Correlations between the ages of Alnus host species and the genetic diversity of associated endosymbiotic Frankia strains from nodules

Nodule samples were collected from four alder species: Alnus nepalensis, A. si-birica, A. tinctoria and A. mandshurica growing in different environments on Gaoligong Mountains, Yunnan Province of Southwest China and on Changbai Mountains, Jilin Province of Northeast China. PCR-RFLP analysis of the IGS between nifD and nifK genes was directly applied to uncultured Frankia strains in the nodules. A total of 21 restriction patterns were obtained. The Frankia population in the nodules of A. nepalensis had the highest genetic diversity among all four Frankia populations; by contrast, the population in the nodules of A. mandshurica had the lowest degree of divergence; the ones in the nodules of A. sibirica and A. tinctoria were intermediate. A dendrogram, which was constructed based on the genetic distance between the restriction patterns, indicated that Frankia strains from A. sibirica and A. tinctoria had a close genetic relationship. Frankia strains from A. nepalensis might be the ancestor of Frankia strain     

长白山三种赤杨根瘤内Frankia基因多样性的REP分析

利用REP PCR方法研究了长白山不同海拔处 3种赤杨根瘤内Frankia菌基因多样性。结果表明 ,赤杨根瘤内Frankia菌存在丰富的基因多样性。宿主和海拔因素共同影响长白山赤杨属Frankia菌的基因多样性 :东北赤杨Frankia菌的宿主专一性很强 ,西伯利亚赤杨和色赤杨的Frankia菌的有较近的亲缘关系。不同海拔的同种宿主共生的Frankia菌基因类型不同 ,相同海拔的西伯利亚赤杨和色赤杨的Frankia菌出现宿主混乱现象     

Correlations between the ages of Alnus host species and the genetic diversity of associated endosymbiotic Frankia strains from nodules

Nodule samples were collected from four alder species: Alnus nepalensis, A. sibirica, A. tinctoria and A. mandshurica growing in different environments on Gaoligong Mountains, Yunnan Province of Southwest China and on Changbai Mountains, Jilin Province of Northeast China. PCR-RFLP analysis of the IGS between nifD and nifK genes was directly applied to uncultured Frankia strains in the nodules. A total of 21 restriction patterns were obtained. The Frankia population in the nodules of A. nepalensis had the highest genetic diversity among all four Frankia populations; by contrast, the population in the nodules of A. mandshurica had the lowest degree of divergence; the ones in the nodules of A. sibirica and A. tinctoria were intermediate. A dendrogram, which was constructed based on the genetic distance between the restriction patterns, indicated that Frankia strains from A. sibirica and A. tinctoria had a close genetic relationship. Frankia strains from A. nepalensis might be the ancestor of Frankia strains infecting other Alnus species. From these results and the inference of the ages of Alnus host species, it is deduced that there was a co-evolution between Alnus and its microsymbiont Frankia in China.     

Correlations between the ages ofAlnus host species and the genetic diversity of associated endosymbioticFrankia strains from nodules

Nodule samples were collected from four alder species:Alnus nepalensis, A. sibirica, A. tinctoria andA. mandshurica growing in different environments on Gaoligong Mountains, Yunnan Province of Southwest China and on Changbai Mountains, Jilin Province of Northeast China. PCR-RFLP analysis of the IGS betweennifD andnifK genes was directly applied to unculturedFrankia strains in the nodules. A total of 21 restriction patterns were obtained. TheFrankia population in the nodules ofA. nepalensis had the highest genetic diversity among all fourFrankia populations; by contrast, the population in the nodules ofA. mandshurica had the lowest degree of divergence; the ones in the nodules ofA. sibirica andA. tinctoria were intermediate. A dendrogram, which was constructed based on the genetic distance between the restriction patterns, indicated thatFrankia strains fromA. sibirica andA. tinctoria had a close genetic relationship.Frankia strains fromA. nepalensis might be the ancestor ofFrankia strains infecting otherAlnus species. From these results and the inference of the ages ofAlnus host species, it is deduced that there was a co-evolution betweenAlnus and its microsymbiontFrankia in China.

     

Correlations between the ages of<Emphasis Type="Italic">Alnus</Emphasis> host species and the genetic diversity of associated endosymbiotic<Emphasis Type="Italic">Frankia</Emphasis> strains from nodules

Nodule samples were collected from four alder species:Alnus nepalensis, A. sibirica, A. tinctoria andA. mandshurica growing in different environments on Gaoligong Mountains, Yunnan Province of Southwest China and on Changbai Mountains, Jilin Province of Northeast China. PCR-RFLP analysis of the IGS betweennifD andnifK genes was directly applied to unculturedFrankia strains in the nodules. A total of 21 restriction patterns were obtained. TheFrankia population in the nodules ofA. nepalensis had the highest genetic diversity among all fourFrankia populations; by contrast, the population in the nodules ofA. mandshurica had the lowest degree of divergence; the ones in the nodules ofA. sibirica andA. tinctoria were intermediate. A dendrogram, which was constructed based on the genetic distance between the restriction patterns, indicated thatFrankia strains fromA. sibirica andA. tinctoria had a close genetic relationship.Frankia strains fromA. nepalensis might be the ancestor ofFrankia strains infecting otherAlnus species. From these results and the inference of the ages ofAlnus host species, it is deduced that there was a co-evolution betweenAlnus and its microsymbiontFrankia in China.     

高黎贡山旱冬瓜Frankia的IGS PCR-RFLP分析

在云南省高黎贡山自然保护区海拔1310～2400m的范围内,采集30个旱冬瓜根瘤样品,直接从根瘤中提取Frankia DNA,对其,nifD-nifK基因间隔区(intergenic spacer,IGS)和16S-23S rDNA IGS进行PCR—RFLP分析．结果表明,nifD-nifK IGS的PCR产物长度差异很大,经HaeⅢ和Afa I双酶切后,得到15种酶切带型,检测到多种基因型的菌株同时与同一株宿主植物共生;16S-23S rDNA IGS的PCR产物长度相似,酶切后亦区分出15种酶切带型．通过对两个基因间隔区的PCR-RFLP联合分析,发现高黎贡山旱冬瓜Frankia存在20种基因型．     

自然环境胁迫对旱冬瓜Frankia菌基因多样性的影响

利用rep-PCR方法,研究云南鸡足山及无量山不同生境下旱冬瓜根瘤内Frankia菌基因多样性及其变化,以了解不同自然环境胁迫对Frankia菌基因多样性的影响。结果表明,多样性随地域、海拔和坡向不同而变化,鸡足山Frankia菌基因类型比无量山丰富。鸡足山旱冬瓜根瘤内的Frankia菌在山底2300m处,Shannon指数平均为0．90;山顶海拔2650m以上,Shannon指数随之上升到1．33。南坡Frankia菌多样性高于北坡,表明多样性指数与环境胁迫大小成正相关,自然环境胁迫是产生和保持Frankia菌基因多样性的重要因子之一。     

长白山四种赤杨丛枝菌根真菌侵染多样性的巢式PCR-RFLP分析

采集中国吉林长白山不同海拔的4种赤杨根须样本,利用巢式PCR-RFLP方法检测丛枝菌根真菌(AMF)对样品的侵染情况,PCR结果经限制性内切酶分析. 结果表明,赤杨根内AMF存在丰富的基因多样性.AMF的侵染有从宿主混乱性向宿主专一性发展的趋势.东北赤杨AMF的宿主专一性水平最强,球囊霉属已成为东北赤杨的优势侵染类群;其余3种赤杨的AMF则出现宿主混乱现象.宿主因素比海拔因素对AMF侵染有更重要的影响.     

蒙自桤木根瘤内生菌的分离培养

从蒙自桤木（Ａｌｎｕｓｎｏｐａｌｅｎｓｉｓ）根瘤中分离得到４株Ｆｒａｎｋｉａ,对其进行了形态学研究,并对Ａｎ１２菌株进行了生长曲线测定,结果表明从蒙自桤木根瘤中分离Ｆｒａｎｋｉａ,除所采用的培养基和方法外,宿主植物所处的生长状态也可能是一个影响分离成败的重要因素;“Ｓ”培养基是一种较为理想的分离培养基;在离体条件下,Ｆｒａｎｋｉａ生长缓慢,约１０ｄ左右达到其生长的稳定期。     

福建省放线菌结瘤植物共生菌Frankia遗传多样性研究

[目的]了解福建省放线菌结瘤植物共生固氮菌Frankia的遗传多样性.[方法]利用16S-23SrDNA间隔区(rrn)和nifD-K基因间隔区的PCR扩增和RFLP技术,分析了福建省木麻黄、杨梅、桤木、胡颓子等共生Frankia纯培养菌株的遗传差异.[结果]17个菌株获得rrn扩增片段,2个杨梅菌株和1个胡颓子菌株扩增未成功,酶切图谱经聚类分析表明6个地点的细枝木麻黄、短枝木麻黄、粗枝木麻黄12个共生Frankia菌株同源性高,属于一个类群,2个地点的4个杨梅菌株和1个四川桤木菌株亲缘关系近,为另一类群.25个Frankia菌株的,nifD-K基因间隔区PCR-RFLP分析结果显示,7个地点的3种木麻黄14个菌株聚类为一个类群,4个地点的7个杨梅菌株、2个地点的2个四川桤木菌株以及1个台湾桤木菌株聚类为另一个类群,胡颓子菌株则为独立的类群.[结论]研究结果表明福建省共生Frankia遗传多样性丰富.     

Identification of atypical Frankia strains by fatty acid analysis

Abstract: Ineffective, non-infective actinomycetous isolates obtained from actinorhizal nodules of Coriaria nepalensis and Datisca cannabina were identified as Frankia using whole cell fatty acid analysis. The isolates exhibited fatty-acid patterns very similar to those of confirmed Frankia strains from other host plants ( Alnus, Casuarina, Colletia, Comptonia, Elaeagnus and Hippophae ). All Frankia strains, including Coriaria and Datisca isolates, showed fatty-acid profiles very distinct from those of other actinomycetes used as controls ( Actinomyces, Geodermatophilus, Nocardia, Mycobacterium and Streptomyces ). For the genus Frankia , a characteristic pattern of five fatty acids (15:0; 15:1; 16:0 iso; 17:0 and 17:1) was found. These fatty acids comprised 75% or more of the total content. All Frankia strains could be placed into three subgroups. Coriaria isolates were found in the largest subgroup which contained most Frankia strains from other hosts while ineffective strains from Alnus, Elaeagnus and Datisca were distributed in all three subgroups of Frankia .     

Restriction analysis of the Frankia spp. genome

Abstract Total cellular DNAs of 10 Frankia isolates from Alnus, Elaeagnus and Colletia spp. root nodules were cleaved with ten site-specific restriction endonucleases and analysed by agarose gel electrophoresis. Among the endonucleases tested, Bam HI, Bgl II, Sal I and Sma I proved to be the most suitable for the genome analysis in Frankia spp. DNA restriction banding patterns were reproducible and characteristic of each Frankia strain. The patterns of different strains differed marked indicating considerable genotypic heterogeneity among the isolates. The approach can be used for strain identification in Frankia spp. as well as for differentiation between phenotypically similar strains.     

Diversity and specificity of Frankia strains in nodules of sympatric Myrica gale, Alnus incana, and Shepherdia canadensis determined by rrs gene polymorphism

The identity of Frankia strains from nodules of Myrica gale, Alnus incana subsp. rugosa, and Shepherdia canadensis was determined for a natural stand on a lake shore sand dune in Wisconsin, where the three actinorhizal plant species were growing in close proximity, and from two additional stands with M. gale as the sole actinorhizal component. Unisolated strains were compared by their 16S ribosomal DNA (rDNA) restriction patterns using a direct PCR amplification protocol on nodules. Phylogenetic relationships among nodular Frankia strains were analyzed by comparing complete 16S rDNA sequences of study and reference strains. Where the three actinorhizal species occurred together, each host species was nodulated by a different phylogenetic group of Frankia strains. M. gale strains from all three sites belonged to an Alnus-Casuarina group, closely related to Frankia alni representative strains, and were low in diversity for a host genus considered promiscuous with respect to Frankia microsymbiont genotype. Frankia strains from A. incana nodules were also within the Alnus-Casuarina cluster, distinct from Frankia strains of M. gale nodules at the mixed actinorhizal site but not from Frankia strains from two M. gale nodules at a second site in Wisconsin. Frankia strains from nodules of S. canadensis belonged to a divergent subset of a cluster of Elaeagnaceae-infective strains and exhibited a high degree of diversity. The three closely related local Frankia populations in Myrica nodules could be distinguished from one another using our approach. In addition to geographic separation and host selectivity for Frankia microsymbionts, edaphic factors such as soil moisture and organic matter content, which varied among locales, may account for differences in Frankia populations found in Myrica nodules.     

11株不同生态条件下的根瘤放线菌的形态特征

1 引言 自1978年由美国的Callaham等首次成功地从香蕨木根瘤中分离出Frankia的离体培养以来,使放线菌结瘤植物的研究领域有了突破性的进展,据报道,近10年国内外的研究者已从10个属植物根瘤中获得Frankia菌株的离体纯培养。我们于1981年由四川     

Polymorphism in Alnus based Frankia of Darjeeling

DNA samples extracted from the root nodules of Alnus nepalensis, collected from 10 different locations of Darjeeling hills, were used to assess the genetic diversity of Frankia. The DNA samples from the nodules of naturally growing plants were used as templates in PCR, targeting different genomic regions of Frankia, namely distal, middle and proximal parts of 16S rRNA gene and nifH-D IGS region with locus specific primers. The PCR products were digested with a number of frequent (4-base) cutter restriction endonucleases. Bands were scored as present (1) or absent (0) and the clustering was done using NTSYSpc. Distinct polymorphism was found among the nodules collected from different parts of the region and those of same geographic area. These results demonstrate that genetic diversity is indeed present among the naturally occurring Frankia of Darjeeling, India.     

Genetic diversity among Frankia strains nodulating members of the family Casuarinaceae in Australia revealed by PCR and restriction fragment length polymorphism analysis with crushed root nodules.

DNA extracted directly from nodules was used to assess the genetic diversity of Frankia strains symbiotically associated with two species of the genus Casuarina and two of the genus Allocasuarina naturally occurring in northeastern Australia. DNA from field-collected nodules or extracted from reference cultures of Casuarina-infective Frankia strains was used as the template in PCRs with primers targeting two DNA regions, one in the ribosomal operon and the other in the nif operon. PCR products were then analyzed by using a set of restriction endonucleases. Five distinct genetic groups were recognized on the basis of these restriction patterns. These groups were consistently associated with the host species from which the nodules originated. All isolated reference strains had similar patterns and were assigned to group 1 along with six of the eight unisolated Frankia strains from Casuarina equisetifolia in Australia. Group 2 consisted of two unisolated Frankia strains from C. equisetifolia, whereas groups 3 to 5 comprised all unisolated strains from Casuarina cunninghamiana, Allocasuarina torulosa, and Allocasuarina littoralis, respectively. These results demonstrate that, contrary to the results of previous molecular studies of isolated strains, there is genetic diversity among Frankia strains that infect members of the family Casuarinacaeae. The apparent high homogeneity of Frankia strains in these previous studies probably relates to the single host species from which the strains were obtained and the origin of these strains from areas outside the natural geographic range of members of the family Casuarinaceae, where genetic diversity could be lower than in Australia.     

Evidence that some Frankia sp. strains are able to cross boundaries between Alnus and Elaeagnus host specificity groups.

Phenotypic and genotypic methods were used to prove the existence of Frankia strains isolated from an Elaeagnus sp. that are able to cross the inoculation barriers and infect Alnus spp. also. Repeated cycles of inoculation, nodulation, and reisolation were performed under axenic conditions. Frankia wild-type strain UFI 13270257 and three of its coisolates did exhibit complete infectivity and effectiveness on Elaeagnus spp. and Hippophaë rhamnoides and variable infectivity on Alnus spp. Microscopical observation of host plant roots showed that these strains are able to infect Alnus spp. by penetrating deformed root hairs. Reisolates obtained from nodules induced on monoxenic Alnus glutinosa, Alnus incana, and Elaeagnus angustifolia resembled the parent strains in host infectivity range, in planta and in vitro morphophysiology, isoenzymes, and nif and rrn restriction fragment length polymorphisms, thus fulfilling Koch's postulates on both host plant genera. Alnus and Elaeagnus group-specific polymerase chain reaction DNA amplifications, DNA-DNA hybridizations, and partial gene sequences coding for 16S rRNA provided evidence for the genetic uniformity of wild-type strains and their inclusion into one and the same genomic species, clearly belonging to the Elaeagnus group of Frankia species.     

Evidence that some Frankia sp. strains are able to cross boundaries between Alnus and Elaeagnus host specificity groups.

Phenotypic and genotypic methods were used to prove the existence of Frankia strains isolated from an Elaeagnus sp. that are able to cross the inoculation barriers and infect Alnus spp. also. Repeated cycles of inoculation, nodulation, and reisolation were performed under axenic conditions. Frankia wild-type strain UFI 13270257 and three of its coisolates did exhibit complete infectivity and effectiveness on Elaeagnus spp. and Hippopha? rhamnoides and variable infectivity on Alnus spp. Microscopical observation of host plant roots showed that these strains are able to infect Alnus spp. by penetrating deformed root hairs. Reisolates obtained from nodules induced on monoxenic Alnus glutinosa, Alnus incana, and Elaeagnus angustifolia resembled the parent strains in host infectivity range, in planta and in vitro morphophysiology, isoenzymes, and nif and rrn restriction fragment length polymorphisms, thus fulfilling Koch's postulates on both host plant genera. Alnus and Elaeagnus group-specific polymerase chain reaction DNA amplifications, DNA-DNA hybridizations, and partial gene sequences coding for 16S rRNA provided evidence for the genetic uniformity of wild-type strains and their inclusion into one and the same genomic species, clearly belonging to the Elaeagnus group of Frankia species.     

黑长臂猿栖息地旱冬瓜和潺槁木姜子种群分布格局和动态

旱冬瓜（Alnus nepalensis）和潺槁木姜子（Litsea glutinosa）是云南省无量山黑长臂猿（Nomascus concolor）栖息地中的两种常见乔木.利用最近邻体法和Heygi单木竞争指数模型,对两个种群的分布格局和竞争情况进行分析.结果表明,旱冬瓜在不同生长阶段均呈现随机分布,而伴生的潺槁木姜子种群则呈现随机分布 聚集分布 均匀分布的变化趋势.种间竞争和物种自身生物学特性对两个种群的分布格局具有显著影响.旱冬瓜种群的龄级结构为衰退型,潺槁木姜子种群则为成长型.     

Identification and subgrouping of Frankia strains using sodium dodecyl sulfate-polyacrylamide gel electrophoresis

Polypeptide patterns of soluble proteins from 35 Frankia strains from different plants of various geographical origins, belonging to Alnus and Elaeagnus host-specificity groups were determined by one-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The polypeptide pattern was qualitatively the same for each strain whatever the number of subcultures or the age. Two gel electrophoresis groups A and E were observed which matched with the Alnus and Elaeagnus host-specificity groups, but with some exceptions. The polypeptide patterns of the 35 Frankia strains tested were separated into 13 gel electrophoresis subgroups. Five Frankia strains were inoculated separately or in 3 mixed combinations of 2 strains on Alnus glutinosa (L.) Gaertn. plants. The polypeptide patterns of the re-isolates obtained from 5-month-old nodules were identical to the corresponding strains used initially in the inoculum. Dual infection was observed on single plantlets.