与辣椒抗TMV L^(3)基因连锁的分子标记的筛选及种质资源抗TMV鉴定

以含抗辣椒TMV的L^(3)基因的材料L15为基础,利用与L^(3)基因连锁的3个分子标记189D23MF、PMFR11和PMFR21对种质资源进行鉴定.对L15、3份感病材料H8/H9/H11×L15 F_(1)、46份辣椒种质资源进行室内人工TMV接种并对其进行表型抗性鉴定和RT-PCR检测.对筛选出的标记在F_(1)及BC_(1)P_(1)群体中进行验证.结果表明:分子标记189D23MF在L15和12份辣椒种质上均未扩增出条带;SCAR标记PMFR11在L15和46份辣椒种质上呈现共显性分离,SCAR标记PMFR21为显性标记.通过室内人工接种鉴定方式,2份材料L15、H11×L15表现为高抗.H9×L15表现为抗,H8×L15及5份材料A1、A35、A39、A55、L16表现为中抗,11份材料表现为感病,30份材料表现为高感.在F1及BC1P1群体中PCR扩增结果表明SCAR标记PMFR21可用于辣椒抗TMV分子标记辅助选择.

Transcriptome and Metabolome Revealed the Mechanism of NtBRL3 Overexpression Tobacco(Nicotiana tabacum L.K326)in Response to Drought Stress

Drought has severely affected the yield and quality of commercial crops.The BRI1 family plays an important role in plant response to drought stress,and BRL3 gene plays an important role in the study of drought in Arabidopsis thaliana.In this study,NtBRL3 was constructed as a vector and genetically transformed to obtain‘N.Tobacco K326’overexpression of NtBRL3.The enzyme activities of transgenic tobacco and wild-type tobacco were measured and transcriptome and metabolome analyses were performed.The results showed that the antioxidant enzymes of transgenic tobacco were more active under drought conditions,and 85 significantly differentially metabolites and 106 significantly differentially expressed genes were identified in the metabolome and transcriptome analyses,respectively.Transgenic tobacco NtBRL3ox demonstrated an excessive accumulation of droughtrelated metabolites,sugars such as sucrose and maltotetraose,and amino acids such as proline,compared with WT.We discovered drought-related differential genes in the root transcriptome,among which LOX6,RD22,WSD1,CCD8,and UGT were key genes which play an important role in plant response to drought stress.Our results demonstrate that NtBRL3 overexpression in K326 enhances drought resistance in transgenic tobacco.

黄花苜蓿MfMYB3R-3基因克隆及结构与功能的生物信息学分析

MYB转录因子是植物中分布最广的转录因子家族之一,在植物响应生物及非生物胁迫,调控逆境胁迫相关基因表达方面起着重要的作用。本研究基于黄花苜蓿转录组数据,鉴定和克隆了黄花苜蓿MfMYB3R-3基因,并进行了生物信息学分析。结果表明,MfMYB3R-3基因CDS区长1701 bp,编码566个氨基酸,具有SANT保守结构域,为MYB3R型转录因子;MfMYB3R-3蛋白化学分子式为C_(2690)H_(4314)N_(796)O_(873)S_(20),理论等电点为8.75,该蛋白是亲水性不稳定偏碱性非分泌蛋白,不具有信号肽,无跨膜结构,亚细胞定位预测在细胞核。系统进化分析发现,黄花苜蓿MfMYB3R-3蛋白与蒺藜苜蓿的MYB3R-3的亲缘关系最近。

菊芋14-3-3基因家族的鉴定及其对非生物胁迫响应的分析

[目的]本文旨在鉴定菊芋14-3-3基因家族成员并分析它们对高温、低温、盐和干旱胁迫响应的表达模式,为研究14-3-3蛋白功能及菊芋育种提供依据。[方法]采用克隆和生物信息学研究基因性质,采用RNA-seq数据分析和RT-qPCR研究基因对非生物胁迫的响应模式。[结果]从菊芋中克隆到14-3-3基因家族的10个成员HtGRF1—HtGRF10,GenBank登录号为OP132618—OP132627。根据进化关系将其分为2个亚家族:HtGRF1—HtGRF7属于非ε组,HtGRF8—HtGRF10属于ε组,通常形成同源或异源二聚体。组织表达分析表明,HtGRF2/3/6/9在芽、根、茎、叶中的表达丰度较高,HtGRF3/5/9在块茎发育过程中前高后低。综合分析根和叶中HtGRF对非生物胁迫响应时发现,HtGRF6表达水平在高温、盐和干旱胁迫下下降;HtGRF2/3/7/8/9表达水平在盐胁迫下下降,而在干旱胁迫下上升;HtGRF1表达水平在低温胁迫下上升;HtGRF4/5表达水平在干旱胁迫下下降;而HtGRF10表达水平变化不显著。[结论]菊芋14-3-3蛋白是一个高度保守的多基因编码家族,在菊芋的生长发育和适应复杂环境中起着重要作用。

Expression Vector Construction and Genetic Transformation of <i>Rosa rugosa β</i>-l,3-Glucanase Gene (<i>RrGlu</i>)

In order to lay a foundation for researching the function of Rosa rugose (R. rugosa) RrGlu gene, the RrGlu gene was amplified from the styles of R. rugosa “Tanghong”, a gene expression vector named PBI121-RrGlu was constructed and the vector was introduced into tobacco with the agrobacterium-mediated method. PCR results showed that the RrGlu gene was integrated into the tobacco genome.

Combinatorial Effects of SDF-1 and CCL3L1 Gene Variants and Susceptibility to HIV-1/AIDS in Indian Population

HIV-1 infection requires the expression of CD4＋ molecules in colligation with C-C chemokine receptor type 5 （CCR5） and C-X-C chemokine receptor type 4 （CXCR4） as the major coreceptors. The role of SNP in 3＇ untranslated region ofSDF-1 （SDF1-3 ＇A） and low copy number （CN） of the CCL3L1 gene is reported to confer increased resistance to HIV-1 infection. The aim of the present study was to analyze the combinatorial effect of both the variations in protection towards HIV-1 infection in Indian population. The combinatorial effect of genetic variation in terms of SNP in SDF-1 gene and CCL3L1 CN was investigated in 105 healthy individuals and 78 HIV-I patients. Genotyping of SDF-1 was performed by RFLP-PCR and CCL3L1 by real-time PCR using TaqMan chemistry. The genotype frequency distribution of SDF-1 was found to be （SDF-1/SDF-I： 65.4%, SDF-1/SDF1-3＇A： 29.5% and SDFI-3＇A/SDF1-3＇A- 5.1%） in HIV patients as compared to （SDF-1/SDF-I： 64.8%, SDF-1/SDF1-3＇A： 30.5% and SDF1-3 ＇A/SDF1-3 ＇A： 4.7%） in healthy individuals, whereas a range of 1 to 6 copies per diploid genome was observed for CCL3L1 gene.

Isolation and Functional Characterization of a B3 Transcription Factor Gene <i>FUSCA3</i>Involved in Pre-Harvest Sprouting Resistance in Wheat

Pre-harvest sprouting (PHS) reduces yields and grain quality, resulting in seriously economic losses in wheat. It has been showed that PHS is significantly correlated to seed dormancy levels. FUSCA3 (FUS3) gene is considered to be the key regulator of seed dormancy. However, little information is available about the function of FUS3 gene (TaFUS3) in wheat. In this study, three homologous genes were identified in wheat grain, and their functions were investigated by gene silencing. Three full-length DNA (3477, 3534 and 3501 bp) and cDNA (1015, 1012 and 1015 bp) sequences encoding a B3 transcription factor, designated TaFUS3-3A, TaFUS3-3B and TaFUS3-3D, were first isolated from common wheat. The transcription of three TaFUS3 genes in seed development and germination process was detected. TaFUS3-3B and TaFUS3-3D had similar expression profiles, and high levels of gene transcripts were detected in seeds at 25 DAP (days after pollination) and after 24 h of imbibition. However, the transcription of TaFUS3-3A was not detected. Silencing of TaFUS3 in common wheat spikes resulted in increased seed germination and PHS. Compared with wild-type, the TaFUS3-silenced plants showed increased expression of genes related to GA biosynthesis and ABA metabolism, and decreased expression of genes associated with ABA biosynthesis. Moreover, silencing of TaFUS3 in wheat plants led to a decrease in embryo sensitivity to ABA and changed the expression of genes involved in ABA signal transduction. The results of gene silencing indicated that TaFUS3 plays a positive role in wheat seed dormancy and PHS-resistance, which might be associated with ABA, GA level and signal transduction.

褐飞虱Nilaparvata lugens(S"非汉字符号"l)肌动蛋白基因3′-RACE及基因表达的RT-PCR检测

通过锚定的 3′ RACE筛选实验 ,确定锚定效率最好的下游引物 ,用于褐飞虱各发育期肌动蛋白基因表达的RT PCR检测。结果表明 :3个锚定引物中 ,0 4 2 2 7( 5′ >TCACACAGGAAACAGCTATGACTTTTTTTTTTTTTTA <3′)的锚定效率最好 ,可以扩增出 5条褐飞虱的肌动蛋白基因 3′末端片段 ,依其大小命名为BPH A、BPH B、BPH C、BPH D、BPH E。RT PCR检测表明 :BPH A从 3龄开始到成虫期都有常量表达 ;BPH B、BPH C、BPH E从 2龄开始到成虫期都有表达 ;BPH D在整个幼虫期都有表达 。

桑树花青素合成相关基因MaLAR和MaUGAT的克隆与表达分析

无色花青素还原酶(leucoanthocyanidin reductase,LAR)是催化无色花青素转化为儿茶素的一个关键酶,是植物类黄酮生物合成路径中的一个下游酶,可抑制无色花青素在花青素合成酶(anthocyanidin synthase,ANS)的催化下转化为花青素;花青素⁃3⁃O⁃葡萄糖苷⁃2⁃O⁃葡萄糖醛酸转移酶(cyanidin⁃3⁃O⁃glucoside 2⁃O⁃glucuronosyltransferase,UGAT)是植物花青素生物合成路径中一个关键酶,其催化花青素⁃3⁃O⁃葡萄糖苷转化为花青素3⁃O⁃(2⁃O⁃β⁃D⁃葡萄糖醛酸基)⁃β⁃D⁃葡萄糖苷,使得无色花青素最终转化为稳定的花色苷物质而累积在果实中。通过与川桑(Morus notabilis)基因组数据库进行比对鉴定到了MaLAR和MaUGAT基因,并以粤椹大10与和田白桑的桑椹cDNA为模板克隆了MaLAR和MaUGAT基因。聚类分析结果表明粤椹大10 MaLAR与甜樱桃(Prunus avium)亲缘关系较近,和田白桑MaLAR与川桑亲缘关系较近;粤椹大10 MaUGAT与和田白桑MaUGAT均与川桑亲缘关系较近,均属于蔷薇目。实时荧光定量PCR检测表明MaLAR在和田白桑桑椹S1—S3阶段的表达水平均高于粤椹大10;而MaUGAT则在粤椹大10桑椹S2—S3阶段中表达水平显著高于和田白桑。研究表明MaLAR在桑树花青素合成途径中可能起负调控作用,而MaUGAT在桑树花青素合成途径中可能起正调控作用。

广西狂犬病野毒株L基因3'端的多态性分析

为了解狂犬病病毒(RV)的变异情况,本研究对广西不同地区的22个RV分离株的L基因3'端片段进行克隆和测序,与国内外发表的RV街毒、固定毒株及类RV株相应部分的多态性进行了比较分析。结果表明,所测定的22个广西RV野毒分离株属于基因Ⅰ型,可分为3个群即Ⅰ群、Ⅱ群和Ⅲ群。其中13株属于Ⅰ群,其核苷酸同源性为96.9%～100.0%,氨基酸同源性为98.2%～100.0%;8株属于Ⅱ群,株核苷酸同源性为96.5%～99.7%,氨基酸同源性为97.8%～100.0%。仅1株属于Ⅲ群。22个RV分离株与RV固定毒株核苷酸和氨基酸的同源性分别为79.5%～86.9%和85.8%～96.5%,与类RV核苷酸和氨基酸的同源性分别为65.7%～70.3%和70.4%～76.5%。

枸杞Lb14-3-3c基因克隆及转化马铃薯的研究

在开花植物中,14-3-3蛋白对植物生长发育具有重要的调控作用。本试验利用逆转录PCR(RT-PCR)技术,从宁夏枸杞宁杞1号花药中克隆了一个14-3-3蛋白家族基因Lb14-3-3c。利用荧光定量PCR技术分析Lb14-3-3c基因在花药发育不同时期的表达特征,构建Lb14-3-3c基因的植物过表达载体pCambia1305.1-35s-Lb14-3-3c(+)及植物抑制表达载体pCambia1305.1-35s-Lb14-3-3c(-),继而经农杆菌介导法将过表达载体转化马铃薯紫花白幼茎,获得了阳性转基因马铃薯植株。结果表明,Lb14-3-3c基因编码的蛋白与番茄处于进化树同一分枝上,亲缘关系最近。荧光定量PCR分析表明,该基因在枸杞各器官都有表达,在雄蕊中的表达量最高。在花药发育的各个时期均表达,且在小孢子母细胞时期表达量最高。成功将外源基因Lb14-3-3c载入含强启动子CaMV35s的植物表达载体中,并将该基因的植物过表达载体转化马铃薯,通过表型观察与PCR阳性鉴定得到5株转基因植株,发现转基因植株长势优于野生型植株,苗期野生型与转基因型淀粉含量相差不大,结薯期和成熟期转基因型马铃薯的叶片淀粉含量均高于野生型,且差异显著。本研究为进一步探讨Lb14-3-3c基因对枸杞花药发育过程中淀粉供能的调控提供了参考依据,并且为阐明Lb14-3-3c基因在植物发育过程中的功能及枸杞的分子遗传改良提供了研究基础。

回交重组自交系中SSⅢ-1、SBE3和PUL基因对稻米蒸煮食味品质的影响

该研究利用颗粒结合淀粉合成酶基因(Wxb)与可溶性淀粉合成酶Ⅱa基因(SSⅡ-3)均相同的籼型光温敏核不育系‘广占63S’和潜力恢复系CG173R为亲本,经过回交和多代自交,以构建的回交重组自交系(BILs)BC1F10代株系为供试材料,分析各株系的基因型组成及其蒸煮食味品质(ECQs)和RVA谱,以解析与品质相关微效基因的遗传效应。结果显示:(1)双亲在焦磷酸化酶大亚基基因(AGPlar)、分支酶基因Ⅲ(SBE3)、脱分支酶基因(PUL)、可溶性淀粉合成酶Ⅰ基因(SSⅠ)和可溶性淀粉合成酶SSⅢ-1基因(SSⅢ-1)的基因位点存在差异。(2)SSⅢ-1、SBE3和PUL基因分别在BC1F10代株系中存在单基因分离,SSⅢ-1和SBE3基因、SSⅢ-1和PUL基因在BC1F10代株系中均存在双基因的分离。(3)不同基因型及其互作与蒸煮食味品质(ECQs)中的表观直链淀粉含量(AAC)、胶稠度(GC)以及RVA谱的部分特征值存在显著或极显著的效应。(4)SSⅢ-1单基因只对AAC有极显著影响;SBE3基因和SSⅢ-1基因互作对AAC有极显著影响,对峰值时间(PeT)、成糊温度(PaT)、GC有显著性影响;PUL基因和SSⅢ-1基因互作对PeT、PaT和回复值(CSV)有极显著影响,对最高粘度(PKV)、热浆粘度(HPV)、崩解值(BDV)、冷浆粘度(CPV)、消减值(SBV)、AAC和GC有显著影响。研究表明,在Wxb和SSⅡ-3基因背景下,参与淀粉合成的微效基因SSⅢ-1与SBE3和SSⅢ-1的互作效应极显著影响水稻AAC,SBE3和SSⅢ-1的互作效应与PUL和SSⅢ-1的互作效应显著影响GC,PUL和SSⅢ-1的互作效应极显著影响PaT,这些发现将对改良稻米品质和加快水稻优质育种具有重要意义。

Characterization of TaCOMT genes associated with stem lignin content in common wheat and development of a gene-specific marker

Stem lignin content(SLC) in common wheat(Triticum aestivum L.) contributes to lodging resistance. Caffeic acid 3-O-methyltransferase(COMT) is a key enzyme involved in lignin biosynthesis. Characterization of TaCOMT genes and development of gene-specific markers could enable marker-assisted selection in wheat breeding. In the present study, the full-length genomic DNA(gDNA) sequences of TaCOMT genes located on chromosomes 3 A, 3 B, and 3 D were cloned by homologous cloning. Two allelic variants, TaCOMT-3 Ba and TaCOMT-3 Bb, were identified and differed by a 222-bp insertion/deletion(InDel) in the 3′-untranslated region(3′-UTR). A co-dominant gene-specific marker based on this InDel was developed and designated as Ta COMT-3 BM. A total of 157 wheat cultivars and advanced lines grown in four environments were used to validate the associations between allelic patterns and SLC. The SLC of cultivars with TaCOMT-3 Ba was significantly(P<0.01) higher than that of those with TaCOMT-3 Bb, and the marker TaCOMT-3 BM could be effectively used in wheat breeding.

Effect of drought stress on male fertility restoration in A3 CMS-inducing cytoplasm of sorghum

Use of cytoplasmic male sterility (CMS) in hybrid breeding requires effective male fertility-restoring lines. In sorghum, very few restoring lines that can restore fertility in A_3 CMS have been reported. To identify the reasons for this deficiency, F_1 and F_2 hybrids of an A_3 CMS line crossed with the line IS1112C, a donor of fertility-restoring (Rf) genes for A_3 cytoplasm, and testcrosses of fertile plants to A_3CMS lines were grown under contrasting water availability regimes in dryland and irrigated field plots. In the irrigated plots the frequency of fertile plants in testcrosses was twice that in dryland plots (P < 0.05). Fertile plants from the F_2 family grown in the irrigated plots showed significantly higher restoration ability than fertile plants from the same family grown in dryland plots. F_3 plants from the F_2 family grown in irrigated plots yielded on average a sixfold higherfrequency of fertile plants in testcrosses than F_3 plants derived from dryland plots (P < 0.01).Fertility of testcross hybrids correlated negatively with air vapor pressure deficit (VPD) at flowering (r = - 0.96; P < 0.01) suggesting that VPD is a trigger for downregulation of Rf genes for A_3 cytoplasm.

胃癌中TSG101、RUNX3的表达与幽门螺杆菌L型感染的关系

目的探讨胃癌组织中肿瘤易感基因101(TSG101)及人类Runt相关转录因子3(RUNX3)的表达与幽门螺杆菌L型(Hp-L)感染之间的相互关系及临床意义。方法收集胃癌组织样本89份,并随机选取35份对应癌旁组织为对照组。应用免疫组化方法检测上述组织中TSG101、RUNX3的表达及Hp-L型的感染情况。结果胃癌组织TSG101、RUNX3的表达率分别为62.9%(56/89)、30.3%(27/89),Hp-L型感染率为72.0%(64/89),与对照组差异有统计学意义(<0.05)。胃癌Hp-L型阳性组中TSG101的表达高于Hp-L型阴性组,RUNX3表达低于HpL型阴性组。胃癌组织中TSG101的表达与肿瘤的分化程度、浸润深度、淋巴结转移均有关(均<0.05),RUNX3的表达则与肿瘤的分化程度、浸润深度、淋巴结转移及病理分期均有关(均<0.05)。结论 TSG101在胃癌组织中呈高表达,RUNX3呈低表达;Hp-L型可通过调控TSG101及RUNX3的表达参与胃癌的发生发展。

Balb/c小鼠线粒体转录终止因子3基因克隆及其组织表达分析

旨在获得Balb/c小鼠线粒体转录终止因子3(MTERF3)基因cDNA的序列特征并进行比较分析,揭示该基因的组织特异性表达规律。应用RT-PCR技术克隆Balb/c小鼠MTERF3基因cDNA编码区序列(CDS),采用MEGA6.0软件构建小鼠MTERF3基因系统进化树,并采用Northern blot、RT-qPCR和Western blot技术研究该基因在小鼠大脑、心、脾、肺、肾、肝、骨骼肌和睾丸等8种不同组织中的特异性表达规律。结果显示,Balb/c小鼠MTERF3基因cDNA的CDS序列大小为1239bp,编码412个氨基酸。小鼠MTERF3基因与大鼠MTERF3基因同源性高达91.1%。MTERF3基因mRNA和蛋白质在Balb/c小鼠各组织中均有不同程度的表达。结果表明,成功克隆了Balb/c小鼠MTERF3基因cDNA的完整编码区序列,并揭示了该基因在各组织器官的表达规律,为进一步研究MTERF3基因在实验动物体内的功能奠定了基础。

转基因抗草甘膦油菜内源特异参照基因BnACCg8和外源E93'终止子的检测研究

对转基因抗草甘膦油菜内源特异参照基因BnACCg8和外源基因E93'终止子进行了普通PCR和Taq Man实时荧光PCR检测,建立了相应的检测方法。

亮叶杨桐黄酮提取物抗瘤活性及其对小鼠p53基因表达活性的影响

本文从亮叶杨桐中分离提取出黄酮类生物活性物质,对进行小鼠体内抗肿瘤试验和小鼠S-180肿瘤细胞中p53基因表达抑制实验。研究结果表明,亮叶杨桐中总黄酮含量达28.4％,黄酮提取物在剂量50mg·kg^(-1)时对小鼠肉瘤S-180的抑瘤率为64.0％,对艾氏腹水癌(EAC)Ⅰ小鼠的生命延长率为51.2％,有显著的抗肿瘤作用,并且药效与用药量有关。同时发现,黄酮类提取物的抗肿瘤活性优于化疗药物呋喃氟尿嘧啶(Ftorafur)。RT-PCR实验结果表明,在剂量500mg·kg^(-1)时,黄酮类提取物可以明显抑制小鼠S-180肿瘤细胞中突变型p53基因的转录活性,其抑制程度和呋喃氟尿嘧啶相同。

小麦胚乳14-3-3基因的克隆及其重组蛋白的原核表达

【目的】克隆小麦籽粒胚乳14-3-3基因,并进行体外表达,为进一步研究其对籽粒生长发育的调控作用奠定基础。【方法】根据已有同源基因保守序列,设计插入限制性酶切位点的特异性扩增引物,采用RT-PCR方法扩增发育的小麦胚乳14-3-3基因,克隆测序后转入表达载体,在大肠杆菌中进行表达,并进行纯化。【结果】从开花后灌浆13—15 d的小麦品种济麦22籽粒胚乳中克隆到1个14-3-3基因,序列分析表明为非ε型,含1个777 bp的开放阅读框,编码蛋白259 aa,分子量约29 kD。核苷酸序列分析表明与小麦、水稻、玉米、大麦、大豆等主要农作物和模式植物拟南芥的14-3-3基因有较高的同源性,最高达98%,编码蛋白氨基酸长度也一致(260aa左右);在大肠杆菌中高效表达的重组蛋白约为30 kD,分子量大小与根据核苷酸序列推导的编码蛋白一致。从基因序列的同源性、编码蛋白的氨基酸长度、表达蛋白的分子量大小分析都说明克隆到的基因为14-3-3基因,并准确插入表达载体,得到了高效正确表达。将克隆的基因插入pET29c载体,热激转化大肠杆菌BL21-CodonPlus(DE3)-RP,得到了高效表达,但主要以包涵体形式(80%)存在。对重组蛋白进行了纯化,可溶性重组蛋白利用S-蛋白琼脂糖树脂得到纯化的蛋白,包涵体重组蛋白经变性溶解、复性后,也利用S-蛋白琼脂糖树脂得到了高度纯化的重组蛋白。【结论】利用RT-PCR技术从发育的小麦胚乳中克隆到1个14-3-3基因,并在大肠杆菌中得到了高效表达,重组蛋白经过纯化得到了纯度较高的活性蛋白。

花生黄烷酮3-羟化酶基因AhF3H的克隆和表达分析

利用花生转录组测序结果和GenBank EST数据库,首次从花生中克隆了黄烷酮3-羟化酶基因,命名为AhF3H,GenBank登录号为KF312218。氨基酸序列分析表明,AhF3H与其他植物F3H有较高的同源性。进化树分析表明,AhF3H与大豆、野生大豆F3H的亲缘关系较近。在花生紫色种质材料及丰花1号中,AhF3H的相对表达水平同花青素含量呈正相关,表明AhF3H在花生花青素合成代谢过程中具有重要作用。