HRCA技术在转基因植物检测中的应用

超分支滚环扩增技术（Hyperbranched rolling cycle amplification, HRCA）在近几年中逐渐引起人们的注意,并越来越多的用于基础研究和实际检测中。在本文中我们对该技术在转基因植物检测中的应用情况作了较全面的探索;根据4种转基因植物中常用的外源基因或DNA片段设计了4条锁式探针（Padlock probe）,利用质粒pKK2328中的一段序列作为锁式探针中的共同连接部分,并根据该共同的连接部分序列设计一对通用的HRCA引物;利用同位素标记的锁式探针对HRCA反应中的连接一步的特异性研究表明,只有当锁式探针和相应的检测靶DNA同时存在于连接体系中时,锁式探针才能被有效地进行连接,从线性分子变为环型分子,在没有相应靶DNA存在时锁式探针仅以线性形式存在;连接时间的研究表明,如果所检测的靶DNA是质粒或较短的DNA片段时,较短的连接时间（5～10min）就可以取得理想的最终检测效果,如果检测的靶DNA是复杂的植物基因组DNA时,连接时间需要较大程度的延长（30～60min）才能取得理想的最终检测结果;HRCA的反应时间研究表明,较长的反应时间可以明显增加最终产物的量;对Bst DNA聚合酶大片段酶用量的研究表明,在其它条件不变的情况下酶的用量可以在较大的范围内变化（0.5u～4u）而不影响最终检测结果;在上述研究的基础上,对转基因烟草进行实际检测,取得了与预期一致的理想结果。为了提高检测效率,仿效复合式PCR（Multiplex PCR,MPCR）的原理采用复合式HRCA（Multiplex HRCA, MHRCA）方法对转基因烟草进行检测,并利用反向点杂交进行结果分析,取得同预期完全一致的结果。我们的研究表明HRCA方法完全可以用于转基因植物的检测,而且其使用比MPCR技术更方便,效率更高。     

一种简便、快速从病毒感染鱼、虾组织中制备PCR模板的方法

以虹彩病毒(iridovirus)感染大黄鱼的脾组织、对虾白斑杆状病毒(whitespotsyndromebaculovirus,WSBV)感染中国对虾的肌肉组织为材料,采用一种简便、快速的方法获得了可满足病毒PCR检测的高质量模板DNA,分别以针对虹彩病毒、WSBV的特异性引物进行PCR扩增,均能有效扩增出预期的条带。与常规DNA病毒模板制备方法相比,具有简便、快速、提取率高、无污染等优点,尤其适用于水产动物病毒PCR检测试剂盒的商品化开发及生产实际应用。     

斑点叉尾鮰病毒实时荧光LAMP检测方法的建立

斑点叉尾鮰病毒(Channel catfish virus, CCV)属于大DNA病毒, 是一种能引起斑点叉尾鮰(Letalurus punetaus)病毒性疾病的重要病原。研究以编码产物为磷酸激酶的CCV ORF77基因为靶标, 设计了能识别靶基因上的8个独立区域的6条特异引物, 利用基于环介导等温扩增技术(Loop-mediated isothermal amplification, LAMP)建立了用于CCV的实时荧光LAMP快速检测方法。结果显示, 建立的实时荧光LAMP检测方法在63℃恒温反应45min条件下, 反应大约12min后出现明显的峰值, 最低检测限度为100个拷贝的病毒质粒DNA, 检出时间为35min; 并且具有良好的特异性, 与白斑综合症病毒(WSSV)、传染性皮下及造血组织坏死病毒(IHHNV)、锦鲤疱疹病毒(KHV)、真鲷虹彩病毒(RSIV)、传染性脾肾坏死病毒(ISKNV)和新加坡石斑鱼虹彩病毒(SGIV)等常见水生动物病原DNA均没有交叉反应; 同一样品于试验内及试验间重复性试验发现, 20个平行样品的扩增曲线基本重合, 表现出良好的重复性。通过对实际样品的检测结果显示, 实时荧光LAMP检测方法能够特异性的检出CCV。因此, 研究建立的CCV实时荧光LAMP检测方法操作简单、检测快速、特异性好、灵敏度高、结果可靠, 能为斑点叉尾鮰养殖现场和实验室的斑点叉尾鮰疱疹病毒病病原的快速诊断和实时监测方面提供技术支撑。     

柑桔溃疡病菌滚环扩增检测体系的建立

根据柑桔溃疡病菌(Xanthomonas axonopodis pv.citri,Xac)独有的蛋白基因序列和锁式探针公共连接序列分别设计特异性的锁式探针及其扩增引物,优化系列反应条件,建立了特异性的柑桔溃疡病菌滚环扩增体系.初步检测结果表明该体系能够特异性地检出Xac的菌体细胞及其DNA,而检测不出供试的其它植物病原细菌和柑桔叶面常见的多种附生细菌;对Xac靶片段克隆质粒DNA的检测灵敏度为10 2 copy/μL,对Xac菌悬液的检测灵敏度为20 cfu/μL,比常规PCR的检测灵敏度稍高.用滚环扩增技术和常规PCR技术对田间采集的实际样品进行了检测,两种方法的检测结果没有显著差异(P＞0.01).由于锁式探针的公共连接序列对扩增的条件要求一致,本体系的建立可以为植物病原微生物多靶标检测和病害检疫检验提供新的技术支撑.     

食品中沙门氏菌分子检测靶点的筛选与评价

[目的]发掘新的沙门氏菌分子检测靶点,筛选检测性能优秀的引物.[方法]利用BLAST程序比较沙门氏菌属内基因组DNA序列的同源性以及沙门氏菌与非沙门氏菌基因组DNA序列之间的特异性,发掘出100多个检测沙门氏菌属的特异性片段,并从中随机挑选出15个片段作为候选靶点,一共设计了27对引物(FS1～FS27),对它们的特异性、灵敏度加以评价,从中筛选检测性能最好的引物.[结果]在27对引物中,检测性能最优的引物为FS23,采用该引物对供试菌株的相应检测靶点进行PCR扩增,44株沙门氏菌都能扩增到一条492 bp特异性片段,而22株非沙门氏菌则不能扩增出这一特异性片段.以FS23为引物建立PCR方法检测猪霍乱沙门氏菌基因组DNA的灵敏度为11.9 fg/μL,细菌纯培养物灵敏度为4.9×102cfu/mL;用猪霍乱沙门氏菌人工污染牛奶样品,如果接种起始菌量为100 cfu/25 mL时,只需要增菌5 h,采用上述方法即能检测出沙门氏菌.[结论]引物FS23对应的基因序列是一个性能优良的新分子检测靶点,具备很高的特异性和灵敏性,能够广泛应用于食品中沙门氏菌的快速检测.     

大黄鱼虹彩病毒PCR快速检测试剂盒的研制

针对近年来由虹彩病毒所引起的海水养殖鱼类疾病呈日趋严重的态势,该文在证实了引发我国大黄鱼大规模流行病的病原为一种虹彩病毒及测定病毒全基因组序列(111,760bp;GenBank accession numberl．AY779031)的基础上,通过与已报道虹彩病毒核酸序列进行分析比较,结合生物信息学手段,确定了以虹彩病毒ATPase基因保守区序列(295bp)作为扩增靶序列,设计合成了一对特异性引物,通过改进PCR模板的制备方法和优化扩增条件,建立了大黄鱼虹彩病毒PCR快速检测技术,并开发成简便、快速、实用的检测试剂盒,该试剂盒的检测灵敏度相当于30个病毒粒子,模板制备时间约30min、回收率为52％、半个工作日即可得到准确的结果,无非特异性扩增带,适用于大黄鱼虹彩病毒病的早期快速诊断、苗种的检疫及水质环境的监测,目前正在推广应用。     

滚环复制技术的建立及在RNA病毒基因检测中的初步应用

滚环复制是噬菌体繁殖所采取的一种基因复制方式,这种方式可使单链的环形分子在聚合酶和引物的作用下进行体外自我扩增。本文中用可特异性连接环化的寡核苷酸链作为探针,分别进行了1份细胞培养的禽流感病毒H5N1亚型样品、1份细胞培养的SARS病毒样品和4份丙型肝炎病毒阳性血清样品的检测。检测原理是探针与靶序列杂交后便可在T4DNA连接酶的作用下形成滚环复制中的环化单链分子,该分子在同温下可被特异性引物滚动复制和支链扩增。本文还利用按禽流感病毒NA1基因区序列合成的模拟DNA分子对该检测方法的灵敏度进行了测试。结果显示：利用固相RCA技术成功检测到三种RNA病毒的基因,该方法的灵敏度可达到能检测10^3拷贝模式DNA分子的水平。与传统的PCR方法敏感性的比较尚待进一步研究。     

重组酶聚合酶扩增结合CRISPR-Cas12a快速检测十足目虹彩病毒1方法的建立

[背景] 十足目虹彩病毒1（Decapod Iridescent Virus 1,DIV1）可感染南美白对虾、中国对虾和日本对虾等,是危害对虾养殖业的主要病毒之一。当前高效、快速、简便地检测对虾是否感染DIV1是减少其发生和危害的重要途径。[目的] 将成簇的规律间隔短回文重复序列（Clustered Regularly Interspaced Short Palindromic Repeats,CRISPR）及其相关蛋白12a （CRISPR Associated Protein 12a,Cas12a）,即CRISPR-Cas12a系统,与重组酶聚合酶扩增（Recombinase Polymerase Amplification,RPA）技术相结合,建立快速检测DIV1的方法（RPA-Cas12a）,并探讨该方法在实际样本检验中的应用价值。[方法] 通过提取DIV1 DNA,设计其RPA引物、crRNA及报告探针,优化并建立RPA结合CRISPR-Cas12a的快速检测方法,进一步分析该方法检测DIV1的灵敏度与特异性,并比较建立的方法与qPCR法的一致性。[结果] 建立的RPA-Cas12a快速检测方法可在40 min内实现对虾样本DNA中DIV1的检测,检测限为10 copies/reaction。用该方法分别对对虾白斑综合征病毒（White Spot Syndrome Virus,WSSV）、传染性皮下及造血组织坏死病毒（Infectious Hypodermal and Hematopoietic Necrosis Virus,IHHNV）、虾肝肠胞虫（Enterocytozoon Hepatopenaei,EHP）及DIV1进行检测,结果仅DIV1发生特异性反应,而WSSV、IHHNV和EHP的检测结果均为阴性。采用RPA-Cas12a检测61份实际样本,结果均与qPCR检测法的阳性检出率一致。[结论] 建立的RPA-Cas12a方法检测十足目虹彩病毒1具有快速、简便、灵敏度高且特异性强的特点,为十足目虹彩病毒1的快速检测提供了新的工具。     

猴免疫缺陷病毒（SIV）实时荧光定量PCR检测方法的建立

目的建立快速、敏感、特异的猴免疫缺陷病毒（SIV）TaqMan探针实时荧光定量PCR检测方法,对SIV病毒核酸进行定量检测。方法RT—PCR扩增SIVmac251保守gag基因序列796bp片段,进行TA克隆,构建标准品质粒pMD—SIVgag。通过对SIV定量外标准品的定量分析,优化反应体系,检测TaqMan探针实时荧光定量PCR方法的灵敏度、特异性和重复性。结果所建立的SIVQPCR检测方法,质粒DNA模板在10’～10。拷贝之间表现较好线性和相关性,标准曲线所得斜率为-3．26,相关系数为0．999。检测灵敏度达到200拷贝,方法重复性测试,检测25份临床样品CV％均小于1％。结论建立的SIVQPCR检测方法特异性、敏感性高,稳定性好,可用于定量测定猴免疫缺陷病毒（SIV）核酸拷贝量。     

地高辛标记的Northern blot检测鼠疫菌sRNA

[目的]随着高通量测序方法的应用,越来越多的sRNA (small non-coding RNA,sRNA)需验证.本研究建立用地高辛标记Northern blot检测鼠疫菌sRNA的技术,为细菌sRNA验证提供一种灵敏、特异的方法.[方法]在低铁条件下,提取鼠疫菌总RNA,10％ dPAGE分离后电转到尼龙膜上并用紫外线交联RNA.膜经地高辛标记RyhB1或RyhB2寡核苷酸RNA探针过夜杂交后洗脱、封闭和免疫检测,最后曝光显影.[结果]地高辛标记的Northern blot曝光时间为20 s-3 min,RyhB1或RyhB2检测灵敏度分别为0.005 μg和0.05 μg.RyhB1或RyhB2探针特异性好,相互间无交叉反应.带正电或中性的尼龙膜都适用于杂交反应.RNA探针在42℃-65℃内杂交均可,提高温度可减少非特异性反应;而DNA探针杂交温度需摸索.[结论]本研究成功构建一种地高辛标记Northern blot检测鼠疫菌sRNA技术,具有特异性好、灵敏度高、探针易保存、曝光时间短等优点,为细菌sRNA验证和功能研究提供有利工具.     

A Unique Protease Cleavage Site Predicted in the Spike Protein of the Novel Pneumonia Coronavirus (2019-nCoV) Potentially Related to Viral Transmissibility

正Dear Editor,In December 2019, a novel human coronavirus caused an epidemic of severe pneumonia(Coronavirus Disease 2019,COVID-19) in Wuhan, Hubei, China(Wu et al. 2020; Zhu et al. 2020). So far, this virus has spread to all areas of China and even to other countries. The epidemic has caused 67,102 confirmed infections with 1526 fatal cases     

Curcuminoids as inhibitors of thioredoxin reductase: A receptor based pharmacophore study with distance mapping of the active site

Curcumin is the yellow pigment of turmeric that interacts irreversibly forming an adduct with thioredoxin reductase (TrxR), an enzyme responsible for redox control of cell and defence against oxidative stress. Docking at both the active sites of TrxR was performed to compare the potency of three naturally occurring curcuminoids, namely curcumin, demethoxy curcumin and bis-demethoxy curcumin. Results show that active sites of TrxR occur at the junction of E and F chains. Volume and area of both cavities is predicted. It has been concluded by distance mapping of the most active conformations that Se atom of catalytic residue SeCYS498, is at a distance of 3.56 from C13 of demethoxy curcumin at the E chain active site, whereas C13 carbon atom forms adduct with Se atom of SeCys 498. We report that at least one methoxy group in curcuminoids is necessary for interation with catalytic residues of thioredoxin. Pharmacophore of both active sites of the TrxR receptor for curcumin and demethoxy curcumin molecules has been drawn and proposed for design and synthesis of most probable potent antiproliferative synthetic drugs.     

Comparative morphology of the carpel in the Liliaceae: Hewardieae, Petrosavieae, and Tricyrteae

The young pistils in the melanthioid tribes, Hewardieae, Petrosavieae and Tricyrteae, are uniformly tricarpellate and syncarpous. They lack raphide idioblasts. All are multiovulate, with bitegmic ovules. The Petrosavieae are marked by the presence of septal glands and incomplete syncarpy. Tepals and stamens adhere to the ovary in the Hewardieae and the Petrosavieae but not in the Tricyrteae. Two vascular bundles occur in the stamens of the Hewartlieae and Tricyrtis latifolia. Ventral bundles in the upper part of the ovary of the Hewardieae are continuous with compound septal bundles and placental bundles in the lower part. Putative ventral bundles occur in the alternate position in the Tricyrteae and putative placental bundles in the opposite. position in the Petrosavieae. The dichtomously branched stigma in each carpel of the Tricyrteae is supplied by a bifurcated dorsal bundle.     

Enterovirus 71 3C proteolytically processes the histone H3 N-terminal tail during infection

Highlights
1. The N-terminal tail of histone H3 is specifically cleaved during EV71 infection.
2. Viral protease 3C is identified as a protease responsible for proteolytically processing the N-terminal H3 tail.
3. Our finding reveals a new epigenetic regulatory mechanism for Enterovirus 71 in virus-host interactions.     

Detection of EBV and HHV6 in the Brain Tissue of Patients with Rasmussen’s Encephalitis

Rasmussen’s encephalitis (RE) is a rare pediatric neurological disorder, and the exact etiology is not clear. Viral infection may be involved in the pathogenesis of RE, but conflicting results have reported. In this study, we evaluated the expression of both Epstein-Barr virus (EBV) and human herpes virus (HHV) 6 antigens in brain sections from 30 patients with RE and 16 control individuals by immunohistochemistry. In the RE group, EBV and HHV6 antigens were detected in 56.7% (17/30) and 50% (15/30) of individuals, respectively. In contrast, no detectable EBV and HHV6 antigen expression was found in brain tissues of the control group. The co-expression of EBV and HHV6 was detected in 20.0% (6/30) of individuals. In particular, a 4-year-old boy had a typical clinical course, including a medical history of viral encephalitis, intractable epilepsy, and hemispheric atrophy. The co-expression of EBV and HHV6 was detected in neurons and astrocytes in the brain tissue, accompanied by a high frequency of CD8⁺ T cells. Our results suggest that EBV and HHV6 infection and the activation of CD8⁺ T cells are involved in the pathogenesis of RE.     

Perinatal Vertical Transmission of Chikungunya Virus in Ruili,a Town on the Border between China and Myanmar

正Dear Editor,Chikungunya virus (CHIKV), an arbovirus in the family of Togaviridae, genus Alphavirus, is transmitted by the A.aegyptii or A. albopictus mosquito, and causes disease in humans characterized by fever, rash, and arthralgia (Silva and Dermody 2017; Suhrbier 2019). It was first reported in 1953 in Tanzania, and caused only a few outbreaks and sporadic cases in Africa and Asia in last century. However, in the epidemic in 2004, CHIKV acquired mutations that conferred enhanced transmission by the A. albopictus mosquito(Schuffenecker et al. 2006). Since then, it has successively caused outbreaks in Africa, the Indian Ocean, South East Asia, the South America, and Europe (Zeller et al. 2016).     

Development of a Novel Reverse Transcription Loop-Mediated Isothermal Amplification Method for Rapid Detection of SARS-CoV-2

In conclusion, the novel visual RT-LAMP assay is a simple, rapid, and sensitive approach for detection of SARS-CoV-2, and it is ready for application in primary care and community hospitals or health care centers, and even patients' own houses in response to the current SARS-CoV-2 epidemic because the assay does not require sophisticated equipment and skilled personnel. Furthermore, it is also ready to be used in fields for screening samples from wild animals and environments to facilitate the identification of potential intermediate hosts that mediate the cross-species transmission of SARS-CoV-2 from bats to humans.