小麦TaeEF1β基因的克隆、同源性及表达分析

真核翻译延伸因子(eukaryotic translation elongation factor,eEFs)是一种重要的多功能调控蛋白,eEF1β是eEF1的组成部分,在蛋白质生物合成过程中发挥着重要的作用。本文通过RT-PCR扩增克隆小麦(Triticum aestivum L.)的eEF1β基因,并命名为TaeEF1β。氨基酸同源性分析发现,TaeEF1β具有高度保守性,且其保守结构域位于137~226 aa处。qRT-PCR结果表明,中国小麦花叶病毒(Chinese wheat mosaic virus,CWMV)侵染小麦植株后,可以诱导TaeEF1β基因转录水平的上调表达。另外,本文也进一步分析了TaeEF1β基因在小麦根、茎、叶的表达水平和CWMV侵染不同时间点的表达情况。     

番木瓜环斑病毒弱毒株的构建及分析

弱毒株是利用交叉保护防治植物病毒病害的关键限制因子。通过对马铃薯Y病毒属病毒(强、弱毒株)的全长及部分氨基酸序列比对分析,筛选出在亲本强毒株PRSV-LM的P1和HC-Pro基因上的8个可能与致病性相关的氨基酸突变位点(I_(309)、K_(481)、K_(598)、R_(728)、F_(753)、L_(754)、N_(787)和D_(944))。采用定点突变和Gibson拼接法,分别成功构建了4种含有2个突变位点(L_(754)和N_(787))、4个突变位点(I_(309)、K_(481)、F_(753)和D_(944))、6个突变位点(I_(309)、K_(481)、F_(753)、L_(754)、N_(787)和D_(944))和8个突变位点(I_(309)、K_(481)、K_(598)、R_(728)、F_(753)、L_(754)、N_(787)和D_(944))的PRSV-LM全长c DNA侵染性克隆突变体:p Gprsvm~2、p Gprsvm4、p Gprsvm6和p Gprsvm8。经人工接种、病症观察和RT-PCR检测,4种突变体克隆均能系统性侵染非转基因番木瓜植株,除克隆p Gprsvm~2的病症表现与亲本强毒株PRSV-LM一致外,其他多位点突变的克隆p Gprsvm4、p Gprsvm6和p Gprsvm8在番木瓜植株上的病症严重程度出现依次减弱,而克隆p Gprsvm8的病症最弱,且延迟2周发病。本实验初步验证了6个氨基酸突变位点(I_(309)→S、K_(481)→Q、K_(598)→E、F_(753)→L、R_(728)→I和D_(944)→N)与PRSV-LM的病症表现及致病力相关,其中K_(598)→E和R_(728)→I可能是影响致病性的关键位点。     

Identification and Molecular Characteristics Analysis of Porcine Epidemic Diarrhea Virus Variants

To ascertain a diarrhea case in a pig farm in Shandong province,the pathological changes of dead piglets were observed and nested RT-PCR test was carried out on 7 diarrhea samples for porcine epidemic diarrhea virus (PEDV).Pathological examination revealed that intestine was detected as enlargement,hyperemia and edema.After histological examination,the typical microscopic lesions of intestine were disappearance of epithelial cells,villus shrinkage and shortening.The result of nested RT-PCR showed that all of the 7 samples could amplify a specific target band of PEDV.Molecular characteristics of two field strains showed that they had an amino acid homology of 92.3% to 92.4% with vaccine CV777 and 96.6% to 98.6% with other previous field strains which sequences were downloaded from GenBank.Phylogenetic tree analysis further revealed that all of PEDV strains could be mainly divided into two clusters of G1 and G2. G2 consisted of the field strains of our study and other field strains from USA,China and so on,which had the same sequence characteristics of two insertions and one deletion,while G1 consisted of all vaccines of CV777 and several older field strains from China and Korea.These results indicated that our field strains were the dominant strains in recent epidemic diarrhea occurrence.Moreover,its molecular characteristics might be a characterization of differentiating the field and vaccine strains.     

基于S基因序列分析新型猪流行性腹泻病毒的遗传演化

最近，笔者实验室在青藏高原地区发现两种新亚型藏猪源猪流行性腹泻病毒（PEDV），为进一步调查新型PEDV是否在四川腹泻猪群中存在或流行，对实验室2018-2019年保存的116份猪腹泻粪便或肠组织样本进行PEDV的检测及其纤突蛋白基因（spike）分子特征研究。结果表明：腹泻样本的PEDV检出率为42.2%（49/116，95% CI=33.1%~51.8%），并获得了13条完整的S基因序列，全长为4 149~4 170 bp，序列相似性为94.2%~99.9%，其中SWUN-H3-CH-SCYA-2019的S基因与藏猪源新G1亚群PEDV的序列相似性高达97.0%~98.6%。遗传演化研究结果表明13株PEDV S基因划分为G1和G2大群，其中SWUN-H3-CH-SCYA-2019位于藏猪源新G1亚群；SWUN-19-CH-SCZY-2018、SWUN-4-CH-SCXC-2018、SWUN-1-CH-SCNJ-2019和SWUN-3CH-CH-SCZG-2019位于G2亚群中一个独立的分支，且与藏猪源新G2亚群毒株有着较近的亲缘关系。为了进一步研究13株PEDV的演化过程，以贝叶斯进化分析软件包（BEAST）进行分歧时间估算，结果表明SWUN-H3-CH-SCYA-2019的分歧时间约为2012.3年，早于藏猪源新G1亚群其余毒株的最早分歧时间（2015.7年）；SWUN-4-CH-SCXC-2018、SWUN-19-CH-SCZY-2018和SWUN-3CH-CH-SCZG-2019的分歧时间约为2014.2年，早于G2亚群的藏猪源毒株2014.7年，所有藏猪源PEDV的分歧时间均晚于四川毒株。本研究在四川地区首次发现了藏猪源PEDV，并且从毒株的分歧时间推断青藏高原的藏猪源PEDV来源于四川，为新型PEDV分子遗传进化的监测提供了依据。     

延边地区烟草病毒病与气象因子关系的研究

为探明延边地区烟草病毒病的发病规律,为生产优质高产烟叶提供科学有效的病毒病预防措施,简要分析了延边地区2010和2011年病毒病与气象因子的关系.结果表明,延边地区进入6月份,当日平均温度高于16.0℃,烟草病毒病就可以发生.病毒病发病前10d的日平均温度高,日照时数大于6h的天数多,降雨量少的情况下,病毒病发生严重.     

Development of Nucleic Acid Lateral Flow Immunoassay Detection Method for Foot-and-mouth Disease Virus

In this article, through the combination of nucleic acid probes and immune chromatography, a simple, sensitive and specific detection system——nucleic acid lateral flow immunoassay (NALFIA) for amplifing foot-and-mouth disease virus (FMDV) 3D RT-PCR products was established.An ultrasensitive nucleic acid biosensor (NAB) based on streptavidin-labeled gold nanoparticles dual labels and lateral flow strip biosensor (LFSB) were used in this system.The biotinylated goat anti-rabbit IgG was marked to the NC membrane as the alleged strip and the anti-digoxin antibody was labeled to the NC membrane to capture the digoxin probe.After assemblying gold-labeled strip and detecting RT-PCR products, the detection limit of NALFIA was 0.3×10^-3 to 3×10^-3 μg/μL.The NALFIA was compared with agar gel electrophoresis analysis, the results showed that the sensitivity of NALFIA was higher than agar gel electrophoresis.There was an excellent agreement between the two methods.NALFIA was a method with high sensitive, low cost and short time.In conclusion, this method provided a good alternative to detect FMDV.     

抗条纹叶枯病基因STV11的功能性分子标记建立及粳型抗源筛选

条纹叶枯病是水稻(Oryza sativa L.)上最严重的病害之一。STV11是从籼稻Kasalath中鉴定的条纹叶枯病抗性基因,根据Kasalath型条纹叶枯病基因STV11 KAS6个碱基缺失的功能性多态性序列差异,设计基于PCR的功能性分子标记qstv11。利用此标记对299份试验材料[5份抗病品种、5份感病品种、41份辽宁省育种材料、17份日本粳型材料、142份秋光/七山占重组自交系(群体A)、85份笹锦/Habataki//笹锦回交重组自交系(群体B)、群体亲本4份]进行基因型分析并进行抗病性鉴定。结果表明,qstv11能够较好区分抗感基因型,而且在测试材料中与条纹叶枯抗性整体呈现共分离。41份辽宁材料中鉴定出含有STV11-R(抗)材料1份;日本粳型材料该位点均为STV11-S(感);群体A和B中分别筛选出粳稻背景STV11-R型材料24份和6份。     

Effects of different NS genes of avian influenza viruses and amino acid changes on pathogenicity of recombinant A/Puerto Rico/8/34 viruses

To examine the effects of the NS1 and NEP genes of avian influenza viruses (AIVs) on pathogenicity in mice, we generated recombinant PR8 viruses containing 3 different NS genes of AIVs. In contrast to the reverse genetics-generated PR8 (rPR8) strain and other recombinant viruses, the recombinant virus rPR8-NS(0028), which contained the NS gene of A/chicken/KBNP-0028/2000 (H9N2) (0028), was non-pathogenic to mice. The novel single mutations of 0028 NS1 to corresponding amino acid of PR8 NS1, G139D and S151T increased the pathogenicity of rPR8-NS(0028). The replacement of the PL motifs (EPEV or RSEV) of pathogenic recombinant viruses with that of 0028 (GSEV) did not reduce the pathogenicity of the viruses. However, a recombinant virus with an EPEV-grafted 0028 NS gene was more pathogenic than rPR8-NS(0028) but less than rPR8. The lower pathogenicity of rPR8-NS(0028) might be associated with the lower virus titer and IFN-β level in the lungs of infected mice, and be attributed to G139, S151 and GSEV-PL motif of NS1 gene of 0028. In conclusion we defined new amino acid residues of NS1 related to mice pathogenicity and the presence of pathogenic NS genes among low pathogenic AIVs may encourage continuous monitoring of their mammalian pathogenicity.