Target-induced Trivalent G-quadruplex/hemin DNAzyme for Colorimetric Detection of Hg^(2+) Based on an Exonuclease III Assisted Catalytic Hairpin Assembly

Mercury ion(Hg^(2+)),a highly noxious of heavy metalion,has detrimental effects on the ecological environment and human health.Herein,we have developed an exonuclease III(Exo III)assisted catalytic hairpin assembly formation of a trivalent G-quadruplex/hemin DNAzyme for colorimetric detection of Hg^(2+).A hairpin DNA(Hr)was designed with thymine-Hg^(2+)-thymine pairs that catalyzed by Exo III is prompted to happen upon binding Hg^(2+).A released DNA fragment triggers the catalytic assembly of other three hairpins(H1,H2,and H3)to form many trivalent G-quadruplex/hemin DNA enzymes for signal output.The developed sensor shows a dynamic range from 2 pM to 2μM,with an impressively low detection limit of 0.32 pM for Hg^(2+)detection.Such a sensor also has good selectivity toward Hg^(2+)detection in the presence of other common metal ions.This strategy shows the great potential for visual detection with portable type.

Preparation and application of g-C_3N_4-ZnS-DNA nanocomposite with enhanced electrocatalytic activity

We successfully designed and prepared a g-C3N4-ZnS-DNA nanocomposite by a simple method and systematically investigated its morphology,microstructure,and electrocatalytic properties.The as-prepared g-C3N4-ZnS-DNA nanocomposite possessed the electrocatalytic activity of g-C3N4-ZnS and the conductivity of DNA.The presence of DNA was found to enhance the electrocatalytic response of the nanocomposite towards environmental hormones,e.g.pentachlorophenol and nonylphenol,owing to the interaction between g-C3N4-ZnS and DNA,indicating that a stable nanocomposite was formed.The three components showed synergistic effects during electrocatalysis.Electrochemical impedance spectra indicated that the g-C3N4-ZnS-DNA nanocomposite dramatically facilitated the electron transfer of a modified electrode.The co-doping of g-C3N4 film with ZnS and DNA doubled the electrochemical response of the modified electrode in comparison with that of unmodified g-C3N4 film.The detection limits（3 S/N） of pentachlorophenol and nonylphenol were3.3×10^-9 mol L^-1.Meanwhile,we propose a possible Z-scheme mechanism for electron transfer in the g-C3N4-ZnS-DNA nanocomposite and the possible pentachlorophenol and nonylphenol electrocatalytic oxidation mechanism.The g-C3N4-ZnS-DNA nanocomposite-modified electrode was demonstrated to be effective for electrochemical sensing of trace environmental hormones in water samples.

Inhibition of DNA-dependent Protein Kinase Catalytic Subunit by Small Molecule Inhibitor NU7026 Sensitizes Human Leukemic K562 Cells to Benzene Metabolite-induced Apoptosis

Benzene is an established leukotoxin and leukemogen in humans. We have previously re- ported that exposure of workers to benzene and to benzene metabolite hydroquinone in cultured cells induced DNA-dependent protein kinase catalytic subunit （DNA-PKcs） to mediate the cellular response to DNA double strand break （DSB） caused by DNA-damaging metabolites. In this study, we used a new, small molecule, a selective inhibitor of DNA-PKcs, 2-（morpholin-4-yl）-benzo[h]chomen-4-one （NU7026）, as a probe to analyze the molecular events and pathways in hydroquinone-induced DNA DSB repair and apoptosis. Inhibition of DNA-PKcs by NU7026 markedly potentiated the apoptotic and growth inhibitory effects of hydroquinone in proerythroid leukemic K562 cells in a dose-dependent manner. Treatment with NU7026 did not alter the production of reactive oxygen species and oxidative stress by hydroquinone but repressed the protein level of DNA-PKcs and blocked the induction of the kinase mRNA and protein expression by hydroquinone. Moreover, hydroquinone increased the phos- phorylation of Akt to activate Akt, whereas co-treatment with NU7026 prevented the activation of Akt by hydroquinone. Lastly, hydroquinone and NU7026 exhibited synergistic effects on promoting apop- tosis by increasing the protein levels of pro-apoptotic proteins Bax and caspase-3 but decreasing the protein expression of anti-apoptotic protein Bcl-2. Taken together, the findings reveal a central role of DNA-PKcs in hydroquinone-induced hematotoxicity in which it coordinates DNA DSB repair, cell cycle progression, and apoptosis to regulate the response to hydroquinone-induced DNA damage.

Catalytic hydrolysis of phosphate diester (BNPP) and plasmid DNA by mononuclear macrocyclic polyamine metal complexes

The activities of the catalytic hydrolysis of phosphate diester （BNPP） [bis（p-nitrophenyl）phosphate diester] and plasmid DNA （pUC 18） by mononuclear macrocyclic polyamine metal complexes have been investigated in this paper. The results showed that the highest activity in hydrolysis of BNPP was obtained with le--Zn（II） complex （composed of lipophilic group） as catalyst. The hydrolysis rate enhancement is up to 3.64 × 10^4 fold. These metal complexes could effectively promote the cleavage of plasmid DNA （pUC18） at physiological conditions.

Synthesis, Crystal Structure, DNA Binding and Catalytic Activities of a New Unsymmetrical Macrocyclic Dinuclear Zn(Ⅱ) Complex

An unsymmetrical macrocyclic dinuclear Zn（II） complex, [Zn2（H0.5L）（OAc）]（ClO4）1.5（1, H2 L is the condensation product between 2, 6-diformyl-4-methylphenol and diethylenetriamine）, was obtained and characterized by IR spectrum, elemental analysis and X-ray single-crystal diffraction. The complex crystallizes in monoclinic, space group P21/c with a = 16.784（2）, b = 19.474（3）, c = 10.3364（13）A, β = 92.923（2）°, V = 3374.1（7） A3, Z = 4, Dc = 1.672 g/cm^3, F（000） = 1740, μ = 1.651 mm^-1, the R = 0.0609 and wR = 0.1696 for 4745 observed reflections（I 〉 2σ（I））. The interactions of the complex with DNA have been measured by electrochemical studies, UV spectroscopy and viscosity experiment. The interactions of the complex with calf thymus DNA were studied by UV-vis spectra and the binding constant is 1.58 × 10^4 mol·L^-1. The phosphate hydrolysis catalyzed by the complex was investigated using 4-nitrophenyl phosphate（NPP） as the substrate; the observed first order rate constant value is 3.0 × 10^–4 s^-1.

Hypersensitive Inhibition of the Proliferation of Cells with Mutated DNA Repair-Related Genes by the Catalytic Topoisomerase II Inhibitor 20-O-IngenolEZ

We previously reported that many ingenol compounds derived from Euphoria kansui exhibit topoisomerase inhibitory activity. 20-O-ingenolEZ in these compounds exerted inhibitory effects on both topoisomerase II (topo II) activity and cell proliferative activity. Topoisomerase II inhibitors can be divided into the poison and catalytic inhibitor types and 20-O-ingenolEZ is a catalytic inhibitor and inhibits topo IIα through inhibition of ATPase activity, but induces topo II-mediated DNA damage and apoptosis in BLM-/- DT40 cells through the induction of the DNA damage checkpoint, similar to the poison type inhibitor adriamycin. The ATPase inhibitor of topo II ICRF-193 also showed poison-like characteristics in the same cell line. However, the inhibitory effects of ICRF-193 on the proliferation of BLM-/- DT40 cells differed from those of 20-O-ingenolEZ, as did the specificity of its inhibition of the proliferation of other cell lines. 20-O-ingenolEZ showed hypersensitive inhibition of the proliferation of MCF-7 cells and BLM-/- DT40 cells with mutated DNA repair-related genes.

Rapid, Catalytic Hydrolysis of DNA by Copper(Ⅱ) Complexes

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基于中医证候与精液质量相关参数构建精子DNA碎片预测模型与验证

背景:中医证候与精液质量相关参数相结合,共同预测精子DNA碎片指数(DNA fragmentation index,DFI)异常增高的发生并绘制列线图,能显著提高临床的实操性与应用效能,为临床全面评估精液质量,采取积极干预措施以改善临床结局及制定个体化医疗方案提供依据。目的:探讨基于中医证候与精液质量相关参数构建精子DNA碎片的预测模型与验证。方法:回顾性分析2019年7月至2021年7月在广西壮族自治区南溪山医院中医男科接受中医证候诊断及精子DNA碎片率检查的不育患者共420例,据《人类精液检查与处理实验室手册》(第6版),将其中137例精子DFI>30%患者纳入精子DFI异常增高组,将283例精子DFI≤30%作为对照组;首先采用单因素分析筛选精子DFI异常增高的影响因素,然后采用套索算法(LASSO)校正因子共线性问题并筛选出最佳匹配因子后,将其纳入多因素向前逐步Logistic回归找出其独立影响因素并绘制列线图,最后采用受试者工作曲线、校准曲线、临床决策曲线、临床影响曲线对该预测模型进行区分度与准确度及临床应用效能验证。结果与结论:①单因素分析结果显示,年龄、体质量指数、前向运动率、精子总活率、精子浓度、精子形态学、肾阳虚衰证、湿热下注证、肾精不足证为引发精子DFI异常增高的影响因子(P<0.05);②通过LASSO回归进一步筛选出的最佳匹配因素为年龄、体质量指数、精子总活率、精子浓度、精子形态学、肾阳虚衰证、湿热下注证、肾精不足证(P<0.05);③多因素向前逐步Logistic回归结果显示年龄、体质量指数、精子浓度、精子总活率、湿热下注证、肾阳虚衰证共6项为引发精子DFI异常增高的独立影响因素;④受试者工作曲线显示,模型组曲线下面积为0.760(0.713,0.806),验证组曲线下面积为0.745(0.714,0.776),说明该预测模型具有较好的区分度;⑤校准曲线平均绝对误差0.040,Hosmer-Lemeshow检验P>0.05,表明该模型预测发生精子DFI异常增高的概率与实际发生精子DFI异常增高的概率无显著统计学差异,证实该模型具有较好的准确度;⑥临床决策曲线与临床影响曲线显示,模型组与验证组分别在阈概率值为0.08-0.84与0.09-0.78时具有临床最大净获益,且在该阈概率范围内具有较好的临床应用效能;⑦结果表明,年龄、体质量指数、精子浓度、精子总活率、湿热下注证、肾阳虚衰证为引发精子DFI异常增高的独立影响因素,通过其构建的临床预测模型列线图具有较好的临床预测价值与临床应用效能,可为临床全面评估精液质量、预后与干预及个体化医疗服务提供依据。

新型超声快速处理活检标本保存不同年限对DNA质量的影响

背景:新型超声组织处理技术越来越多地被用来进行分子生物学分析,研究新型超声处理不同存储年限组织DNA的质量,对进一步分子检测的标本质控具有重要意义。目的:探讨新型超声处理活检标本存储不同年限对DNA质量的影响,以期为分子检测探索最佳的标本存储时间。方法:收集40例乳腺穿刺小活检组织,采用超声技术制作石蜡标本,按照存储年限分为4组:<1年组、1-3年组、>3-5年组及>5年组,每组10例,对石蜡标本进行切片,每张切片厚3μm,切片10-15张,提取DNA后通过Nanophotometer N60超微量分光光度计和Qubit 4.0荧光计检测DNA的质量浓度,记录A_(260)/A_(280)比值判定DNA的纯度,利用全自动毛细管电泳核酸分析仪(Qsep 100)检测DNA片段完整性,以评估DNA片段的质量。结果与结论:4组样本A_(260)/A_(280)均值在1.8-2.0之间,达到纯度要求,无明显差异。4组样本的DNA质量浓度(Qubit浓度)均值分别为30.39,14.33,2.52,1.95 ng/μL;DNA的平均N/Q比值分别为6.48,14.18,24.56,29.86;DNA质量数均值分别为5.64,1.76,1.24,0.80;大片段占比均值分别为56.08%,17.72%,12.68%,7.90%。PCR检测内控基因Ct均值分别为15.32,17.09,18.39,21.24。与<1年组相比,其余3组DNA浓度显著降低,N/Q比值显著增加,DNA质量数和大片段占比均值显著降低,Ct值升高,差异有显著性意义(P<0.05)。实验结果表明,对于新型超声处理活检标本,应优先选择存储<1年的样本进行日常分子检测,储存3年内的样本可满足二代测序等检测要求,5年内样本仅可尝试进行PCR等检测,存储超过5年的样本不建议进行后续分子检测。

板栗叶片DNA的提取及AFLP反应体系的建立

以初展开的板栗嫩叶为材料,利用改进的CTAB法,提取到高质量的板栗叶片总DNA。通过优化酶切连接、预扩增、选择性扩增等试验条件,建立了板栗AFLP银染反应体系,得到了清晰的板栗AFLP指纹图谱。为板栗品种的分子标记和板栗品种间亲缘关系等研究奠定了基础。研究结果表明:①DNA模板的质量影响酶切以及后续的连接扩增反应。以初展开的嫩叶提取的板栗叶片总DNA纯度最高,所含蛋白质、小分子杂质少,改良的CTAB提取法可用于板栗AFLP分析,形成清晰的AFLP指纹。②先进行酶切后再进行酶连的反应体系比酶切酶连一起进行的体系效果更好。板栗基因组DNA最佳酶切反应体系为:模板DNA总量500ng,反应体积为25μl,10×Y+/TanqoTMBuffer2.5μl,BSA0.8μl,EcoRI5U,MseI5U。连接反应体系中T4DNA连接酶浓度2U即达最佳效果。酶切、酶连反应最佳温度均为37℃。③以板栗为材料进行AFLP标记时,E AAC+M CAA、E AAC+M CAT和E AGT+M CAT三个引物均获得较好的多态性。其中以E AGT+M CAT引物组合的扩增条带信号强度一致性好,条带分布均匀,能够得到稳定、清晰、分辨率较高的指纹谱带,可进行中国板栗的遗传变异分析。

The catalytic properties of DNA G‐quadruplexes rely on their structural integrity

The influence of the G‐quartet structural integrity on the catalytic activity of the G‐quadruplex(G4)was investigated by comparing the G4‐DNAzyme performances of a series of G4s with a G‐vacancy site and a G‐triplex(G‐tri).The results presented herein not only confirm that the structural integrity of the 3'‐end G‐quartet is necessary for G4s to be catalytically competent but also show how to remediate G‐vacancy‐mediated catalytic activity losses via the addition of guanine surrogates in an approach referred to as G‐vacancy complementation strategy that is applicable to parallel G4s only.Furthermore,this study demonstrates that the terminal G‐quartet could act as a proximal coordinating group and cooperate with the flanking nucleotide to activate the hemin cofactor.

基于活产建立体外受精-胚胎移植精子DNA碎片指数的参考阈值及子代短期安全性

背景:精子DNA碎片指数与受精、胚胎发育潜能、胚胎植入、流产及子代安全性等存在显著的相关性。然而,其临床参考值受多种因素的影响,导致临床意义极其有限,该研究以活产为结局,通过倾向评分匹配校正其他混杂因素后,构建精子DNA碎片指数与活产的最佳临床截断值,并对其进行内外部验证,具有较好的预测价值及临床应用效能。目的:探讨基于活产建立体外受精-胚胎移植精子DNA碎片指数的参考阈值及子代短期安全性。方法:选取2019年5月至2021年5月于常州市妇幼保健院接受体外受精-胚胎移植患者1921例,以倾向匹配容差0.02为标准,1∶1进行倾向评分匹配,结果活产组与非活产组各成功匹配540例,以此建立模型组;通过选取同时期广西壮族自治区南溪山医院接受体外受精-胚胎移植患者135例作为外部验证组;采用受试者工作曲线探求精子DNA碎片指数对活产的临床最佳截断值,分别采用限制性立方样条曲线、标准曲线、临床决策曲线、临床影响曲线及内外部验证等方法,对该截断值的准确性及临床应用效能进行评估。结果与结论:(1)非活产组精子DNA碎片指数显著高于活产组且与活产存在显著的负相关性(r=-0.444,P<0.001);(2)受试者工作曲线结果显示,DNA碎片指数对活产的最佳截断值为24.33%,曲线下面积为0.775(0.746,0.804),特异度为72.60%,敏感度为78.90%,准确度为75.70%;(3)限制性立方样条曲线拟合Logistic回归结果显示,当精子DNA碎片指数大于24.57%时,临床非活产的风险呈趋势性增涨;(4)Logistic回归概率分析结果显示,精子DNA碎片指数为活产的危险因素[OR(95%CI)=0.916(0.904,0.928),P<0.001],且当精子DNA碎片指数大于27.78%时,临床活产发生的概率将小于50%,随着精子DNA碎片指数每增高1个单位,活产的概率下降8.4%;(5)内外部对该临床截断值的验证均显示,该截点具有一定的临床预测价值及准确性;(6)临床决策曲线与临床影响曲线显示,以该临床截断值建立的预测模型在阈概率为0.22-0.73时具有临床最大净获益值,且在该阈概率范围内损失与获益的比值始终小于1,证实该预测模型具有较好的临床应用效能;(7)精子DNA碎片指数与子代短期安全性分析结果显示,精子DNA碎片指数与出生儿早产、体质量、畸形、性别差异无显著性;(8)结果表明,精子DNA碎片指数对体外受精-胚胎移植活产的最佳临床截断值为24.33%,以此建立的临床预测模型具有较好的区分度、准确度与临床应用效能,精子DNA碎片指数对子代短期安全性影响并不显著,但仍需大样本及长期的追踪评估。

FTA-环介导等温扩增技术直接提取变异链球菌DNA的效果评价

背景:变异链球菌是龋病的重要病原菌,及时检测变异链球菌水平对龋病的早发现、早治疗有重要意义。目的:建立并评价FTA-环介导等温扩增(loop-mediated isothermal amplification,LAMP)技术直接提取变异链球菌DNA的应用效果。方法:①制备含有ATCC标准菌株变异链球菌的菌悬液,接种于脑心浸出液培养基,充分混匀后按10倍梯度稀释成7种浓度(4.2×10^(7),4.2×10^(6),4.2×10^(5),4.2×10^(4),4.2×10^(3),4.2×10^(2),4.2×10 CFU/mL),每个稀释级做2个平行对照,并增加无菌水作为空白对照;②分别采用FTA卡、常规煮沸法、试剂盒提取及裂解液提取4种方法直接提取菌株DNA,通过LAMP技术进行扩增,并进行特异性试验,比较4种提取方法的差异。结果与结论:①4种方法提取的DNA均满足LAMP扩增的要求;②特异性试验结果显示,只有变异链球菌才可特异扩增出靶基因;③裂解液提取法最低检测限为4.2×10^(3) CFU/mL,FTA卡提取法最低检测限为4.2×10^(4) CFU/mL,试剂盒提取法和常规煮沸法最低检测限分别为4.2×10^(6) CFU/mL和4.2×10^(7) CFU/mL;④4种提取方法其他方面的比较显示,试剂盒提取法的实验成本、步骤数和时间都是最高;其他3种方法步骤数一致,其中FTA卡所需仪器设备最少,常规煮沸法单次成本最低,裂解液提取法所需时间最少;FTA卡和裂解液提取法仅需少量菌即可提取成功,后者在时间方面优于FTA卡,但相较于FTA卡其单次成本高,所需设备多;⑤结果说明,该研究建立的FTA-LAMP技术具有操作简便、特异性强、灵敏度高、结果可视化等优势,有望为高效提取检测变异链球菌提供新途径。

DNA存储技术:挑战与未来

随着全球数据呈现指数级增长,当前的信息存储技术面临维护成本高昂、存储寿命有限等多个缺陷,逐渐无法满足日益凸显的需求。因此,迫切需要引入新的信息存储方法来解决这一问题。DNA作为一种天然的遗传信息载体,具备高存储密度、潜在低维护成本和长寿命等优势,因此被视为一种有潜力的新型信息存储介质。该文对DNA数据存储技术的基本原理和流程进行了概述,并回顾了其历史发展。同时,对当前基于DNA存储的领域仍面临的挑战进行了总结,如缓慢的数据写入和读取速度等,以及应对这些挑战的一些潜在策略。最后,为了满足全球对新存储方法的需求,该文指出了DNA数据存储技术的未来发展方向。

DNA存储系统中的数据写入

世界的数字化给人们的生活带来了极大的变化,但与此同时,史无前例的数据激增使得信息存储面临的挑战日益严峻。随着全球数据总量的指数级增长,传统存储介质将无法满足数字化带来的存储需求。使用DNA分子作为基本载体的信息存储展现出高存储密度、低维护成本和易于化学修饰等独特优势。DNA存储主要包括编码、写入、保存、检索、读取和解码六个主要步骤,其中数据的写入是实现DNA存储功能的基础。本文首先介绍DNA存储系统中体外写入数据的策略方法,主要分为将数据写入DNA序列和写入DNA结构两个部分,接着概述体内写入数据技术的发展,最后将讨论DNA存储系统中数据写入面临的写入成本高、写入速度慢等挑战,并对大规模合成高纯度DNA、改进生物酶等具有前景的应用技术进行展望。

Peripheral mitochondrial DNA as a neuroinflammatory biomarker for major depressive disorder

In the pathogenesis of major depressive disorder, chronic stress-related neuroinflammation hinders favorable prognosis and antidepressant response. Mitochondrial DNA may be an inflammatory trigger, after its release from stress-induced dysfunctional central nervous system mitochondria into peripheral circulation. This evidence supports the potential use of peripheral mitochondrial DNA as a neuroinflammatory biomarker for the diagnosis and treatment of major depressive disorder. Herein, we critically review the neuroinflammation theory in major depressive disorder, providing compelling evidence that mitochondrial DNA release acts as a critical biological substrate, and that it constitutes the neuroinflammatory disease pathway. After its release, mitochondrial DNA can be carried in the exosomes and transported to extracellular spaces in the central nervous system and peripheral circulation. Detectable exosomes render encaged mitochondrial DNA relatively stable. This mitochondrial DNA in peripheral circulation can thus be directly detected in clinical practice. These characteristics illustrate the potential for mitochondrial DNA to serve as an innovative clinical biomarker and molecular treatment target for major depressive disorder. This review also highlights the future potential value of clinical applications combining mitochondrial DNA with a panel of other biomarkers, to improve diagnostic precision in major depressive disorder.

cDNA文库构建策略及其分析研究进展

cDNA文库构建和筛选是基因克隆的重要方法之一,它是目前发现新基因和研究基因功能的基本工具。从cDNA文库中可以筛选到目的基因,并直接用于该基因的表达。经典cDNA文库存在克隆的片段短等缺点,而全长cDNA文库则能提供完整的mRNA信息,从而克隆cDNA全长;对文库进行均一化处理即均一化cDNA文库,可以增加克隆低丰度mRNA的机会;差减cDNA文库在研究生物体某一时期基因差异表达上具有重要的意义;改进的固相cDNA很大程度上提高了建库的效率和质量。本文以阐述基本原理为主,介绍几种近年来常用的cDNA构建的方法及其优缺点。

Taq DNA聚合酶的分子改造及其在探针法qPCR直扩体系中的应用

Taq DNA聚合酶作为实时荧光定量聚合酶链式反应(qPCR)技术的核心组分,其性能优劣直接影响qPCR技术的进一步发展。然而,野生型Taq DNA聚合酶的耐抑制剂性能差、延伸性能不足。为获得具有高性能的Taq DNA聚合酶,采用基因工程技术将双链DNA结合蛋白Sso7d或Sto7d融合在野生型Taq DNA聚合酶的N端或C端,构建了4个均可溶表达的改造体,再经过耐受性测试筛选较优的改造体,结果显示:改造体Taq-Sto的耐受性最高,其热稳定性不受影响,且在1 s/kbp的延伸条件下能成功扩增靶标,表明Taq-Sto具有增强的延伸性能,在TaqMan探针法qPCR体系中对腐殖酸、单宁酸、全血等抑制剂同样表现出良好的耐受性。EMSA实验发现:Taq-Sto对DNA模板的结合亲和力有所提高,有利于增强Taq-Sto对模板的竞争力;将Taq-Sto应用于非洲猪瘟病毒(ASFV)的TaqMan探针法qPCR检测,与商品化试剂相比,Taq-Sto具有更低的ASFV检出限,且在体积分数为2%~6%的猪粪便样本或猪肉样本中的检测灵敏度分别为100.0%和85.4%,说明Taq-Sto在直扩qPCR检测领域更具有优势。

DNA损伤修复相关通路的合成致死靶点研究及其在卵巢癌中的应用和前景

DNA损伤引发细胞启动一系列DNA损伤应答(DNA damage response,DDR),包括DNA损伤修复、细胞周期检查点激活、细胞周期阻滞、各种细胞内信号转导途径的活化和细胞凋亡等。DNA损伤修复(DNA damage repair)是细胞维持基因组稳定性的重要机制,于2015年获得诺贝尔化学奖。DNA损伤修复途径主要包括:碱基切除修复(base-excision repair,BER)、核苷酸切除修复(nucleotide excision repair,NER)、错配修复(mismatch repair,MMR)、同源重组(homologous recombination,HR)和非同源末端连接(non-homologous end joining,NHEJ)等,分别在DNA单链断裂(single-strand break,SSB)或双链断裂(double-strand break,DSB)等损伤修复中发挥重要作用。DNA损伤修复缺陷与肿瘤发生发展密切相关,同时也是肿瘤治疗的重要靶点。DNA损伤修复通路的多聚ADP核糖聚合酶(poly-ADP-ribose polymerase,PARP)与乳腺癌易感基因BRCA 1/2等存在合成致死(synthetic lethality)作用,使PARP抑制剂(PARP inhibitor,PARPi)成为第一个也是目前唯一上市的肿瘤治疗合成致死靶药。PARPi在卵巢癌及多种实体瘤治疗中疗效良好,使DNA损伤修复及相关DDR通路的合成致死靶药研发成为热点,其他在研靶点主要包括:共济失调毛细血管扩张突变蛋白(ataxia telangiectasia-mutated protein,ATM)、共济失调毛细血管扩张与RAD3相关蛋白(ataxia telangiectasia and Rad3 related protein,ATR)、DNA依赖性蛋白质激酶催化亚单位(DNA-dependent protein kinase catalytic subunit,DNA-PKcs)、细胞周期检测点激酶1(checkpoint kinase1,CHK1)、细胞周期检测点激酶2(checkpoint kinase 2,CHK2)、阻止有丝分裂的蛋白质激酶WEE1等。PARPi与其他DDR靶药、抗血管生成药物及免疫检查点抑制剂的联用,有可能成为克服PARPi耐药、提高疗效的有效手段和发展前景。本文针对DNA损伤修复及相关DDR通路的关键分子和潜在肿瘤治疗靶点进行综述,阐述了DNA损伤修复相关通路的合成致死靶点研究及在卵巢癌的应用和前景,为基础研究及临床应用提供指导。

不同DNA条形码在微口线虫属形态相近物种分类上的应用

为建立和完善海洋线虫相近物种的DNA条形码鉴定方法,本研究以深圳福田红树林湿地自由生活的海洋线虫优势属微口线虫属(Terschellingia)为研究对象,在形态分类鉴定基础上,将DNA条形码技术引入海洋线虫形态相似物种的鉴定,研究线粒体细胞色素氧化酶第一亚基(COⅠ)基因、18S核糖体RNA基因(18S rDNA)和28S rDNA三种基因序列片段的物种分类效果。研究共鉴定出微口线虫属4个不同的形态学种,获得其中3个种的DNA序列。18S rDNA及28S rDNA两种条形码所构建的发育树支持将本属划分成6个类群;Kimura 2 parameter(K2P)种内和种间阈值分别为18S rDNA的0%~2.5%和0.4%~13.7%,28S rDNA的0%和20.5%~84.6%。18S rDNA的MN18F-Nem_18S_R引物对所扩增的序列最适合作为微口线虫属种类鉴定的DNA条形码,并可用于区分物种复合体。28S rDNA序列虽然能成功扩增,但扩增效率相对较低;COⅠ基因片段无法在所有物种中成功扩增,推测现有引物可能不适合用于本属序列的提取。研究结果表明,DNA条形码可以用于自由生活海洋线虫形态相似物种的识别,但不同的单基因片段对相同物种的鉴定结果有明显差异。