共查询到17条相似文献,搜索用时 187 毫秒
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利用分子生物学技术对天津滨海新区泡桐丛枝病病原进行分类鉴定。采用植原体16S rDNA通用引物R16mF2/R16mR1对患病植株总DNA进行PCR扩增,得到约1.4 kb特异性片段。克隆测序、Blast比对和iPhyClassifier分析结果表明,天津滨海新区泡桐丛枝植原体16S rDNA基因片段长1 432 bp,与国内泡桐丛枝植原体PY株系相似性最高,达99.86%,归属于16SrI组(aster yellows group,翠菊黄化组)D亚组。系统树构建与分析显示,泡桐丛枝病天津滨海株PaWB-TJBH与16SrI其他亚组亲缘关系较近,同在16SrI组进化枝上,与16Sr I-D组亲缘关系最近;16S rDNA序列RFLP电子酶切图谱表明,PaWB-TJBH属于16SrI-D组一个成员,与同源性比较和系统进化分析结果一致。 相似文献
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紫花苜蓿丛枝病植原体的分子检测及鉴定 总被引:1,自引:0,他引:1
利用植原体16S rRNA基因通用引物对云南昆明发生的苜蓿丛枝病感病植株总DNA进行巢式PCR扩增,得到1.2kb的特异片段,从分子水平证实了苜蓿丛枝病的病原是植原体。从PCR产物的RFLP酶切图谱可看出,该植原体株系的酶切图谱与马里兰翠菊黄化植原体(AY1)相同。对扩增片段进行克隆及序列测定后,利用最小进化法做Bootstrap验证的系统进化树,表明苜蓿丛枝病植原体为Candidatus Phytoplasma asteris成员之一,与植原体16SrI-B亚组成员关系密切。 相似文献
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黄槐丛枝病植原体的检测及鉴定 总被引:1,自引:0,他引:1
应用植原体16S rRNA基因通用引物,对自然表现丛枝的黄槐植株进行巢式PCR检测,得到约1.2 kb的特异片段,证明此植株中存在植原体.将此特异片段与pGEM-T Easy载体连接并转化到大肠杆菌JM109感受态细胞中,通过PCR鉴定、序列测定及同源性比较分析,结果表明此植原体株系(STWB)16S rDNA片段G+C含量为45.8%,与榆树黄化植原体组(Elm yellows group,16SrV group)中的各株系最高同源率可达99.4%,而与其它组中的株系明显低于97.0%,故认为该植原体株系为榆树黄化植原体组中的成员之一. 相似文献
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海南省木豆丛枝病植原体的分子检测及鉴定 总被引:1,自引:0,他引:1
利用植原体通用引物R16mF2/R16mR1和rp (Ⅱ) F1/rp (Ⅱ) R1对海南木豆丛枝病植原体16S rDNA和部分核糖体蛋白(ribosomal protein,rp)基因序列进行PCR扩增、克隆和测序。获得海南木豆丛枝病植原体16S rDNA基因片段为1430bp,rp基因片段为1170bp。核苷酸同源性比较和系统进化树构建表明,引起海南木豆丛枝病的植原体应属于16SrⅡ组中的亚组ⅲ。本研究首次从分子水平确定了引起我国海南木豆丛枝病的病原物为植原体,明确了其分类地位,为该病害流行学研究和防治提供了理论依据。 相似文献
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对内蒙古农业大学校园内表现花器绿变症状的菊花样品进行采集和DNA提取,应用植原体16S rRNA基因和rp基因的引物进行巢式PCR扩增,从感病样品中分别扩增得到了长度均约为1.2 kb的片段。序列一致性分析表明,菊花绿变植原体16S rRNA基因与翠菊黄化植原体匈牙利风信子株系(GenBank登录号MN080271)、印度玉米株系(KY565571)、印度繁缕株系(KC623537)和印度马铃薯株系(KC312703)的核酸一致性最高,为99.9%,rp基因序列与翠菊黄化植原体立陶宛洋葱株系(GU228514)的核酸一致性最高,为99.8%。基于16S rRNA基因和rp基因构建系统进化树时发现,菊花绿变植原体均与16SrI-B亚组成员聚为一起。16S rRNA基因相似性系数分析表明,菊花绿变植原体与洋葱黄化植原体(AP006628)的相似性系数最高为1.00,洋葱黄化植原体(AP006628)在分类上属于16SrI-B亚组。因此,我们可以确定该菊花绿变植原体属于16SrI-B亚组。这是我国首次报道菊花绿变病的发生。 相似文献
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本研究对河北省大面积发生的金莲花绿变病的病原进行检测和鉴定。以金莲花叶片的总DNA为模板,使用植原体16S rDNA和核糖体蛋白(ribosomal protein)基因rp的特异性引物进行PCR扩增,在感病金莲花样品中扩增到植原体的16S rDNA(1 432 bp)片段和rp基因(1 240 bp)片段。序列分析发现,获得的16S rDNA和rp基因片段与洋葱黄化植原体Onion yellows phytoplasma(GenBank登录号:AP006628)的相似度最高,分别为99.9%和99.3%,确定金莲花绿变病的病原为植原体,暂命名为金莲花绿变植原体Trollius chinensis virescence phytoplasma。对金莲花绿变植原体的16S rDNA进行虚拟RFLP分析,发现其酶切图谱与16SrⅠ-B亚组的洋葱黄化植原体的参照图谱完全一致,相似系数1.00。16S rDNA和rp基因的系统发育进化树显示,金莲花绿变植原体与16SrⅠ-B亚组的植原体聚为一支,属于植原体16S rⅠ-B亚组。 相似文献
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本研究通过对表现出丛枝和花变叶症状的芝麻感病植株总DNA进行植原体16S rRNA和rp基因的PCR扩增、克隆、测序及序列分析,明确了两种病株的病原均为植原体,并将其命名为云南元谋芝麻丛枝植原体(SEWB-YNym)和云南元谋芝麻花变叶植原体(SEP-YNym)。两个株系的16S rRNA基因片段长度均为1 248 bp,并且碱基序列完全一致。通过与其他地区报道的芝麻植原体株系16S rRNA基因序列比对后发现这两个株系与来自缅甸的株系不存在位点差异,而与泰国、中国台湾、印度的株系分别存在3~6个位点差异。同时,还从两个株系中获得了长度均为1 171 bp并且碱基序列也完全一致的SEWB-YNym和SEP-YNym的rp基因序列。此rp基因序列包括全部rpl22基因(nt90-476)和部分rps3基因(nt550-1170),分别编码128和206个氨基酸。通过对16S rRNA和rp基因的序列进行同源性比对、构建系统进化树等分析,表明两个株系与候选种‘Candidatus Phytoplasma aurantifolia'相关,为16SrII-A亚组成员,并归属于植原体rp-iii亚进化支。 相似文献
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本研究对山东省11个地区的枣疯病样品进行了鉴定和分子变异分析。以样品总DNA为模板,经扩增和序列测定,分别得到16S rRNA (1 432 bp)、核糖体蛋白基因rp (1 196 bp)、转运蛋白基因secA (836 bp) 和secY (1 421 bp) 的序列,secA基因序列是首次从枣疯病植原体中扩增获得。对获得的序列与NCBI数据库中相关植原体序列进行聚类和核苷酸变异分析,结果显示山东省枣疯病植原体属于16SrⅤ-B、rpⅤ-C、secYⅤ-C亚组,相对于16S rRNA基因,rp,secA和secY变异更大,非同义突变更多,更利于对国内不同来源的枣疯病植原体的精细系统进化分析。 相似文献
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榆树黄化病植原体的分子检测与鉴定 总被引:5,自引:0,他引:5
利用植原体16SrRNA基因的通用引物R16rrLF2/R16mR1和R16F2n/R16R2对山东泰山上发生的榆树(Ulmus parvifolia)黄化病感病植株总DNA进行巢式PCR扩增,得到了约1.2kb的特异性片段,从分子水平证实了榆树黄化病的病原(EY-China)为植原体。将扩增到的片段测序,并进行一致性和系统进化树分析。结果表明,该分离物属于植原体榆树黄化组(Candidatus Phytoplasma ulmi),与该组成员16SrRNA序列的一致性均在98.2%以上,其中与16SrV-B亚组中的纸桑丛枝(Paper mulberry wiches'-broom)和枣疯病(Jujube witches'-broom)植原体一致性最高,达到99.4%,在系统进化树中与该亚组成员聚类到同一个分支,说明该分离物属于植原体16SrV-B亚组。本研究首次对在中国引致榆树黄化病的植原体进行了分子检测,并通过核酸序列分析将其鉴定到亚组水平。 相似文献
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Monarda yellows occurring in southern Alberta was found to be associated with a phytoplasma. Using two pairs of universal primers, 16S ribosomal DNA fragments (about 1.5 and 1.2 kb) were amplified separately by polymerase chain reaction (PCR) from DNA samples that had been extracted from infected monarda. No such DNA bands were observed using DNA samples from uninfected monarda. The DNA fragment (1.2 kb) amplified by nested-PCR was analysed and compared with western aster yellows (AY27, Canada), eastern aster yellows (EAY, USA), French hydrangea aster yellows (AYHF), Belgium hydrangea aster yellows (AYHB), clover proliferation (CP, Canada) and potato witches'-broom (PWB, Canada) by means of restriction fragment length polymorphism (RFLP) using endonucleases Alu I, Mse I, Hpa II, Sau 3AI, Kpn I and Rsa I. The results showed that monarda yellows phytoplasma belongs to the aster yellows subclade and is different from CP and PWB. This is the first report of aster yellows phytoplasma infecting monarda. 相似文献
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Polymerase chain reaction (PCR) assays were used to detect phytoplasmas in foliage samples from Chinaberry ( Melia azedarach ) trees displaying symptoms of yellowing, little leaf and dieback in Bolivia. A ribosomal coding nuclear DNA (rDNA) product (1·8 kb) was amplified from one or more samples from seven of 17 affected trees by PCR employing phytoplasma-universal rRNA primer pair P1/P7. When P1/P7 products were reamplified using nested rRNA primer pair R16F2n/R16R2, phytoplasmas were detected in at least one sample from 13 of 17 trees with symptoms. Restriction fragment length polymorphism (RFLP) analysis of P1/P7 products indicated that trees CbY1 and CbY17 harboured Mexican periwinkle virescence (16SrXIII)-group and X-disease (16SrIII)-group phytoplasmas, respectively. Identification of two different phytoplasma types was supported by reamplification of P1/P7 products by nested PCR employing X-disease-group-specific rRNA primer pair R16mF2/WXint or stolbur-group-related primer pair fSTOL/rSTOL. These assays selectively amplified rDNA products of 1656 and 579 bp from nine and five trees with symptoms, respectively, of which two trees were coinfected with both phytoplasma types. Phylogenetic analysis of 16S rDNA sequences revealed Chinaberry yellows phytoplasma strain CbY17 to be most similar to the chayote witches'-broom (ChWBIII-Ch10) agent, a previously classified 16SrIII-J subgroup phytoplasma. Strain CbY1 resembled the Mexican periwinkle virescence phytoplasma, a 16SrXIII-group member. The latter strain varied from all known phytoplasmas composing group 16SrXIII. On this basis, strain CbY1 was assigned to a new subgroup, 16SrXIII-C. 相似文献
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ABSTRACT This paper describes the identification and differentiation of phytoplasmas by a highly sensitive diagnostic technique, DNA heteroduplex mobility assay (HMA). Closely related phytoplasma isolates of clover proliferation (CP), potato witches'-broom (PWB), and alfalfa witches'-broom (AWB) were collected from the field from 1990 to 1999. The entire 16S rRNA gene and 16/23S spacer region were amplified by polymerase chain reaction (PCR) from the field samples and standard CP, PWB, and AWB phytoplasmas and were subjected to restriction fragment length polymorphism (RFLP) analysis and HMA. Two subgroups (I and II) of phytoplasmas in the CP group were identified by HMA but not by RFLP analysis. The results were confirmed by 16/23S spacer region sequence data analysis. After HMA analyses of the PCR-amplified 16/23S spacer region, 14 phytoplasma isolates from field samples were classified into two aster yellows subgroups: subgroup I, phytoplasma isolates from China aster (Callistephus chinensis) yellows, French marigold (Tagetes patula) yellows, cosmos (Cosmos bipinnatus cv. Dazzler) yellows, clarkia (Clarkia unguiculata) yellows, California poppy (Eschscholzia californica cv. Tai Silk) yellows, monarda (Monarda fistulosa) yellows, and strawflower (Helichrysum bracteatum) yellows; and subgroup II, phytoplasma isolates from zinnia (Zinnia elegans cv. Dahlia Flower) yellows, Queen-Annes-Lace (Daucus carota) yellows, scabiosa (Scabiosa atropurpurea cv. Giant Imperial) yellows, Swan River daisy (Brachycombe multifida cv. Misty Pink) yellows, pot marigold (Calendula officinalis) yellows, purple coneflower (Echinacea purpurea) yellows, and feverfew (Chrysanthemum parthenium) yellows. The results indicate that HMA is a simple, rapid, highly sensitive and accurate method not only for identifying and classifying phytoplasmas but also for studying the molecular epidemiology of phytoplasmas. 相似文献
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利用植原体16SrRNA基因序列设计合成的引物,对表现丛枝的竹子植株总DNA进行直接PCR及巢式PCR扩增,得到长1.2kb的目的片段。将此片段与pGEMTEasy载体连接并转化到大肠杆菌DH5α感受态细胞中。通过酶切、PCR鉴定,对筛选得到的重组阳性克隆进行核酸序列测定及同源性比较分析,结果表明其与植原体16SrⅠ组中的西方翠菊黄化植原体(SAY)同源率为99%。依据16SrDNA序列建立了竹子丛枝病植原体株系的系统进化树。对云南竹子丛枝病植原体株系分类鉴定与已报道的结果相似。 相似文献
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ABSTRACT Alfalfa (Medicago sativa) plants showing witches'-broom symptoms typical of phytoplasmas were observed from Al-Batinah, Al-Sharqiya, Al-Bureimi, and interior regions of the Sultanate of Oman. Phytoplasmas were detected from all symptomatic samples by the specific amplification of their 16S-23S rRNA gene. Polymerase chain reaction (PCR), utilizing phytoplasma-specific universal primer pairs, consistently amplified a product of expected lengths when DNA extract from symptomatic samples was used as template. Asymptomatic plant samples and the negative control yielded no amplification. Restriction fragment length polymorphism profiles of PCR-amplified 16S-23S rDNA of alfalfa using the P1/P7 primer pair identified phytoplasmas belonging to peanut witches'-broom group (16SrII or faba bean phyllody). Restriction enzyme profiles showed that the phytoplasmas detected in all 300 samples belonged to the same ribosomal group. Extensive comparative analyses on P1/P7 amplimers of 20 phytoplasmas with Tru9I, Tsp509I, HpaII, TaqI, and RsaI clearly indicated that this phytoplasma is different from all the other phytoplasmas employed belonging to subgroup 16SrII, except tomato big bud phytoplasma from Australia, and could be therefore classified in subgroup 16SrII-D. The alfalfa witches'-broom (AlfWB) phytoplasma P1/P7 PCR product was sequenced directly after cloning and yielded a 1,690-bp product. The homology search showed 99% similarity (1,667 of 1,690 base identity) with papaya yellow crinkle (PapayaYC) phytoplasma from New Zealand. A phylogenetic tree based on 16S plus spacer regions sequences of 35 phytoplasmas, mainly from the Southern Hemisphere, showed that AlfWB is a new phytoplasma species, with closest relationships to PapayaYC phytoplasmas from New Zealand and Chinese pigeon pea witches'-broom phytoplasmas from Taiwan but distinguishable from them considering the different associated plant hosts and the extreme geographical isolation. 相似文献