were 91.5% and 82.2%, respectively. After validation,when distinguishing based on 30 CRP and 62 CRC patients, the AUC was 0.965(0.930-1.000), and its sensitivity and specificity were 66.1% and 70.0%. When distinguishing based on 30 CRP and 32early-stage CRC patients, the AUC was 0.960(0.916-1.000), with a sensitivity and specificity of 87.5% and 90.0%, distinguishing based on 30 CRP and 30 advanced CRC patients, the AUC was 0.970(0.936-1.000), with a sensitivity and specificity of 96.7% and 86.7%.CONCLUSION We built a multi-parameter neural network diagnostic model included CEA, IMA, SA, PIK3CD and LPa for early detection of CRC, compared to the conventional CEA, it showed significant improvement.
文摘The availability of the plastid genome sequences is one of the bases for comparative,functional,and structural genomic studies of plastid-containing living organisms,in addition to the application
基金supported by the Young Investigator Award received by Yan in 2006the Foundation for the Visiting PhD Candidate of the Chinese Academy of Science received by Liu in 2006
文摘Circular double stranded DNA has different topological states which are defined by their linking numbers.Equilibrium distribution of linking numbers can be obtained by closing a linear DNA into a circle by ligase.Using Monte Carlo simulation,we predict the temperature dependence of the linking number distribution of small circular DNAs.Our predictions are based on flexible defect excitations resulted from local melting or unstacking of DNA base pairs.We found that the reduced bending rigidity alone can lead to measurable changes of the variance of linking number distribution of short circular DNAs.
