Diversity of Endophytes in Panax quinquefolium Root / 中国实验方剂学杂志

ObjectiveTo analyze the community structure of endophytes in Panax quinquefolium root and explore the dominant endophytic bacteria and fungi， to provide scientific basis for the establishment of endophytic microbial bank in P. quinquefolium root. MethodInternal Transcribed Spacer （ITS） sequencing and 16S sequencing were performed on six P. quinquefolium root samples collected from Wendeng， Shandong province on PacBio Sequel Ⅱ. ResultA total of 8 phyla， 11 classes， 23 orders， 27 families and 53 genera of endophytic bacteria were identified in P. quinquefolium root， among which an unidentified Burkholderiaceae and an unidentified Rhizobiaceae were dominant. A total of 9 phyla， 23 classes， 35 orders， 43 families and 48 genera of endophytic fungi were identified in P. quinquefolium root， among which an unclassified Helotiales and Pseudogymnoascus were dominant. The community structure of endophytic bacteria revealed that the roots were selectively enriched with nitrogen-fixing bacteria such as unidentified Rhizobiaceae， Bradyrhizobium and Herbaspirillum， which suggested that nitrogen is important for the growth of P. quinquefolium root. The community structure of endophytic fungi indicated that P. quinquefolium in Shandong province might be infected by unclassified Helotiales. ConclusionThere is a rich diversity of endophytic bacteria and fungi in P. quinquefolium root， which provides scientific basis for studying the interaction of the plant with endophytic microorganisms and screening the endophytes to promote the growth of P. quinquefolium root.

Identification of Medicinal Aconitum Species Based on ITS2 Sequences and Analysis of Genetic Relationship / 中国实验方剂学杂志

ObjectiveThe internal transcribed spacer （ITS） 2 region of ribosomal gene， a DNA barcode， was employed to identify 12 medicinal Aconitum species and the genetic relationship among the species was analyzed. MethodA total of 30 samples of the 12 species were collected. The DNA was extracted with spin column plant genomic DNA kit and the universal primers of ITS2 sequence were used for polymerase chain reaction （PCR） amplification， followed by electrophoresis detection and bi-directional sequencing. The yielded sequences were aligned and spliced by CodonCode Aligner 17.0 and sequence variation was analyzed by MEGA 7.0. The secondary structure was predicted by ITS2 Database and the neighbor-joining （NJ） method was applied to generate the phylogenetic tree. ResultThe ITS2 sequences of the 12 species were 220-221 bp， with the average guanine and cytosine （GC） content of 64.09%， 140 variable sites， 137 informative sites， and 81 conservative sites. The intraspecific genetic distance （K2P） was smaller than the interspecific genetic distance. According to the secondary structures of ITS2 sequences and NJ cluster analysis， A. scaposum， A. sinomontanum， and A. barbatum had close genetic relationship， while the rest nine showed close kinship， particularly A. soongaricum and A. yinschanicum. ConclusionITS2 sequence is of great value for the molecular identification and genetic relationship determination of Aconitum， which provides a new method for the study of ethnomedicine.

Molecular Identification of Tibetan Codonopsis Plants Based on ITS2 and psbA-trnH Barcode / 中国实验方剂学杂志

ObjectiveTo identify the molecular biology of various species of Tibetan Codonopsis plants based on internal transcribed spacer（ITS）2 and psbA-trnH sequence barcode technology. MethodThe genomic DNA of 28 Tibetan Codonopsis plant samples from four species （Codonopsis canescens，C. foetens subsp. nervosa，C. pilosula， and C. thalictrifolia var. mollis） were extracted，and the ITS2 and psbA-trnH sequences were amplified and sequenced. The related sequences of 81 Tibetan Codonopsis plant samples belonging to 15 species were downloaded from GenBank， and MEGA 6.0 was used for sequence comparison and mutation site analysis. The GC content and genetic distance within and between species were calculated. Additionally， phylogenetic trees were constructed by maximum likelihood （ML） method， neighbor-joining （NJ） method，and unweighted pair-group method with arithmetic means （UPGMA） . ResultAccording to the mutation site，C. canescens， C. pilosula，C. pilosula subsp. tangshen， C. pilosula var. modesta，C. bhutanica，C. clematidea，C. lanceolata，C. subglobosa and C. foetens were distinguished. In the phylogenetic trees，the optimal clustering effects for ITS2 and psbA-trnH sequences were obtained using the ML method and the UPGMA method， respectively， and 12 species were effectively clustered. ConclusionITS2 and psbA-trnH sequences have a high identification rate for species of single origin，but there are still some limitations in identifying variants and original variants. This study provides basis for the identification of affinity relationship and clinical safety of Tibetan Codonopsis plants.

Identification of Armeniacae Semen Amarum Adulterated in Persicae Semen by Allele-specific Polymerase Chain Reaction / 中国实验方剂学杂志

Objective:Due to the limitation of traditional identification methods of Chinese medicinal materials， the study established a rapid method to identify Persicae Semen mixed with Armeniacae Semen Amarum by allele-specific polymerase chain reaction （PCR）. Method:By comparing the ribosomal DNA internal transcribed spacer （ITS） gene sequences of Persicae Semen and Armeniacae Semen Amarum， single nucleotide polymorphism （SNP） sites were searched and specific primers were designed. Different Persicae Semen and Armeniacae Semen Amarum samples were amplified by PCR， the effects of annealing temperature， primer concentration and cycle number on the PCR reaction system were optimized， and the specificity and detection limit of this method were investigated. In addition， the established PCR method was used to detect the samples of Persicae Semen mixed with different proportion of Armeniacae Semen Amarum from different sources and producing areas. Result:A specific PCR method for identifying Persicae Semen mixed with Armeniacae Semen Amarum was established. When the annealing temperature was 63 ℃ and the number of primer cycles was 30， only Armeniacae Semen Amarum could be amplified with 432 bp specific band， while Persicae Semen samples did not have this band. The minimum detection limit of this method for Armeniacae Semen Amarum was 0.2 ng， and the detection limit for Armeniacae Semen Amarum adulterated in Persicae Semen was 1%. Conclusion:The established allele-specific PCR method can accurately detect whether there is Armeniacae Semen Amarum in Persicae Semen， which can provide experimental basis for the quality control of Persicae Semen and guarantee the safety of its clinical use.

Morphological and molecular characterization of Fusarium spp. associated with Fusarium wilt disease of Piper nigrum L. in Northwestern region of Sarawak

Aims@#Piper nigrum L. (black pepper) is an economically important commodity plant in Malaysia, which generated RM 200.95 million from pepper export in the year of 2018. However, the increase in pepper production is restricted by diseases. Fusarium wilt is one of the major diseases of P. nigrum L. The objectives for this study were to isolate Fusarium spp. associated with Fusarium wilt of P. nigrum L. from selected pepper farms in the northwestern region of Sarawak and to characterize the Fusarium spp. isolated morphologically and molecularly.@*Methodology and results@#Fusarium spp. were isolated from diseased root samples. The pathogen was grown on potato dextrose agar (PDA) under dark condition at circa (ca.) 25 °C for morphological characterisation. Molecular characterisation was done by using internal transcribed spacer (ITS). Phylogenetic tree was constructed to study the genetic relationship of the isolates. Fusarium solani, F. oxysporum, F. proliferatum were the three Fusarium species identified. There were variations in morphological characters observed between and among the species, including the colony form, margin, elevation, surface appearance and pigmentation. No distinctive morphological characteristic was specific to a location. In addition, growth rate, macroconidia sporulation rate, and microconidia sporulation rate of the isolates were not correlated. In molecular phylogeny, the three Fusarium species were separated into three distinct clades representing the three identified species. The genetic relatedness between isolates within each species was depicted in the tree. @*Conclusion, significance and impact of study@#Variations were observed among isolates in this study based on morphological and molecular characterization. This study would contribute information on the variations of Fusarium spp. associated with Fusarium wilt of P. nigrum L. from the northwestern region of Sarawak.

DNA Barcoding Identification of Paecilomyces hepiali and Jinshuibao Capsules / 中国实验方剂学杂志

Objective::Because traditional methods are difficult to identify the fermentation mycelium, DNA barcoding technology was used to quickly identify the raw material strain Paecilomyces hepiali of Jinshuibao capsules and related products. Method::A total of 168 samples of 8 species of P. hepiali and its confusable species were identified by internal transcribed spacer (ITS) sequences, and based on the ITS sequences, P. hepiali specific primers were designed to quickly identify the related products. Result::The length of ITS sequences in 44 P. hepiali samples from different sources was 499 bp and there was no mutation site. It was shown that P. hepiali could be distinguished from 7 confusable species based on ITS sequences. The specific primer (ITS-BF/ITS-BR) of P. hepiali designed by ITS sequences could be amplified to obtain a short fragment of 102 bp in length, which could be used to rapidly identify P. hepiali from other confusable species, and to distinguish relevant products in the market. Conclusion::The rapid identification of P. hepiali and its related products can be achieved through the ITS sequences and specific primers, which provides a reference for the production and quality control of Jinshuibao capsules.

Molecular Identification of Bupleurum chinense Seeds Based on DNA Barcoding Technology / 中国实验方剂学杂志

Objective:To establish a molecular identification method for Bupleurum chinense seeds based on ribosomal DNA internal transcribed spacer (ITS) sequence, ensuring the species authenticity of the cultivated seeds of B. chinense. Method:A total of 59 seeds samples of B. chinense and its main cultivated species, marketed B. chinense were collected. The effect of different sampling amounts and different water bath conditions on DNA extraction quality of the seeds was investigated, a DNA extraction method for seeds of Bupleurum was established. Their ITS sequences were obtained by polymerase chain reaction (PCR) and bidirectional sequencing. In addition, 34 ITS sequences of main cultivated Bupleurum species, such as B. chinense, B. scorzonerifolium, B. falcatum and B. smithii, were downloaded from GenBank to enrich identification database of B. chinense seeds. The neighbor-joining (NJ) dendrogram were constructed by MEGA-X 10.0.5 software to investigate the the species identification ability of ITS sequences for B. chinense seeds. And DNA barcoding identification of marketed B. chinense seeds was conducted based on BLAST method and NJ dendrogram method. Result:In total, 59 ITS sequences were obtained. ITS sequences of B. chinense could be divided into six haplotypes, including seven variable sites. The NJ dendrogram indicated that all the haplotypes of B. chinense could form independent branches, which could be distinguished from other cultivated species of Bupleurum in the collected samples, and possessed the ability to identify species of B. chinense seeds. Based on ITS sequence barcoding identification, 3 of the 19 marketed B. chinense seeds were B. falcatum with a counterfeit rate of 15.8%. Conclusion:DNA barcoding technology based on ITS sequence can accurately and reliably identify B. chinense seeds and its adulterants, providing reference for the standardization construction of Chinese medicinal materials seeds.

Molecular Identification of Anisakis Larvae Extracted by Gastrointestinal Endoscopy from Health Check-up Patients in Korea

Anisakiasis is a zoonotic disease induced by anisakid nematodes, and endoscopic inspection is used for a diagnosis or remedy for it. Anisakis simplex, Anisakis physeteris, and Pseudoterranova decipiens had been reported to be the major species causing human infections, particularly, in Japan. However, in Korea, recent studies strongly suggested that Anisakis pegreffii is the major species of human infections. To support this suggestion, we collected anisakid larvae (n=20) from 20 human patients who were undergone gastrointestinal endoscopy at a health check-up center in Korea, and molecular identification was performed on the larvae using PCR-RFLP analysis and gene sequencing of rDNA ITS regions and mtDNA cox2. In addition, anisakid larvae (n=53) collected from the sea eel (Astroconger myriaster) were also examined for comparison with those extracted from humans. The results showed that all human samples (100%) were identified as A. pegreffii, whereas 90.7% of the samples from the sea eel were A. pegreffii with the remaining 9.3% being Hysterothylacium aduncum. Our study confirmed that A. pegreffii is the predominant species causing human anisakiasis in Korea, and this seems to be due to the predominance of this larval type in the fish (sea eels) popularly consumed by the Korean people. The possibility of human infection with H. aduncum in Korea is also suggested.

Prevalence and Phylogenetic Analyses of Trichuris suis in Pigs in Hunan Province, Subtropical China

Trichuris suis infection in pigs is ubiquitous in intensive and extensive farms, which causes potential threat to human health. The objective of this research was to investigate the prevalence of T. suis in pigs in Hunan province. Total 2,267 fresh fecal samples distributed in 28 pig farms from 7 different administrative regions (Hunan province) were evaluated for the existence of T. suis eggs using saturated NaCl floating method. The average infection rate of T. suis in pigs was 8.91% in Hunan province. To determine genetic variation of the gained T. suis isolates in the present study, the internal transcribed spacer (ITS) regions from nuclear ribosomal DNA (rDNA) of 7 T. suis isolates were cloned and analyzed. Nucleotide diversities were 1.0–3.5% and 0–3.8% for ITS-1 and ITS-2, respectively. Phylogenetic analyses indicated that all isolates collected in the present study and T. suis available in Genbank generated a monophyletic clade. The present investigation revealed high infection rates of T. suis in pigs in Hunan province, which shed light on making effective measures to prevent and control T. suis infection in pigs in Hunan province.

Molecular Characterization of Enterocytozoon bieneusi in Domestic Rabbits (Oryctolagus cuniculus) in Northeastern China

A study of 426 rabbits from 3 cities in Jilin province (Changchun City and Jilin City) and Liaoning province (Shenyang City) was conducted between May and June 2015. The overall prevalence of E. bieneusi in rabbits was 0.94% (4/426), with 0% (0/116), 1.72% (3/174), and 0.74% (1/136) in Jilin, Changchun, and Shenyang City, respectively. Only 3 farms (farm 1 and farm 3 in Changchun City, farm 8 in Shenyang City) were PCR-positive for E. bieneusi. Moreover, rabbits of more than 6 months (1.72%) had the highest E. bieneusi prevalence, followed by rabbits of 4-6 months (1.26%), 2-3 months (0.58%), and less than 1 month (0%). Analysis of ITS gene of E. bieneusi suggested that all 4 E. bieneusi isolates were genotype D, and were classified as group 1a. The present results first demonstrated the existence of zoonotic E. bieneusi in domestic rabbits in China. Effective control measures should be implemented to prevent E. bieneusi infection in domestic rabbits, other animals, and humans.

olecular Analysis of Genetic Diversity of Pectobacterium carotovorum Subsp Carotovorum Isolated in Morocco by PCR Amplification of the 16S-23S Intergenic Spacer Region.

Aims: Pectobacterium carotovorum is a ubiquitous bacterium that causes soft rot in different crop plants throughout the world. In Morocco, approximately 95% of the Strains isolates from potato plants with tuber soft rot are P. carotovorum. In this study, we test whether PCR ribotyping can be used to distinguish strains of Pectobacterium carotovorum isolated from soft rot potato and to differentiate among strains from different geographic regions. Place and Duration of Study: Laboratory of Virology, Microbiology and Quality / Ecotoxicology and Biodiversity, department Biology, Faculty of Sciences and Techniques, University Hassan-II Mohammedia Casablanca. Methodology: Eighty-three pectolytic enterobacteria were collected from potatoes rotten in Morocco, the strains were isolated in the Cristal Violet Pectate (CVP) medium and were purified in LPGA agar (yeast extract, peptone, glucose and agar). After purification, strains were identified by physiological and biochemical tests. The confirmation of species was performed by PCR using primers Y1 and Y2. The genetic diversity of Pectobacterium carotovoum was investigated by PCR ribotyping using primers G1/L1, which are complementary to conserved regions of the rRNA operon. Furthermore, the profiles obtained were compared by the Unweighted Pair Group Method. Results: The biochemical and physiological analysis demonstrated that the predominant pectolytic enterobacterium present in Morocco is Pectobacterium carotovorum subsp carotovorum. The specific confirmation of species P. carotovorum by PCR has yielded a 434 bp DNA fragment of the pelY gene with all isolates. Further, PCR amplification of the 16S-23S Intergenic spacer Region (ITS-PCR) has presented a specific pattern made of 2-6 fragments ranging from 300 bp to 800 bp. The UPGMA tree has shown that there is considerable genetic diversity in P. carotovorum strains, which can be divided into four distinct groups.

Sequence Analysis of the Internal Transcribed Spacer of Ribosomal DNA in the Genus Rhizopus

The internal transcribed spacer (ITS) regions including the 3'-end of 18S rRNA gene, 5.8S rRNA gene and the 5'-end of the 28S rRNA gene of Rhizopus spp. were amplified by PCR and analyzed by DNASIS program. Length polymorphism of these region ranged from 564 bp in R. oryzae to 789bp in R. stolonifer. The length and sequence of 5.8S was very conserved with 154~155 bp. The sequence of ITS2 was more variable than that of ITS1. The base substitution rates were ranged from 0 to 0.6069 per site, and higher rate was found in R. stolonifer. In general, transition was usually more frequent than transversion. On the basis of sequencing results, four groups were clustered with value of 61.9% similarity; R. oryzae, R. microspores, R. homothallicus, and R. stolonifer groups.

DNA Profiles of Trichoderma spp. in Korea

Molecular approaches, internal transcribed spacer(ITS) sequences of ribosomal DNA, and Universal Rice Primer Polymerase Chain Reaction(URP-PCR) were used to investigate the genetic diversity, taxonomic complexity, and relationships of Trichoderma species in mushroom farms. Forty-one isolates of 13 Trichoderma spp. were used in this study and clustered into eight groups. The DNA fingerprint patterns and ITS1 region sequence alignment data showed similar results, but not in some species, such as T. virens, T. atroviride, T. harzianum, and T. aureoviride. Results of this study have proven that the morphology-based taxonomic system has some limitations in terms of classification. The data obtained in this study would be a good index for classifying indistinguishable Trichoderma strains.

PCR Assays for Detection of Pseudomonas tolaasii and Pseudomonas agarici

PCR assays were developed to detect Pseudomonas tolaasii and Pseudomonas agarici using primer sets, PTOF/PTOR and PAGF/R23-1R. The primer set, PTOF and PTOR, was designed from the nucleotide sequence of pPTOF2 that showed specificity for P. tolaasii in dot blot previously. For development of primers specific for P. agarici, ITS I regions of seven P. agarici strains were analyzed. P. agarici strains contained from one up to three putative ITS I regions, which were different in size and nucleotide sequence from each other. From the sequence of the band (PaI-III) common to all P. agarici strains, primer PAGF was designed. PAGF was used for forward primer, and R23-1R as reverse primer to detect P. agarici. Multiplex PCR with two primer sets, PTOF/PTOR and PAGF/R23-lR, successfully produced two fragments (PTSF and PASF) specific for P. tolaasii and P. agarici with the mixture of DNA of P. tolaasii and P. agarici.