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1.
利用PCR法对青梅ITS1、5.8S、ITS2 序列扩增后克隆测序,用软件DNAMAN和MEGA3.1分析测序结果,研究18个福建青梅样品的核糖体ITS碱基序列差异.获得青梅18个样品rDNA中的ITS和5.8S完全序列,ITS1、5.8S和ITS2序列长度分别为223~224bp、164bp和241~246bp,5.8S较为保守.根据测序结果,以UPGMA法建立系统发生树,从分子水平说明18个样品间的变异程度,并将福建青梅差异较大的14条rDNA ITS序列登录GenBank,获得登录号:EF523482-EF523493、EF529435和EF529436.  相似文献   

2.
本研究采用改良CTAB法分别提取18份甘肃本地产当归、黄芪和大黄基因组DNA,并用PCR分别扩增其ITS1-5.8S-ITS2序列、直接测序并作序列同源性比对分析。双向测序分析结果表明,甘肃6个不同产地当归rDNA的ITS1、5.8S和ITS2序列一致,片段长度分别为215bp、162bp和223bp;供试的黄芪ITS1、5.8S和ITS2序列分别为228bp、164bp和210bp;大黄ITS1、5.8S和ITS2序列分别为160bp、159bp和164bp。供试材料的ITS1-5.8S-ITS2核苷酸序列已提交GenBank。本研究为提供甘肃当归、黄芪和大黄指纹图谱鉴别的分子标记、其道地性药材的分子鉴定和品质评价提供参考。  相似文献   

3.
利用三种分子标记研究缘毛类纤毛虫的系统发育地位   总被引:4,自引:1,他引:3  
为了探讨缘毛类纤毛虫的系统发育地位 ,利用RAPD方法得到了 9种缘毛类纤毛虫、 1种四膜虫和1种喇叭虫的 3个随机引物的电泳带谱 ;测定了 7种缘毛类纤毛虫rRNA基因中的间隔区 1(ITS1)和小亚基核糖体核糖核酸 (SSrRNA)基因序列 ,并构建了相应的系统树。在比较和分析RAPD、ITS1和SSrRNA基因序列在缘毛类纤毛虫系统发育研究中的适用范围的基础上 ,以SSrRNA基因序列为分子标记研究了缘毛类纤毛虫系统发育地位 ,结果表明 :①缘毛亚纲是单系的 ,作为寡膜纲中一个亚纲的分类地位是合理的 ;②缘毛类纤毛虫可能是寡膜纲中较高等的一个类群。  相似文献   

4.
陈灼娟 《广西植物》2017,37(11):1447-1454
对不同栽培区的25种普通枇杷品种以及7种枇杷属野生种的ITS序列进行扩增并测序,采用邻接法和最大简约法进行系统发育树的构建并对枇杷属内不同种间的遗传关系进行了分析。结果表明:枇杷属植物ITS序列ITS1+5.8S rDNA+ITS2总长度为592 bp或594 bp,长度变化发生在ITS2。所有样本的ITS1和5.8S rDNA长度一样,都是223 bp和168 bp;而ITS2为201 bp或203 bp。5种枇杷属野生种的ITS序列长度为594 bp,包括栎叶枇杷、大渡河枇杷、南亚枇杷、南亚枇杷窄叶变种和大瑶山枇杷;其余2种枇杷属野生种(麻栗坡枇杷、小叶枇杷)和普通枇杷栽培种的ITS序列长度都为592 bp。所有样本ITS序列的GC含量为64.2%~64.5%,其中ITS1为64.1%~65.5%,ITS2为68.1%~72.6%。对所有样本的ITS序列比对产生44个可变位点,其中38个为简约信息位点,其中11个位于ITS1,5个位于5.8S rDNA,22个位于ITS2。最大的种间序列差异为7.7%,最小的种间差异发生在麻栗坡枇杷和小叶枇杷之间,仅为0.2%。普通枇杷种内的ITS序列差异很低,25种普通枇杷栽培种之间的序列差异为0~1.5%。所研究的枇杷属植物可分为3个分支。分支Ⅰ包括所有普通枇杷品种,分支Ⅱ包含5种野生枇杷种,包括栎叶枇杷、大渡河枇杷、南亚枇杷、南亚枇杷窄叶变种和大瑶山枇杷;分支Ⅲ由2个野生枇杷种(麻栗坡枇杷、小叶枇杷)组成。该研究结果表明ITS序列对枇杷种间鉴定和系统发育分析具有一定意义,但对普通枇杷栽培种间的鉴定作用不大。  相似文献   

5.
克隆得到2种缘毛类纤毛虫——钟形钟虫(Vorticella campanula)和螅状独缩虫(Carchesium polypinum)的胞质Hsp70基因部分序列,长度均为438bp,编码146个氨基酸。以细菌为外类群,利用最大似然法和邻接法构建包括其他5种纤毛虫在内的共26个物种的Hsp70基因氨基酸序列系统发育树,其拓扑结构显示:V.campanula和C.polypinum聚在一起,并与另2种寡膜纲的嗜热四膜虫(Tetrahymena thermophila)及草履虫(Paramecium tetraurelia)聚为姊妹枝,提示了缘毛类纤毛虫为单系,且隶属于寡膜纲的系统发育地位。  相似文献   

6.
以改进的CTAB法对何首乌总基因组DNA进行提取,采用通用引物对不同来源的何首乌rDNA ITS序列进行PCR扩增、测序和序列分析.结果表明,何首乌rDNA完全序列片段长度共约652 bp,其中ITS1的长度为202 bp,5.8S的长度为161 bp,ITS2长度为232 bp,与其近缘种ITS序列间存在明显差异.其rDNA ITS序列在分子水平上为鉴别何首乌提供了参考依据.  相似文献   

7.
对Alternaria,Stemphylium,Ulocladium,Nimbya,Embellisia等五个形态相似属的代表性种进行了5.8S/ITS区段序列测定,连同从GenBank下载的相关有性型Pleospora,Lewia的同项资料,由Neighbor-joining方法构建系统发育树。序列对比结果显示,所有参试的菌株/种的5.8SrDNA序列保守程度较高,ITS序列变化较大,ITS1比ITS2变化更大。由5.8S/ITS构建的系统发育树可以足够将供试菌区分到属;系统发育树显示Alternaria,Ulocladium,Nimbya和Embellisia系统学关系较近,又存在一定的分化;Stemphylium聚在相对较远的分支上,与上述四属关系较远,相对独立进化;有性型的Pleospora与无性型的Stemphylium被聚到一个分支,这种不同阶段菌株在遗传基础上的一致,充分证明所用方法及所选测序的rDNA区段对本类群真菌的分类很有价值。Alternarialeucanthemi位于系统发育树的外侧,较为独立进化,与Alternaria的其它种亲缘关系较远,却与Stemphyliumspp.和Bipolarisspp.关系较近,对其目前的分类地位提出质疑。  相似文献   

8.
本研究测定了米尔顿姬小蜂Anselmella miltoni Girault的rDNA ITS1和ITS2序列,以探讨其分子鉴定方法。米尔顿姬小蜂的ITS1和ITS2侧翼区(18S和5.8S)序列相对稳定,ITS1和ITS2序列存在种间差异。根据18S rDNA部分序列,利用DNAMAN的Maximum Likelihood方法构建了与膜翅目其它科的系统发育树。根据米尔顿姬小蜂ITS1和ITS2序列设计了特异性引物,应用特异性引物对样品进行了PCR扩增,扩增效果理想,采用上述特异性引物可从单头米尔顿姬小蜂稳定地扩增出明显的目的DNA条带。因此,可以采用ITS1和ITS2区的特异性对米尔顿姬小蜂进行快速的分子鉴定。  相似文献   

9.
山茱萸不同栽培品种的 rDNA ITS 序列分析   总被引:1,自引:0,他引:1       下载免费PDF全文
为测定山茱萸(Cornus officinalis Sieb.et.Zucc.)核糖体DNA的ITS序列,对山茱萸不同栽培品种进行了ITS序列分析。通过实验筛选出一对引物,进行PCR扩增,对扩增产物提取纯化,双脱氧链终止法DNA测序。然后,利用DNAssist Version 2.0软件加手工校正确定ITS1-5.8S-ITS2序列,并进行ITS序列分析。获得了山茱萸的ITS1-5.8S-ITS2完全序列,ITS1为253bp,5.8S为156bp,ITS2为273bp,总共682bp。7种果型的山茱萸其5.8S基因序列显示高度的一致性,圆柱形果型、长梨形果型、椭圆形果型和纺锤形果型的ITS区序列完全一致,短圆柱形果型在ITS1区3′端及ITS2区5′端各有1个变异位点;短梨形果型在ITS1区5′端有3个变异位点;长圆柱形果型在ITS1区有5个变异位点。结果表明,ITS序列在山茱萸种内比较保守,有的栽培品种之间有较小的差异,此研究为中药山茱萸分子鉴定提供了科学依据。  相似文献   

10.
建立了由采自自然界中的样品、不经实验室培养而直接用于大核DNA提取和PCR反应的原位(in situ)方法; 在此基础上, 测定并比较了6种累枝虫(Epistylis wenrichi, E. urceolata, E. chrysemydis, E. plicatilis, E. hentscheli, E. galea)的18S-ITS1序列, 结果显示: E. wenrichi, E. urceolata, E. chrysemydis, E. plicatilisE. hentscheli间18S和ITS1区序列的碱基相似性很高, 而它们与E. galea间碱基变异位点在18S区和ITS1区均高达33个以上, 遗传变异度分别大于15%和23%. 以多态喇叭虫(Stentor polymorphus)为外类群, 利用最大简约法、最大似然法和邻接法构建了它们的系统发育树.分析指出: E. galea和其他5种累枝虫分属为两个类群, 与其他5种累枝虫相比, E. galea可能较早从祖先种中分化出来; 相比其他特征, 大核和口围区可能与累枝虫进化的关系更为密切, 是重要的系统发育特征.  相似文献   

11.
The internal transcribed spacer (ITS) region of the ribosomal DNA from the European scallops Aequipecten opercularis, Mimachlamys varia, Hinnites distortus, and Pecten maximus was PCR amplified and sequenced. For each species, three or five clones were examined. The size ranged between 636 and 713 bp (ITS1, 209-276 bp; 5.8S rRNA gene, 157 bp; ITS2, 270-294 bp) and GC content ranged between 47 and 50% (ITS1, 43-49%; 5.8S rRNA gene, 56-57%; ITS2, 44-49%). Variation within repeats was minimal; only clones from M. varia and P. maximus displayed a few variable sites in ITS2. Among scallops, including Chlamys farreri whose ITS sequence appears in databases, significant variation was observed in both ITS1 and ITS2. Phylogenetic analysis using ITS1, ITS2, or both spacer sequences always yielded trees with similar topology. Aequipecten opercularis and P. maximus grouped in one clade and the other three scallops (C. farreri, M. varia, and H. distortus) in another, where M. varia and H. distortus are the more closely related species. These results provide new insights into the evolutionary relationships of scallop species and corroborate the close evolutionary relationship between the tribes Aequipectinini and Pectinini previously deduced from 18S rDNA sequences.  相似文献   

12.
The complete nuclear rDNA gene complex of Metarhizium anisopliae var. anisopliae isolate ME1 is 8118bp long and contains the 18S, 5.8S, and 28S rRNA genes as well as the ITS and IGS regions. Variation in the ITS of isolates of M. anisopliae var. anisopliae and one each of Metarhizium anisopliae var. acridum, Metarhizium flavoviride var. flavoviride, and Metarhizium flavoviride var. minus, clustered 39 out of 40 of M. anisopliae var. anisopliae isolates in one clade. Nucleotide sequence variation in the IGS among 21 of M. anisopliae var. anisopliae isolates showing IGS length variation sorted them into three strongly supported clades, which were weakly correlated with insect hosts and were not correlated with geographic location. Two group-I introns, Ma-int4 and Ma-int5, were discovered in the 18S and the 3(') end of the 28S, in M. anisopliae var. anisopliae isolates ITALY-12 and IMBST 9601. The insertion sites and sub-group of these introns correlated with their closest relatives, as judged by phylogenetic analysis of intron nucleotide sequence.  相似文献   

13.
紫芝栽培品种‘紫芝S2’(武芝2号)的ITS序列与NCBI数据库中5个紫芝菌株/分离株相似度高达99.79%-100%,在系统进化树上相聚成一类。本研究预测‘紫芝S2’基因组与参考基因组中的rRNA基因簇,分析rDNA结构及各构件序列间的多态性。从高质量‘紫芝S2’基因组中挖掘得到完整rDNA,序列全长40.377 kb,由4组串联重复的(18S、5.8S、28S、5S) rRNA基因簇组成,并含有完整的基因内间隔区(ITS1、ITS2)和基因间间隔区(IGS1、IGS2)。在紫芝S2的rDNA中,高度保守的28S rRNA基因间出现3个SNP和2个插入(1 bp,10 bp)位点;虽然第4条ITS2中有1个SNP位点,但紫芝S2的4条ITS2在二级结构上的分子形态高度一致,与ITS2数据库中其他紫芝菌株仅存在螺旋区间夹角的微小差异。由‘紫芝S2’基因组rDNA的ITS2生成的DNA条形码与二维码,可以作为该栽培品种鉴定与同源物种其他菌株鉴别的分子标记。  相似文献   

14.
The sequence of one cloned rat rDNA segment is determined, encompassing the 3'-terminal part of 18 S rDNA (231 bp), ITS 1 (1072 bp), 5.8 S rDNA (156 bp), ITS 2 (771 bp) and the 5'-terminal part of 28 S rDNA (210 bp). Comparison with a distinct clone of the same rDNA segment reveals the identity of the rRNA gene sequences and considerable heterogeneity in both ITS 1 and ITS 2. The heterogeneities include mainly single base-pair changes (23 deletions or insertions and 14 substitutions) distributed all along the ITS sequences.  相似文献   

15.
The small subunit rDNA sequence of Maristentor dinoferus (Lobban, Schefter, Simpson, Pochon, Pawlowski, and Foissner, 2002) was determined and compared with sequences from other Heterotrichea and Karyorelictea. Maristentor resembles Stentor in basic morphology and had been provisionally assigned to Stentoridae. However, our phylogenetic analyses show that Maristentor is more closely related to Folliculinidae. Our results support the creation of a separate family for Maristentor, Maristentoridae n. fam., and also confirm the phylogenetic grouping of Folliculindae, Stentoridae, Blepharismidae, and Maristentoridae, which we informally call 'stentorids'. Maristentor, rather than Stentor itself, appears to be most significant in understanding the origins of folliculinids from their aloricate ancestors. Our analyses suggest continued uncertainty in the exact placement of the root of heterotrichs with this phylogenetic marker.  相似文献   

16.
The rDNA of eukaryotic organisms is transcribed as the 40S-45S rRNA precursor, and this precursor contains the following segments: 5' - ETS - 18S rRNA - ITS 1 - 5.8S rRNA - ITS 2 - 28S rRNA - 3'. In amphibians, the nucleotide sequences of the rRNA precursor have been completely determined in only two species of Xenopus. In the other amphibian species investigated so far, only the short nucleotide sequences of some rDNA fragments have been reported. We obtained a genomic clone containing the rDNA precursor from the Japanese pond frog Rana nigromaculata and analyzed its nucleotide sequence. The cloned genomic fragment was 4,806 bp long and included the 3'-terminus of 18S rRNA, ITS 1, 5.8S rRNA, ITS 2, and a long portion of 28S rRNA. A comparison of nucleotide sequences among Rana, the two species of Xenopus, and human revealed the following: (1) The 3'-terminus of 18S rRNA and the complete 5.8S rRNA were highly conserved among these four taxa. (2) The regions corresponding to the stem and loop of the secondary structure in 28S rRNA were conserved between Xenopus and Rana, but the rate of substitutions in the loop was higher than that in the stem. Many of the human loop regions had large insertions not seen in amphibians. (3) Two ITS regions had highly diverged sequences that made it difficult to compare the sequences not only between human and frogs, but also between Xenopus and Rana. (4) The short tracts in the ITS regions were strictly conserved between the two Xenopus species, and there was a corresponding sequence for Rana. Our data on the nucleotide sequence of the rRNA precursor from the Japanese pond frog Rana nigromaculata were used to examine the potential usefulness of the rRNA genes and ITS regions for evolutionary studies on frogs, because the rRNA precursor contains both highly conserved regions and rapidly evolving regions.  相似文献   

17.
Summary The nucleotide sequence of a spacer region between rice 17S and 25S rRNA genes (rDNAs) has been determined. The coding regions for the mature 17S, 5.8S and 25S rRNAs were identified by sequencing terminal regions of these rRNAs. The first internal transcribed spacer (ITS1), between 17S and 5.8S rDNAs, is 194–195 bp long. The second internal transcribed spacer (ITS2), between 5.8S and 25S rDNAs, is 233 bp long. Both spacers are very rich in G+C, 72.7% for ITS1 and 77.3% for ITS2. The 5.8S rDNA is 163–164 bp long and similar in primary and secondary structures to other eukaryotic 5.8S rDNAs. The 5.8S rDNA is capable of interacting with the 5′ terminal region of 25S rDNA.  相似文献   

18.
19.
The scuticociliate Miamiensis avidus is a histophagous parasite that causes high mortality in cultured marine fishes, with clinical signs of severe ulcers and hemorrhages in the skeletal muscle. The internal transcribed spacer (ITS) region, which is widely used in taxonomy and molecular phylogeny because of a high degree of variation, was compared for 21 cloned strains of M. avidus (Ciliophora, Scuticociliatia). These strains were isolated from olive flounder Paralichthys olivaceus, ridged-eye flounder Pleuronichthys cornutus and spotted knifejaw Oplegnathus fasciatus in Korea and Japan. The ITS1 (140 bp), ITS2 (236 bp) and 5.8S (119 bp) regions from 21 strains were identical, indicating that these regions are highly conserved in M. avidus. Phylogenic analysis of ITS2 shows that the ciliate should be included in the Philasterida with a close relationship to Pseudocohnilembus hargisi. This study exhibits the first detailed analysis of the ITS1, 5.8 S and ITS2 rRNA regions of M. avidus.  相似文献   

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