黄淮海地区夏玉米纹枯病菌的融合群鉴定

从黄淮海地区采集玉米纹枯病标样250余份,分离得到176个丝核菌菌株。融合群测定及5.8SrDNA-ITS区序列分析结果表明,这些菌株分别属于多核丝核菌的AG1-IA、AG1-IB、AG4-HG-I、AG-5、WAG-Z融合群及双核丝核菌的AG-A、AG-Ba融合群。其中AG1-IA是优势融合群,占分离菌株总数的64.20%,其次是AG-Ba,占12.50%,再依次分别是WAG-Z(10.23%)、AGI-IB(5.11%)、AG-4-HG-I(3.98%)、AG-5(2.27%)和AG-A(1.70%)。其中AG-Ba融合群是国内首次在玉米上分离得到。从各融合群中选取代表性的菌株进行5.8S rDNA-ITS区序列分析结果表明,隶属不同融合群或亚群的菌株其5.8S rDNA-ITS区序列存在较大的差异,而相同融合群(或亚群)不同菌株之间其序列的一致性可高达97%-100%。     

中国东北地区玉米纹枯病菌的融合群鉴定

自东北三省采集玉米纹枯病标本300余份,分离获得286个丝核菌菌株。融合群测定及5.8S rDNA-ITS区序列分析结果表明,这些菌株分别属于多核丝核菌的AG1-IA、AG1-IB、AG1-IC、AG4-HG-I、AG4-HG-III、AG-5、WAG-Z群及双核丝核菌的AG-Ba群。其中AG1-IA是优势致病群,占分离菌株总数的38.46%,其次是WAG-Z和AG-5群,分别占26.92%及24.83%。AG4-HG-III群菌株是国内首次从罹病玉米植株上分离得到。自各融合群中选取代表性的菌株进行5.8     

Development of specific PCR primers for the detection of Rhizoctonia solani AG 2-2 LP from the leaf sheaths exhibiting large-patch symptom on zoysia grass

Detection of Rhizoctonia solani AG 2-2 LP isolates causing large-patch disease on zoysia grass was done using polymerase chain reaction (PCR). Specific primers were designed based on an amplified region using random amplified polymorphic DNA (RAPD)-PCR. Fifteen primers and three cultural types of R. solani AG 2-2 (types IIIB, IV and LP) were used for RAPD-PCR. The banding patterns by RAPD-PCR showed that the three cultural types were clearly distinguishable. A dendrogram constructed from the results of RAPD-PCR showed that the three cultural types of AG 2-2 clustered separately. The sequence of one PCR-amplified region which appeared only in LP isolates using primer A09 was selected for designing specific primers. Primer pair A091-F/R gave a single product from pure fungal DNA of LP isolates but not from those of the other two types (IIIB and IV), R. solani AG 1, 2-1, 2-3, 2-tulip, 3-10 and BI isolates and other turfgrass fungal pathogens. Primer pair A091-F/R also gave a single product from diseased leaf sheaths and this product was in accordance with those of pure fungal DNA of LP isolates. Primer pair A091-F/R did not yield PCR product from healthy leaf sheaths. The frequencies of detection of LP isolates from leaf sheaths of zoysia grass using PCR with primer pair A091-F/R were higher than those of the conventional isolation technique. These results showed that the PCR-based technique using specific primers A091-F/R is useful for the rapid detection of LP isolates from leaf sheaths of zoysia grass exhibiting large-patch symptoms.     

Typing of anastomosis groups of Rhizoctonia solani by restriction analysis of ribosomal DNA

A method based on restriction analysis of polymerase chain reaction (PCR)-amplified ribosomal DNA was developed for the rapid characterization of large populations of Rhizoctonia solani at the anastomosis group (AG) level. The restriction maps of the internal transcribed spacers (ITS) sequences were compared for 219 isolates of R. solani belonging to AG-1 to AG-12 and AG-BI, representing diverse geographic and host range origins. Four discriminant restriction enzymes (MseI, AvaII, HincII, and MunI) resolved 40 restriction fragment length polymorphism (RFLP) types among the 219 ITS sequences of R. solani. Each RFLP type could be assigned to a single AG except for two RFLP types, which were common to two AG. A fifth enzyme allowed the discrimination of AG-6 and AG-12. In addition, the combination of four enzymes allowed the discrimination of subsets within AG-1, AG-2, AG-3, and AG-4. The efficiency of the typing method was confirmed by analyzing PCR-amplified ITS sequences of 30 reference strains. Furthermore, the PCR-RFLP method was used to characterize at the AG level 307 isolates of R. solani originating from ten sugar beet fields exhibiting patches of diseased plants in France. The PCR-based procedure described in this paper provides a rapid method for AG typing in R. solani.     

Trials of direct detection and identification of <Emphasis Type="Italic">Rhizoctonia solani</Emphasis> AG 1 and AG 2 subgroups using specifically primed PCR analysis

Specifically primed polymerase chain reaction (PCR) analysis was used for direct detection and identification of Rhizoctonia solani isolates belonging to AG 1 subgroups (IA, IB, and IC) and AG 2 subgroups (2-1 and 2-2). A rapid DNA extraction method with a solution of sodium hydroxide was conducted to extract PCR templates. PCR-specific primer sets for each group were designed from sequences in the regions of the 28S ribosomal DNA of this fungus. The results of specifically primed PCR analysis showed that AG 1-IA, AG 1-IB, AG 1-IC, AG 2-1, and AG 2-2 primers sets contributed detection from the same AG isolates and could escape detection from different AG isolates at a high level of frequency. In this experiment, we suggested that our synthesized primer sets might provide a method for the direct detection and identification of AGs of R. solani. Received: June 28, 2001 / Accepted: November 14, 2001     

Trials of direct detection and identification of Rhizoctonia solani AG 1 and AG 2 subgroups using specifically primed PCR analysis

Specifically primed polymerase chain reaction (PCR) analysis was used for direct detection and identification of Rhizoctonia solani isolates belonging to AG 1 subgroups (IA, IB, and IC) and AG 2 subgroups (2-1 and 2-2). A rapid DNA extraction method with a solution of sodium hydroxide was conducted to extract PCR templates. PCRspecific primer sets for each group were designed from sequences in the regions of the 28S ribosomal DNA of this fungus. The results of specifically primed PCR analysis showed that AG 1-IA, AG 1-IB, AG 1-IC, AG 2-1, and AG 2-2 primers sets contributed detection from the same AG isolates and could escape detection from different AG isolates at a high level of frequency. In this experiment, we suggested that our synthesized primer sets might provide a method for the direct detection and identification of AGs of R. solani.     

中国北方棉花主产区立枯丝核菌的融合群鉴定

从山东、河北、河南三省采集棉花立枯病样品和土壤200余份,经分离获得198个丝核菌Rhizoctonia solani分离物。菌丝融合测定及5.8S rDNA-ITS区序列分析结果表明,这些分离物分别属于多核丝核菌的AG4-HG-I和AG4-HG-III融合群以及双核丝核菌的AG-A、AG-F、AG-Fb融合群。其中AG4-HG-I是优势融合类群,占分离物总数的88.38%,其次是AG4-HG-III,占10.10%,AG-A、AG-F、AG-Fb各仅有1株。其中双核丝核菌AG-A、AG-F和AG-Fb融     

Characterization of Xanthomonas oryzae pv. oryzae recX, a gene that is required for high-level expression of recA

A universally primed (UP)-PCR cross hybridization assay was developed for rapid identification of isolates of Rhizoctonia solani into the correct anastomosis group (AG). Twenty-one AG tester isolates belonging to 11 AGs of R. solani were amplified with a single UP primer which generated multiple PCR fragments for each isolate. The amplified products were spotted onto a filter, immobilized and used for cross hybridization against amplification products from the different isolates. Isolates within AG subgroups cross hybridize strongly, whereas between different AGs little or no cross hybridization occurs. Sixteen Rhizoctonia isolates from diseased sugar beets and potatoes were identified using the assay. The results were supported by restriction fragment length polymorphism analysis of the ITS1-5.8S-ITS2 region of the nuclear encoded ribosomal DNA. Through standardization and use of quick non-radioactive labeling techniques, the UP-PCR cross hybridization assay has potential for routine use by modern DNA chip technology.     

Cropping Systems and Cultural Practices Determine the Rhizoctonia Anastomosis Groups Associated with Brassica spp. in Vietnam

Ninety seven Rhizoctonia isolates were collected from different Brassica species with typical Rhizoctonia symptoms in different provinces of Vietnam. The isolates were identified using staining of nuclei and sequencing of the rDNA-ITS barcoding gene. The majority of the isolates were multinucleate R. solani and four isolates were binucleate Rhizoctonia belonging to anastomosis groups (AGs) AG-A and a new subgroup of A-F that we introduce here as AG-Fc on the basis of differences in rDNA-ITS sequence. The most prevalent multinucleate AG was AG 1-IA (45.4% of isolates), followed by AG 1-ID (17.5%), AG 1-IB (13.4%), AG 4-HGI (12.4%), AG 2-2 (5.2%), AG 7 (1.0%) and an unknown AG related to AG 1-IA and AG 1-IE that we introduce here as AG 1-IG (1.0%) on the basis of differences in rDNA-ITS sequence. AG 1-IA and AG 1-ID have not been reported before on Brassica spp. Pathogenicity tests revealed that isolates from all AGs, except AG-A, induced symptoms on detached leaves of several cabbage species. In in vitro tests on white cabbage and Chinese cabbage, both hosts were severely infected by AG 1-IB, AG 2-2, AG 4-HGI, AG 1-IG and AG-Fc isolates, while under greenhouse conditions, only AG 4-HGI, AG 2-2 and AG-Fc isolates could cause severe disease symptoms. The occurrence of the different AGs seems to be correlated with the cropping systems and cultural practices in different sampling areas suggesting that agricultural practices determine the AGs associated with Brassica plants in Vietnam.     

SCAR标记在黑木耳栽培菌株分类鉴定中的应用

应用序列特异性扩增区域（SCAR）标记技术分析50株黑木耳栽培菌株的遗传多样性。在SRAP标记分析过程中发现1条1 200 bp的特异性条带,经回收克隆测序转为SCAR标记。根据序列设计出1对特异性引物,经PCR可以扩增出1 000 bp大小的片段,说明成功构建出了＂黑931＂的指纹图谱。     

Highly polymorphic microsatellite loci in the rice- and maize-infecting fungal pathogen Rhizoctonia solani anastomosis group 1 IA

Ten polymorphic microsatellite loci were isolated and characterized from the rice- and maize-infecting Basidiomycete fungus Rhizoctonia solani anastomosis group AG-1 IA. All loci were polymorphic in two populations from Louisiana in USA and Venezuela. The total number of alleles per locus ranged from four to eight. All 10 loci were also useful for genotyping soybean-infecting R. solani AG-1 isolates from Brazil and USA. One locus, TC06, amplified across two other AG groups representing different species, showing species-specific repeat length polymorphism. This marker suite will be used to determine the global population structure of this important pathogenic fungus.     

Development of strain-specific SCAR markers for authentication of Ganoderma lucidum

In this study we report the application of sequence-characterized amplified region (SCAR) markers in Ganoderma lucidum for strain identification, the first such study in this medicinal mushroom. One fragment unique to strain No. 9 was identified by inter-simple sequence repeats (ISSR), and then sequenced. Based on the specific fragment, one SCAR primer pair designated as GL₆₁₂F and GL₆₁₂R was designed to amplify a 612-bp DNA fragment within the sequenced region. Diagnostic PCR was performed using the primer pair. The results showed that this SCAR marker can clearly distinguish strain No. 9 from other related Ganoderma lucidum strains. Our data provided the foundation for a precise and rapid PCR-based strain-diagnostic system for Ganoderma lucidum.     

Use of intersimple sequence repeats markers to develop strain-specific SCAR markers for Lentinula edodes

Although Lentinula edodes is the second most important cultivated mushroom worldwide, most industrially cultivated strains have been identified only through traditional phenotypic analysis. Here, we report for the first time the use of sequence characterized amplified region (SCAR) markers for strain differentiation. SCAR markers were created by first generating and sequencing single intersimple sequence repeats fragments, and then designing primers based on these sequences to amplify strain-specific fragments of a certain size. One SCAR primer pair, ISL450F/R7 (amplifying a band of c. 450 bp), was designed to identify one strain of L. edodes (strain No. 7). The SCAR primer pair was then used to correctly amplify the single unique fragment from DNA samples taken from a total of 85 strains representing three separate species. Our data provide the foundation for a precise and rapid PCR-based strain-diagnostic system for L. edodes.     

丝核菌菌丝融合群种类,寄生专化性及与温度的关系

丝核菌（Ｒｈｉｚｏｃｔｏｎｉａｓｐｐ．）是最重要的土传植物病原菌之一,分布世界各地。１９２１年Ｍａｔｓｕｍｏｔｏ用菌丝融合群（ＡｎａｓｔｏｍｏｓｉｓＧｒｏｕｐ,简称ＡＧ）的方法来划分多核立枯丝核菌（Ｒ．ｓｏｌａｎｉ）在生理上特异的菌株［６］,Ｐａｒ...     

Molecular identification of isolates of <Emphasis Type="Italic">Peronosclerospora sorghi</Emphasis> from maize using PCR-based SCAR marker

The fungus Peronosclerospora sorghi [Weston and Uppal (Shaw)] infects both sorghum and maize and incites downy mildew disease. Pathogenic and molecular variability among isolates of P. sorghi from sorghum and maize has been reported. In the present study we developed a DNA sequence characterized amplified region (SCAR) marker for identification of isolates of P. sorghi from maize by using polymerase chain reaction (PCR). The random amplified polymorphic DNA (RAPD) primer OPB15 consistently amplified a 1,000 base pairs (bp) product in PCR only from DNA of P. sorghi isolates from maize and not from isolates of sorghum. The PCR-amplified 1,000-bp product was cloned and sequenced. The sequence of the SCAR marker was used for designing specific primers for identification of maize isolates of P. sorghi. The SCAR primers amplified a 800 bp fragment only from genomic DNA of maize isolates of P. sorghi. The SCAR primers developed in this study are highly specific and reproducible, and proved to be powerful tool for identification of P. sorghi isolates from maize.     

山东省玉米纹枯菌融合群类型及遗传多样性

从山东省14个县市区采集的玉米纹枯病标本上分离获得103个玉米纹枯菌菌株。核荧光染色确定菌丝细胞核的数目,以及利用配对培养法确定不同菌株细胞是否融合。结果表明这些菌株分别属于多核丝核菌的AG-1-IA、AG-1-IB、AG-1-IC、AG-3、AG-4-HG-I、AG-5和WAG-Z融合群和双核丝核菌的AG-Ba融合群,其中AG-1-IA类型菌株数量占菌株总数的60.19%,为优势融合群。通过inter-simple sequence repeats（ISSR）标记技术进行菌株的遗传多样性分析,获得45个ISSR分子标记,其中91.1%的片段具有多态性,表明种群间存在丰富的遗传多样性。UPGMA聚类分析将103个菌株分成6个遗传聚类群,遗传聚类群的菌株组成说明遗传群组的划分与菌株的地理来源和菌株融合群类型均存在一定的相关性。     

Development of SCAR marker for simultaneous identification of Miscanthus sacchariflorus, M. sinensis and M. x giganteus

The sequence-characterized amplified region (SCAR) marker for simultaneous identification of Miscanthus sacchariflorus, Miscanthus sinensis, and Miscanthus x giganteus was developed. In this study, it was attempted for the first time to develop the SCAR marker for detecting the molecular phenotypes among Miscanthus species. Randomly amplified polymorphic DNA technique was applied for this study and one fragment which is unique to M. sacchariflorus was identified and then sequenced. Based on the specific fragment, one SCAR primer pair designated as MS62-5F and MS62-5R was designed to amplify an approximately 1,000 bp DNA fragment within the sequenced region. Diagnostic PCR was performed using the primer pair. Using this SCAR marker, approximately 1,000 bp and 1,200 bp DNA fragments were obtained in M. sacchariflorus and M. sinensis, respectively. Moreover, M. x giganteus was obtained both bands at the same time. The result showed that this SCAR marker can clearly distinguish the M. sacchariflorus, M. sinensis, and M. x giganteus, respectively.     

Development of IRAP-SCAR marker for strain identification in Lentinula edodes

Rapid and correct authentication of commercial strains is still important in today’s mushroom industry. Here for the first time we reported the using of sequence characterized amplified region (SCAR) marker developed from inter-retrotransposon amplified polymorphism (IRAP) marker to identify Lentinula edodes strain. Genomic polymorphism among 44 shiitake cultivars in China were surveyed by 24 IRAP primer combinations, from which primer combination LTR1L/MarY1R could generate a unique and reproducible 1712 bp fragment to distinguish strain No. 4 from other 43 strains. Based on this strain-specific fragment, a SCAR primer pair was designed and its validity was verified by correctly amplifying a single strain-specific fragment from DNA samples of 100 L. edodes strains. Our study lays the foundation for developing strain-specific SCAR marker by retrotransposon-based marker technique in fungi.     

Strain-specific detection of two Aureobasidium pullulans strains, fungal biocontrol agents of fire blight by new, developed multiplex-PCR

Aim:  The aim of this study was to develop a specific and sensitive identification method for two Aureobasidium pullulans biocontrol strains, CF10 and CF40, based on a sequence-characterized amplified region (SCAR) derived from RAPD – and multiplex-RAPD PCR analysis. Methods and Results:  The random amplified polymorphic DNA (RAPD) and multiplex RAPD-PCR techniques were used for a preliminary screening of A. pullulans genetic variability among 200 isolates. This approach allowed the selection of ten fragments present solely in strains CF10 and CF40. The RAPD fragments were cloned, sequenced and used to design two SCAR primers. Two primer pairs obtained from SCH3RAPD fragment of CF 40 and 6RAPD of CF10 were highly specific and sensitive. Conclusions:  In this study, we developed strain-specific multiplex-PCR based on sequence-characterized amplified region (SCAR) markers to simultaneously detect both strains in a single PCR. Significance and Impact of the Study:  This new multiplex-PCR provides a valuable tool for specific and sensitive identification of CF10 and CF40, and could be used in studies on the efficacy and persistence of introduced strains of A. pullulans for fire blight control.