Research progress and prospects of nucleic acid isothermal amplification technology

Nucleic acid(DNA and RNA)detection and quantification methods play vital roles in molecular biology.With the development of molecular biology,isothermal amplification of DNA/RNA,as a new molecular biology technology,can be amplified under isothermal condition,it has the advantages of high sensitivity,high specificity,and high efficiency,and has been applied in various fields of biotechnology,including disease diagnosis,pathogen detection,food hygiene and safety detection and so on.This paper introduces the progress of isothermal amplification technology,including rolling circle amplification(RCA),nucleic acid sequence-dependent amplification(NASBA),strand displacement amplification(SDA),loop-mediated isothermal amplification(LAMP),helicase-dependent amplification(HDA),recombinase polymerase amplification(RPA),cross-priming amplification(CPA),and its principle,advantages and disadvantages,and application development are briefly summarized.

Ultrathin metal-organic framework nanosheets (Cu-TCPP)-based isothermal nucleic acid amplification for food allergen detection

The rapid and accurate detection of peanuts and soybeans allergen is important to the food safety. In this study, Cu-TCPP nanosheet, a kind of ultra-thin metal-organic framework(MOF)was synthesized and applied in loop-mediated isothermal amplification(named Cu-TCPP@LAMP), which can inhibit the non-specific amplification by absorbing and precise temperature releasing of single primer. As thus, Cu-TCPP@LAMP can achieve high sensitivity and specific amplification of the target gene. As a result, peanut and soybean allergens genes contained in food were successfully detected with a favorable detection sensitivity(5 ng/μL for peanuts and 10 ng/μL for soybeans)and reliable repeatability(The coefficient of variation was 3.38% for peanuts and 3.33% for soybeans). Moreover, the established method was utilized for detection of several commercial products, and had a high consistency with the standard method. Apart from food allergens, this novel assay can be widely used in other areas, such as pathogen detection, tumor nucleic acid detection and so on.

Non-exposed endoscopic wall-inversion surgery with one-step nucleic acid amplification for early gastrointestinal tumors:Personal experience and literature review

BACKGROUND Laparoscopic and endoscopic cooperative surgery is a safe,organ-sparing surgery that achieves full-thickness resection with adequate margins.Recent studies have demonstrated the safety and efficacy of these procedures.However,these techniques are limited by the exposure of the tumor and mucosa to the peritoneal cavity,which could lead to viable cancer cell seeding and the spillage of gastric juice or enteric liquids into the peritoneal cavity.Non-exposed endoscopic wallinversion surgery(NEWS)is highly accurate in determining the resection margins to prevent intraperitoneal contamination because the tumor is inverted into the visceral lumen instead of the peritoneal cavity.Accurate intraoperative assessment of the nodal status could allow stratification of the extent of resection.One-step nucleic acid amplification(OSNA)can provide a rapid method of evaluating nodal tissue,whilst nearinfrared laparoscopy together with indocyanine green can identify relevant nodal tissue intraoperatively.AIM To determine the safety and feasibility of NEWS in early gastric and colon cancers and of adding rapid intraoperative lymph node(LN)assessment with OSNA.METHODS The patient-based experiential portion of our investigations was conducted at the General and Oncological Surgery Unit of the St.Giuseppe Moscati Hospital(Avellino,Italy).Patients with early-stage gastric or colon cancer(diagnosed via endoscopy,endoscopic ultrasound,and computed tomography)were included.All lesions were treated by NEWS procedure with intraoperative OSNA assay between January 2022 and October 2022.LNs were examined intraoperatively with OSNA and postoperatively with conventional histology.We analyzed patient demographics,lesion features,histopathological diagnoses,R0 resection(negative margins)status,adverse events,and follow-up results.Data were collected prospectively and analyzed retrospectively.RESULTS A total of 10 patients(5 males and 5 females)with an average age of 70.4±4.5 years(range:62-78 years)were enrolled in this study.Five patients were diagnosed with gastric cancer.The remaining 5 patients were diagnosed with early-stage colon cancer.The mean tumor diameter was 23.8±11.6 mm(range:15-36 mm).The NEWS procedure was successful in all cases.The mean procedure time was 111.5±10.7 min(range:80-145 min).The OSNA assay revealed no LN metastases in any patients.Histologically complete resection(R0)was achieved in 9 patients(90.0%).There was no recurrence during the follow-up period.CONCLUSION NEWS combined with sentinel LN biopsy and OSNA assay is an effective and safe technique for the removal of selected early gastric and colon cancers in which it is not possible to adopt conventional endoscopic resection techniques.This procedure allows clinicians to acquire additional information on the LN status intraoperatively.

One New Method of Nucleic Acid Amplification-Loop-mediated Isothermal Amplification of DNA

Loop-mediated isothermal amplification (LAMP) is a novel nucleic acid amplification method, which amplifies DNA with high specificity, sensitivity, rapidity and efficiency under isothermal conditions using a set of four specially designed primers and a Bst DNA polymerase with strand displacement activity. The basic principle, characteristics, development of LAMP and its applications are summarized in this article.

Development of Nucleic Acid Sequence-Based Amplification Assay for Detection of Macrobrachium rosenbergii Nodavirus

A nucleic acid sequence-based amplification（NASBA）assay was established for the detection of Macrobrachium rosenbergii Nodavirus（MrNV）.The specific primers were designed according to the high conserved region of RNA2 sequence of MrNV.The 224 bp specific amplification product was obtained in positive sample determined with 3%agarose gel electrophoresis,while no product was generated from shrimp infected with other viruses including DNA viruses（IHHNV,WSSV）and RNA viruses（TSV,IMNV,YHV）.The detecting limit of the assay was 8pg nucleic acid,which is more sensitive than that of PCR method.

Role of one-step nucleic acid amplification in colorectal cancer lymph node metastases detection

Current histopathological staging procedures in colorectal cancer(CRC)depend on midline division of the lymph nodes(LNs)with one section of hematoxylin and eosin staining.Cancer cells outside this transection line may be missed,which could lead to understaging of Union for International Cancer Control Stage II high-risk patients.The one-step nucleic acid amplification(OSNA)assay has emerged as a rapid molecular diagnostic tool for LN metastases detection.It is a molecular technique that can analyze the entire LN tissue using a reversetranscriptase loop-mediated isothermal amplification reaction to detect tumorspecific cytokeratin 19 mRNA.Our findings suggest that the OSNA assay has a high diagnostic accuracy in detecting metastatic LNs in CRC and a high negative predictive value.OSNA is a standardized,observer-independent technique,which may lead to more accurate staging.It has been suggested that in stage II CRC,the upstaging can reach 25%and these patients can access postoperative adjuvant chemotherapy.Moreover,intraoperative OSNA sentinel node evaluation may allow early CRC to be treated with organ-preserving surgery,while in more advanced-stage disease,a tailored lymphadenectomy can be performed considering the presence of aberrant lymphatic drainage and skip metastases.

Fatty acid binding protein 5 is a novel therapeutic target for hepatocellular carcinoma

BACKGROUND Hepatocellular carcinoma(HCC)is an aggressive subtype of liver cancer and is one of the most common cancers with high mortality worldwide.Reprogrammed lipid metabolism plays crucial roles in HCC cancer cell survival,growth,and evolution.Emerging evidence suggests the importance of fatty acid binding proteins(FABPs)in contribution to cancer progression and metastasis;however,how these FABPs are dysregulated in cancer cells,especially in HCC,and the roles of FABPs in cancer progression have not been well defined.AIM To understand the genetic alterations and expression of FABPs and their associated cancer hallmarks and oncogenes in contributing to cancer malignancies.METHODS We used The Cancer Genome Atlas datasets of pan cancer and liver hepatocellular carcinoma(LIHC)as well as patient cohorts with other cancer types in this study.We investigated genetic alterations of FABPs in various cancer types.mRNA expression was used to determine if FABPs are abnormally expressed in tumor tissues compared to non-tumor controls and to investigate whether their expression correlates with patient clinical outcome,enriched cancer hallmarks and oncogenes previously reported for patients with HCC.We determined the protein levels of FABP5 and its correlated genes in two HCC cell lines and assessed the potential of FABP5 inhibition in treating HCC cells.RESULTS We discovered that a gene cluster including five FABP family members(FABP4,FABP5,FABP8,FABP9 and FABP12)is frequently co-amplified in cancer.Amplification,in fact,is the most common genetic alteration for FABPs,leading to overexpression of FABPs.FABP5 showed the greatest differential mRNA expression comparing tumor with non-tumor tissues.High FABP5 expression correlates well with worse patient outcomes(P<0.05).FABP5 expression highly correlates with enrichment of G2M checkpoint(r=0.33,P=1.1e-10),TP53 signaling pathway(r=0.22,P=1.7e-5)and many genes in the gene sets such as CDK1(r=0.56,P=0),CDK4(r=0.49,P=0),and TP53(r=0.22,P=1.6e-5).Furthermore,FABP5 also correlates well with two co-expressed oncogenes PLK1 and BIRC5 in pan cancer especially in LIHC patients(r=0.58,P=0;r=0.58,P=0;respectively).FABP5high Huh7 cells also expressed higher protein levels of p53,BIRC5,CDK1,CDK2,and CDK4 than FABP5low HepG2 cells.FABP5 inhibition more potently inhibited the tumor cell growth in Huh7 cells than in HepG2 cells.CONCLUSION We discovered that FABP5 gene is frequently amplified in cancer,especially in HCC,leading to its significant elevated expression in HCC.Its high expression correlates well with worse patient outcome,enriched cancer hallmarks and oncogenes in HCC.FABP5 inhibition impaired the cell viability of FABP5high Huh7 cells.All these support that FABP5 is a novel therapeutic target for treating FABP5high HCC.

Recombinase polymerase amplification as a promising tool in hepatitis C virus diagnosis

Hepatitis C virus(HCV)infection represents a significant health problem and represents a heavy load on some countries like Egypt in which about 20%of the total population are infected.Initial infection is usually asymptomatic and result in chronic hepatitis that give rise to complications including cirrhosis and hepatocellular carcinoma.The management of HCV infection should not only be focus on therapy,but also to screen carrier individuals in order to prevent transmission.In the present,molecular detection and quantification of HCV genome by real time polymerase chain reaction(PCR)represent the gold standard in HCV diagnosis and plays a crucial role in the management of therapeutic regimens.However,real time PCR is a complicated approach and of limited distribution.On the other hand,isothermal DNA amplification techniques have been developed and offer molecular diagnosis of infectious dieses at point-of-care.In this review we discuss recombinase polymerase amplification technique and illustrate its diagnostic value over both PCR and other isothermal amplification techniques.

Cascaded DNA circuits-programmed self-assembly of spherical nucleic acids for high signal amplification

Signal amplification is an important issue in DNA nanotechnology and molecular diagnostics.In this work,we report a strategy for the catalytic self-assembly of spherical nucleic acids(SNAs)programmed by two-layer cascaded DNA circuits through integrating an entropy-driven catalytic network,a catalytic hairpin assembly circuit,and a facile SNA assembly-based reporter system.This integrated system could implement^100,000-fold signal amplification in the presence of 1 pM of input target.Possessing powerful amplification ability of nucleic acid signal,our strategy should be of great potential in fabricating more robust dynamic networks to be applied for signal transduction,DNA computing,and nucleic acid-based diagnostics.

GeneXpert MTB/RIF检测技术在新疆结核病防治规划中的应用效果

目的:探索在施行结核病防治“新疆模式”中,全面应用GeneXpert MTB/RIF(简称“GeneXpert”)检测发现肺结核及利福平耐药肺结核的效果。方法:从“中国疾病预防控制信息系统”的子系统“结核病管理信息系统”中,收集2017—2020年新疆维吾尔自治区(简称“新疆”)肺结核登记数据,对全面应用GeneXpert检测的效果进行分析,评价2017-2020年肺结核病原学阳性率、利福平耐药检测率、利福平耐药患者发现水平的变化。结果:GeneXpert设备覆盖率、GeneXpert检测率、病原学阳性率分别从2017年的20.00%(22/110)、0.32%(126/39 261)和20.17%(7919/39 261)提高到2020年的100.00%(110/110)、75.16%(19 610/26 090)和57.94%(15 116/26 090),差异均有统计学意义(χ^(2)=40.705,P<0.001;χ^(2)=174.087,P<0.001;χ^(2)=47.569,P<0.001)。病原学阳性患者数从2017年的7919例提高到2020年的15 116例,仅GeneXpert检测阳性患者数从2017年的6例提高到2020年的7194例,所占比例从0.08%(6/7919)提高到47.59%(7194/15 116),差异有统计学意义(χ^(2)=83.824,P<0.001)。病原学阳性肺结核患者利福平耐药筛查率和GeneXpert耐药检测率分别从2017年的44.49%(3523/7919)和1.85%(65/3523)提高到2020年的99.79%(15 084/15 116)和96.13%(14 501/15 084),差异均有统计学意义(χ^(2)=133.333,P<0.001;χ^(2)=250.893,P<0.001)。结论:GeneXpert检测技术的应用,可以明显提升病原学阳性和利福平耐药肺结核的发现水平,有利于新疆结核病疫情的快速下降。

结核分枝杆菌/利福平耐药实时荧光定量核酸扩增检测对菌阴空洞肺结核的诊断效能分析

目的探讨结核分枝杆菌/利福平耐药实时荧光定量核酸扩增(Xpert)检测对菌阴空洞肺结核的诊断效能。方法选取河北省胸科医院2021年4月至2022年10月期间行手术治疗的124例肺部空洞疾病患者相关病历资料,其中菌阴空洞肺结核86例(观察组),非结核肺部空洞疾病38例(对照组)。收集患者手术标本Xpert检测和外周血结核感染T细胞斑点(T-SPOT)试验结果,分析二者对菌阴空洞肺结核的诊断效能。结果Xpert检测和T-SPOT试验诊断菌阴空洞肺结核的敏感度为68.6%、75.6%,特异度为97.4%、68.4%。Xpert检测的敏感度低于T-SPOT试验(χ^(2)=5.832,P<0.001),特异度高于T-SPOT试验(χ^(2)=21.469,P<0.001)。2种方法在观察组中的阳性检出率均高于对照组[Xpert检测:68.6%(59/86)比2.6%(1/38);T-SPOT试验:75.6%(65/86)比31.6%(12/38)](均P<0.001)。受试者工作特征曲线分析结果显示,Xpert检测诊断菌阴空洞肺结核的曲线下面积为0.830,T-SPOT试验的曲线下面积为0.729,Xpert检测的准确度高于T-SPOT试验(P<0.001)。结论Xpert检测对菌阴空洞肺结核有比较可靠的诊断效能。

A microfluidic surface-enhanced Raman scattering(SERS) sensor for microRNA in extracellular vesicles with nucleic acid-tyramine cascade amplification

Exosomal micro RNA(mi RNA) is an ideal candidate of noninvasive biomarker for the early diagnosis of cancer. Sensitive and accurate sensing of abnormal exosomal mi RNA plays essential role for clinical promotion due to its close correlation with tumor proliferation and progression. Herein, a microfluidic surface-enhanced Raman scattering(SERS) sensor was proposed for an on-line detection of exosomal mi RNA based on rolling circle amplification(RCA) and tyramine signal amplification(TSA) strategy. The microfluidic chip consists of a magnetic enrichment chamber, a serpentine fluidic mixer and a plasmonic SERS substrate functionalized with capture probes. The released mi RNA activates the capture probe, triggers RCA reaction, and generates a large number of single-stranded DNA products to drive the catalysis of nanotags deposition via TSA, producing numerous “hot spots” to enhance the SERS signals. In merit of the microfluidics chip and nucleic acid-tyramine cascade amplification, the developed SERS sensor significantly improves the sensitivity for the exosomal mi RNA assay, resulting in a limit of detection(LOD) as low as 1 pmol/L and can be successfully applied in the analysis of exosomes secreted from breast tumor cells, which demonstrates the potential utility in practical applications.

基于DNA步行器的传感器技术在食品安全检测中的研究进展

随着DNA纳米技术的快速发展,各种结构和功能的DNA分子被用于构建具有动态行为的可编程纳米机器。其中,DNA步行器因其能够借助驱动力在预定轨道上自主、逐步移动以产生级联信号放大的优势,成为了生物传感、生物成像以及药物递送等领域日益增长的研究热点,在食品污染物快速超灵敏检测方面展现出巨大的应用潜力。本综述首先简要介绍了DNA步行器的基本原理,并着重阐述了提升DNA步行器行走效率的策略,然后总结了其在食品安全检测中的应用,最后对DNA步行器未来研究方向进行了展望,为推动其实际应用提供了理论指导。

CRISPR/Cas-等温扩增技术在食源性病原菌检测中的研究进展

食源性病原菌引起的食品安全事件引起广泛关注,为保证食品安全,采取有效的检测手段至关重要。新兴的簇状规则间隔短回文重复序列(clustered regularly interspaced short palindromic repeats,CRISPR)及其关联蛋白(CRISPR-associated protein,Cas)组成的CRISPR/Cas系统是广泛存在于细菌和古细菌中的一种获得性免疫系统,可高效、特异性识别并切割外源核酸,与传统技术相比在检测病原菌方面更为高效。本文基于CRISPR/Cas生物传感系统-等温扩增技术联用的相关研究进行综述,对CRISPR/Cas系统的分类、原理以及与等温扩增耦合后在食源性病原菌检测方面的研究进展进行概述,并对其在即时检测应用中的前景以及所面临的挑战进行深入探讨,以期为CRISPR/Cas生物传感系统的进一步发展提供参考。

环介导等温扩增技术在病原微生物临床检测中的应用

病原微生物是威胁人类健康的重要因素之一,快速、准确的检测方法对于感染性疾病的诊断具有重要意义。环介导等温扩增(LAMP)是一种恒温扩增方法,具有反应时间短、操作简便、灵敏度高、特异度高、检测成本低等优点,因此被广泛应用于感染性疾病的快速诊断。基于这种情况,该文主要阐述了LAMP的原理、特点及其在临床常见病原微生物检测方面的应用与研究进展。LAMP技术现在已经被应用于病原微生物的检测,且具有较高的灵敏度及特异度,但该技术仍有易产生假阳性、引物设计复杂等不足之处。该文综述了近年来LAMP技术在病原微生物感染中的应用与进展,并对其未来的发展前景进行了展望,以期在资源有限的环境中为病原微生物感染的快速诊断提供合理的研究方向。

结核感染T细胞斑点试验、结核分枝杆菌核酸恒温扩增检测及腺苷脱氨酶联合检测在结核性胸腔积液诊断中的价值

目的探讨结核感染T细胞斑点试验(T-SPOT.TB)、结核分枝杆菌核酸恒温扩增检测(TB-SAT)、腺苷脱氨酶(ADA)联合检测对结核性胸腔积液的诊断价值。方法选择2021年1月至2021年12月于新乡医学院第一附属医院就诊的135例胸腔积液患者为研究对象,其中结核性胸腔积液患者83例,非结核性胸腔积液患者52例。135例患者均进行外周血T-SPOT.TB、胸腔积液TB-SAT和胸腔积液ADA检测,比较3种方法单独检测和联合检测诊断结核性胸腔积液的灵敏度及特异度。结果T-SPOT.TB、TB-SAT、ADA单独检测诊断结核性胸腔积液的灵敏度、特异度比较差异均无统计学意义(P>0.05)。T-SPOT.TB+TB-SAT联合检测诊断结核性胸腔积液的灵敏度显著高于T-SPOT.TB、TB-SAT、ADA单独检测(χ^(2)=4.990、13.410、14.590,P<0.05);T-SPOT.TB+TB-SAT联合检测诊断结核性胸腔积液的特异度与T-SPOT.TB、TB-SAT、ADA单独检测比较差异均无统计学意义(χ^(2)=0.000、2.420、0.060,P>0.05)。T-SPOT.TB+ADA联合检测诊断结核性胸腔积液的灵敏度显著高于ADA单独检测(χ^(2)=4.069,P<0.05),与T-SPOT.TB、TB-SAT单独检测比较差异无统计学意义(χ^(2)=0.055、3.384,P>0.05)。T-SPOT.TB+ADA联合检测诊断结核性胸腔积液的特异度显著低于T-SPOT.TB、TB-SAT、ADA单独检测(χ^(2)=4.370、12.511、5.371,P<0.05)。TB-SAT+ADA联合检测诊断结核性胸腔积液的灵敏度与T-SPOT.TB、TB-SAT、ADA单独检测比较差异均无统计学意义(χ^(2)=0.000、2.604、3.213,P>0.05)。TB-SAT+ADA联合检测诊断结核性胸腔积液的特异度显著低于TB-SAT单独检测(χ^(2)=5.765,P<0.05),与T-SPOT.TB、ADA单独检测比较差异均无统计学意义(χ^(2)=0.782、1.251,P>0.05)。T-SPOT.TB+TB-SAT+ADA三者联合检测诊断结核性胸腔积液的灵敏度显著高于T-SPOT.TB、TB-SAT、ADA单独检测(χ^(2)=6.760、15.755、16.966,P<0.05);T-SPOT.TB+TB-SAT+ADA三者联合检测诊断结核性胸腔积液的特异度显著低于T-SPOT.TB、TB-SAT、ADA单独检测(χ^(2)=4.370、12.511、5.371,P<0.05)。T-SPOT.TB+TB-SAT联合检测诊断结核性胸腔积液的灵敏度显著高于T-SPOT.TB+ADA、TB-SAT+ADA联合检测(χ^(2)=4.090、4.990,P<0.05);T-SPOT.TB+ADA联合检测与TB-SAT+ADA联合检测诊断结核性胸腔积液的灵敏度比较差异无统计学意义(χ^(2)=0.060,P>0.05)。T-SPOT.TB+TB-SAT联合检测诊断结核性胸腔积液的特异度显著高于T-SPOT.TB+ADA联合检测(χ^(2)=4.371,P<0.05);TB-SAT+ADA联合检测诊断结核性胸腔积液的特异度与T-SPOT.TB+TB-SAT、T-SPOT.TB+ADA联合检测比较差异无统计学意义(χ^(2)=0.780、1.490,P>0.05)。T-SPOT.TB+TB-SAT+ADA三者联合检测诊断结核性胸腔积液的灵敏度与T-SPOT.TB+TB-SAT联合检测比较差异无统计学意义(χ^(2)=0.210,P>0.05);T-SPOT.TB+TB-SAT+ADA三者联合检测诊断结核性胸腔积液的灵敏度显著高于T-SPOT.TB+ADA、TB-SAT+ADA联合检测(χ^(2)=5.750、6.760,P<0.05)。T-SPOT.TB+TB-SAT+ADA三者联合检测诊断结核性胸腔积液的特异度显著低于T-SPOT.TB+TB-SAT联合检测(χ^(2)=4.370,P<0.05);T-SPOT.TB+TB-SAT+ADA三者联合检测诊断结核性胸腔积液的特异度与T-SPOT.TB+ADA、TB-SAT+ADA联合检测比较差异无统计学意义(χ^(2)=0.000、1.490,P>0.05)。结论联合检测较单一检测诊断结核性胸腔积液效果理想,外周血T-SPOT.TB联合胸腔积液TB-SAT诊断结核性胸腔积液的总体效能最好。联合检测能有效降低漏诊率和误诊率,对结核性胸腔积液具有较高的临床应用价值。

基于酶促重组酶扩增的非洲猪瘟病毒检测方法

建立基于酶促重组酶扩增(enzymatic recombinase amplification,ERA)技术的非洲猪瘟病毒(African swine fever virus,ASFV)核酸快速检测方法。针对ASFV B646L基因保守序列,设计特异性的ERA探针和引物,经过反应条件的优化,建立等温条件下检测ASFV DNA的ERA方法。结果显示:建立的ERA检测ASFV方法特异性强与其它病原无交叉反应;CV均小于10%,具有良好的重复性;对阳性样品拷贝数的检测下限为85 copies·μL^(-1);与世界动物卫生组织(WOAH)非洲猪瘟qPCR诊断方法对比,Kappa值为0.961,具有高度一致性。本研究建立的基于ERA检测ASFV方法可以用于ASFV的现场快速检测。

应用Proofman-LMTIA技术双重检测当归和东当归

通过梯型熔解温度核酸等温扩增技术(Ladder-shape melting temperature nucleic acid isothermal amplification,LMTIA)与校对酶介导探针(Proofreading enzyme-mediated probe cleavage,Proofman)联合的方法对当归和东当归进行双重检测。以ddH2O为阴性模板,当归和东当归基因组DNA为阳性模板,测定当归和东当归引物的最适温度、灵敏度及稳定性,并进行了真实样品检测。结果表明,应用Proofman-LMTIA双重检测当归和东当归,引物测定的最适温度为62℃,当归引物灵敏度低至10 pg/μL,东当归引物灵敏度低至1 pg/μL,具有良好的稳定性。7份市售当归样品经检测均为当归。该研究可为当归和东当归的鉴别提供一种新的检测方法。

适用于RPA-LFD技术检测对虾肝胰腺DNA样品的快速制备试剂研究

为摆脱常规核酸样品提取步骤繁琐、耗时等问题,实现真正的现场快速检测,本研究致力于研制和优化一种对虾肝胰腺中DNA样品的核酸快速制备试剂,即核酸释放剂,适用于重组酶聚合酶扩增技术(recombinasepolymeraseamplication,RPA)与侧向流层析试纸条技术(lateralflow dipstick, LFD)结合的RPA-LFD技术检测。实验优选20~100 mmol/L Tris-HCl、50~250 mmol/L KCl、0.01%~0.10%十二烷基硫酸锂(LDS)、0.5%~2.0%聚乙二醇辛基苯基醚(TritonX-100)、1~5mmol/L乙二胺四乙酸二钠(EGTA2Na)、0.5~5.0 mmol/L牛血清白蛋白(BSA)、1~5 mg/mL明胶、0.01%~0.10%海藻糖、1%~5%甜菜碱等配制成核酸释放剂。以对虾肝肠孢虫(Enterocytozoonhepatopenaei,EHP)阳性样本和阴性样本对核酸释放剂各组分间配比进行优化,采集绿豆大小的对虾肝胰腺组织加入100μL核酸释放剂,100℃加热3 min,取上清液进行RPA-LFD反应,测试各组分不同浓度配比;并以对虾急性肝胰腺坏死病(acute hepatopancreatic necrosis disease, AHPND)阳性样品及阴性样品作为检测模板对优化后核酸释放剂再次验证。结果显示,核酸释放剂的各组分最佳配比为100 mmol/L Tris-HCl、100 mmol/L KCl、0.02%LDS、0.5%Triton X-100、1 mmol/L EGTA2Na、0.05%海藻糖、1 mg/mL明胶、0.5 mmol/L BSA、2%甜菜碱。RPA-LFD方法检测可显著区分阳性和阴性样品。本研究优化的核酸释放剂,适用于RPA-LFD检测对虾肝胰腺病原DNA样品的制备,有效避免了常规DNA样品繁琐、耗时的制备步骤,极大地提高了核酸水平病原检测效率。

表面增强拉曼散射光谱在miRNAs检测中的研究进展

表面增强拉曼散射(SERS)因其灵敏度高、非侵入性、多路检测等特点,已广泛应用于生物医学检测。研究发现微小核糖核酸(miRNAs)的异常表达与多种疾病有关,miRNAs已成为一种新型的生物标志物。开发简单、灵敏、可靠的miRNAs检测方法,对miRNAs的生物学功能研究、医学诊断、疾病治疗和靶向药物研究具有重要意义。目前,与核酸信号放大策略相结合的纳米SERS探针,用于miRNAs检测表现出较高的灵敏度。然而实际样本中成分复杂,易产生背景信号,干扰检测结果;分离纯化过程繁琐,增加了检测时间。近年来,研究者们通过结合其他技术来优化检测,提高样本检测通量、简化操作、减少分析时间、提高分辨率。该论文主要介绍了基于SERS技术的miRNAs检测方法的最新进展,讨论了技术融合的优势与必要性,并总结了基于SERS技术的miRNAs检测用于临床检测还存在的问题,旨在为设计新型快速灵敏可靠的miRNAs SERS检测平台提供参考。