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Chagas / Trypanosoma cruzi detection

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An Eco-Friendly and Sustainable Biopolymer with Antioxidant Properties

Megan Detergent, RNA February 12, 2022dna ancestry, dna bts, dna definition, dna extraction, dna genetics, dna hr block, dna hrblock login, dna hrblock login employee, dna lyrics, dna molecule, dna painter, dna polymerase, dna replication, dna rna, dna stock, dna structure, dna testing, dna tests, dna transcription, dna.hrblock.com, dna2, dnajlion7 rumble, dnase, molecular, molecular biology, molecular biology courses 2019, molecular biology courses 2019 uk, molecular cancer, molecular cell, molecular compound, molecular covid test, molecular devices, molecular diagnostics, molecular formula, molecular formula calculator, molecular gastronomy, molecular geometry chart, molecular lab test pcr / naat, molecular mass, molecular mass calculator, molecular plant, molecular probes, molecular shapes, molecular test, molecular therapy, molecular weight, molecular weight calculator, pcr, pcr covid test, pcr covid test near me, pcr test cvs, pcr test for traveling, pcr test near me, pcr test near me free, pcr test seattle, pcr test walgreens, pcr testing, pcr testing definition, pcr testing for traveling, pcr testing near me, pcr vs antigen test, pcr vs rapid test, pcram, pcre, pcrichardsandsons 0 Comment
Malva parviflora L. is an edible and medicinal herb containing mucilaginous cells in its leaves. Mucilage obtained from M. parviflora leaves (MLM) was extracted in distilled water (1:10 w/v) at 70 °C followed by precipitation with alcohol. Preliminary phytochemical tests were performed to assess the purity of the extracted mucilage. Results showed that the yield of mucilage was 7.50%, and it was free from starch, alkaloids, glycosides, saponins, steroids, lipids and heavy metals. MLM had 16.19% carbohydrates, 13.55% proteins and 4.76% amino acids, which indicate its high nutritional value. Physicochemical investigations showed that MLM is neutral and water-soluble, having 5.84% moisture content, 15.60% ash content, 12.33 swelling index, 2.57 g/g water-holding capacity and 2.03 g/g oil-binding capacity.
  • The functional properties, including emulsion capacity, emulsion stability, foaming capacity and stability increased with increased concentrations.
  • Micromeritic properties, such as bulk density, tapped density, Carr’s index, Hausner ratio, and angle of repose, were found to be 0.69 g/cm3, 0.84 g/cm3, 17.86%, 1.22 and 28.5, respectively. Scanning electron microscopy (SEM) showed that MLM is an amorphous powder possessing particles of varying size and shape; meanwhile, rheological studies revealed the pseudoplastic behavior of MLM.
  • The thermal transition process of MLM revealed by a differential scanning calorimetry (DSC) thermogram, occurring at a reasonable enthalpy change (∆H), reflects its good thermal stability. The presence of functional groups characteristic of polysaccharides was ascertained by the infrared (IR) and gas chromatography/mass spectrometry (GC/MS) analyses.
  • GC revealed the presence of five neutral monosaccharides; namely, galactose, rhamnose, arabinose, glucose and mannose, showing 51.09, 10.24, 8.90, 1.80 and 0.90 mg/g of MLM, respectively. Meanwhile, galacturonic acid is the only detected acidic monosaccharide, forming 15.06 mg/g of MLM.
  • It showed noticeable antioxidant activity against the DPPH (1,1-diphenyl-2-picrylhydrazyl) radical with an IC50 value of 154.27 µg/mL. It also prevented oxidative damage to DNA caused by  the Fenton reagent, as visualized in gel documentation system.
  • The sun protection factor was found to be 10.93 ± 0.15 at 400 µg/mL. Thus, MLM can be used in food, cosmetic and pharmaceutical industry and as a therapeutic agent due to its unique properties.

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Telomere length in dromedary camels (Camelus dromedarius) produced by somatic cell nuclear transfer (SCNT) and their age-matched naturally produced counterparts

There are controversial reports on the restoration of eroded telomere length in offspring produced by somatic cell nuclear transfer (SCNT) in different animal species. To the best of our knowledge, no earlier studies report the telomere length in naturally produced or cloned animals in any of the camelid species. Therefore, the present study was conducted to estimate the telomere length in dromedary camels produced by SCNT, the donor cells, and their age-matched naturally produced counterparts by Terminal Restriction Fragment (TRF) length analysis and real-time Q PCR T/S ratio methods. Genomic DNA was extracted from venous blood collected from 6 cloned animals and their age-matched counterparts.
Using the southern blot technique, digested DNA was blotted onto a positively charged nylon membrane, and its hybridization was carried out using telomere (TTAGGG)n specific, DIG-labeled hybridization probe (Roche Diagnostics, Germany) at 42 °C for 4 h. Stringent washes were carried out at the same temperature, followed by a chemiluminescence reaction.
The signals were captured using the Azure Biosystems C600 gel documentation system. A TeloTool program from MATLAB software with a built-in probe intensity correction algorithm was used for TRF analysis. The experiment was replicated three times, and the data, presented as mean ± SEM, were analyzed using a two-sample t-test (MINITAB statistical software, Minitab ltd, CV3 2 TE, UK).
No difference was found in the mean telomere length of cloned camels when compared to their naturally produced age-matched counterparts. However, the telomere length was more (P < 0.05) than that of the somatic cells used for producing the SCNT embryos. A moderate positive Pearson correlation coefficient (r = 0.6446) was observed between the telomere lengths estimated by TRF and Q PCR T/S ratio method.
In conclusion, this is the first study wherein we are reporting telomere length in naturally produced and cloned dromedary camels produced by somatic cell nuclear transfer. We found that telomere lengths in cloned camels were similar to their age-matched naturally produced counterparts, suggesting that the camel cytoplast reprograms the somatic cell nucleus and restores the telomere length to its totipotency stage.

First report of Klebsiella aerogenes Inciting Stem Rot of Pearl Millet in Haryana, India

Pearl millet [Pennisetum glaucum (L.) R. Br. Syn. Pennisetum americanum (L.) Leeke] is the oldest and widely cultivated millet in Asian and African countries, mostly grown over low fertile soils in more than 40 countries covering an area of 312.00 lakh hectares (FAOSTAT 2017). In Haryana, crop was grown over an area of 4.30 lakh hectares during Kharif 2019. Pearl millet is prone to many fungal and bacterial diseases. During 2018 to 2020, a new devastating diseas exhibiting stem rot like symptoms was observed in pearl millet growing regions in Indian state of Haryana. The isolated disease causing agent was a bacterium, where 16S rDNA-based nucleotide sequence deposited in NCBI GenBank (Accession nos. MZ433194.1) conferred its nearness to Klebsiella aerogenes (Hormaeche and Edwards 1960) Tindall et al. 2017.
Further, DNA gyrase genomic sequence (NCBI Accession nos. MZ707528.1) also stayed its high homology to K. aerogenes. Klebsiella usually known to cause diseases in humans and animals, and also has been found inciting different kind of rots in different plantations viz. top rot in maize (Huang Min et al. 2016). Pearl millet is susceptible to minor bacterial diseases viz. bacterial leaf streak (Xanthomonas campestris), bacterial leaf spot (Pseudomonas syringae) and leaf stripe (P. avenae).
Earlier, among the plant pathogenic bacterial entirety, only Erwinia chrysanthemi is known to cause stem rot diseases in sorghum (Saxena et al. 1991) amongst different types of millet. Extensive disease survey of pearl millet growing regions (Hisar, Bhiwani, Rewari, Mohindergarh and Bawal districts of Haryana having an altitude of 215, 225, 245, 262 and 266 m, respectively) in rainy seasons of 2019 and 2020 revealed the prevalence of typical stem rot disease, representing up to 70% disease incidence in the infected fields. The pieces of symptomatic stem of different plants were collected from two locations (Hisar and Bhiwani) and associated organism was isolated following the techniques of Janse (2005).
The resulting growth of bacterial cultures were further purified on nutrient agar (NA) media using streak plate technique where colony growth of both the isolates were observed as morphotypes. The resulting bacteria were gram-negative and rod-shaped. Colonies were round and creamish white on NA. Isolated morphotypes were positive for indole production, methyl red, Voges Proskauer’s test, citrate utilization, arabinose, mannitol, rhamnose and sucrose, whereas negative for glucose, adonitol, lactose and sorbitol tests.
Biochemical tests were performed following standard methods (Holt et al. 1994). Molecular analysis of both isolates was performed using two sets of primers (universal 16S rRNA gene and genus-specific gyrA gene). The gyrA fragment (F: 5′-CGCGTACTATACGCCATGAACGTA-3′; R: 5′-ACCGTTGATCACTTCGGTCAGG-3′) has been adopted as Klebsiella genus-specific gene (Brisse and Verhoef 2001). The quality and quantity of the isolated genomic DNA were analyzed using NanoDrop-2000 (Thermo Fisher Scientific, USA) and resolved in 1% (w/v) agarose gel. Thereafter, visualized in gel documentation to confirm a single band of high-molecular-weight DNA.
The fragment 16S rDNA was amplified using 27F and 1492R primers, where a single discrete PCR amplicon of 1500 bp was observed in 1% (w/v) agarose gel. Similarly, the gyrA gene was amplified using 09510F and 09510R primers that conferred a single discrete band of 400 bp. The forward and reverse DNA sequencing reaction of purified PCR amplicons (16S rDNA and gyrA) was carried out using BDT v3.1 Cycle sequencing kit on a genetic analyzer to generate gene sequences. The consensus sequences of both gene were generated from forward and reverse sequences data using aligner software. The obtained sequences of both genes were compared with the available nucleotide sequences in the NCBI using the blast 2.2.9 system.
The sequenced PCR amplicons showed up to 100% similarity with Klebsiella aerogenes 16s RNA nucleotide sequences (Accession nos. NR102493.2, MT373521.1; MF682950.1; MF462979.1 etc.). The bacterium also showed high nucleotide homology to K. aerogenes gyrA gene sequences (Accession nos. LR607333.1; CP035466.1; CP049600.1 etc.). The molecular phylogenetic analysis was done by the maximum likelihood method based on the Tamura-Nei model, and 1000 replicates for bootstrap testing in MEGA 7.0 software. The analysis involved 16 nucleotide sequences and evolutionary distances were computed.
The 16s RNA based phylogenetic tree raised using MEGA7 (Kumar et al. 2016) elucidates that Klebsiella aerogenes Hisar formed a cluster with three K. aerogenes strains (Accession nos. MZ577128.1, MT373521.1 and MT 373520.1), whereas K. aerogenes Bhiwani displayed higher homology to NCBI sequences viz. MF682950.1, MT355368.1, MW331687.1and LC515412.1. Bacterial suspension was prepared by suspending bacterial cells into sterile water and cell density was adjusted to 1×107 colony forming unit/ml.
For pathogenicity, leaf whorl inoculation (10 ml suspension/ whorl) was done on 15 days old seedlings of pearl millet genotype 7042S raised under controlled conditions (Temperature 35±2°C and more than 80% Relative Humidity). The pathogenicity was proved under field conditions as well.
Initial symptoms were observed 4-5 days after inoculation as long streaks on leaves. Soon a spike in number of these leaf streaks was observed. Thereafter, water-soaked lesions appeared on the stem at 20-25 days after inoculation which later on turned brown to black. Severely diseased plants were dead, exhibiting hollowing of the stem and drying of leaves.
The infected stem pith disintegrated and showed slimy rot symptoms and the pearl millet clumps toppled down. The rotten stems of both inoculations were again cut in to small pieces and the reisolated bacterium showed exactly the same morphological, biochemical and molecular characteristics. To our knowledge, this is the first report of stem rot of pearl millet incited by K. aerogenes in south-western regions of Haryana, India. Because the stem rot caused by K. aerogenes poses a significant threat to pearl millet cultivation, further research on biology, epidemiology and management choices is needed.

Mycobacterium porcinum Skin and Soft Tissue Infections After Vaccinations – Indiana, Kentucky, and Ohio, September 2018-February 2019

During December 2018-February 2019, a multistate investigation identified 101 patients with vaccination-associated adverse events among an estimated 940 persons in Kentucky, Indiana, and Ohio who had received influenza; hepatitis A; pneumococcal; or tetanus toxoid, reduced diphtheria toxoid, and acellular pertussis (Tdap) vaccines at the workplace during September 11-November 28, 2018. These vaccines had been administered by staff members of a third-party health care company contracted by 24 businesses. Company A provided multiple vaccine types during workplace vaccination events across 54 locations in these adjoining states.
Injection-site wound isolates from patients yielded Mycobacterium porcinum, a nontuberculous mycobacteria (NTM) species in the Mycobacterium fortuitum group; subtyping using pulsed-field gel electrophoresis of all 28 available isolates identified two closely related clusters.
Site visits to company A and interviews with staff members identified inadequate hand hygiene, improper vaccine storage and handling, lack of appropriate medical record documentation, and lack of reporting to the Vaccine Adverse Event Reporting System (VAERS).
Vaccination-associated adverse events can be prevented by training health care workers responsible for handling or administering vaccines in safe vaccine handling, administration, and storage practices, timely reporting of any suspected vaccination-associated adverse events to VAERS, and notifying public health authorities of any adverse event clusters.

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huangjing (Polygonatum cyrtonema Hua) seedling basal rot caused by Fusarium redolens in China

Megan Detergent, RCCS February 12, 2022February 12, 2022dna ancestry, dna bts, dna definition, dna extraction, dna genetics, dna hr block, dna hrblock login employee, dna lyrics, dna molecule, dna painter, dna polymerase, dna replication, dna rna, dna structure, dna tests, dna transcription, dna2, dnajlion7 rumble, dnase, pcr, pcr covid test, pcr covid test near me, pcr test cvs, pcr test for traveling, pcr test near me, pcr test near me free, pcr test seattle, pcr test walgreens, pcr testing, pcr testing definition, pcr testing for traveling, pcr testing near me, pcr vs antigen test, pcr vs rapid test, pcram, pcre, pcrichardsandsons 0 Comment
In April 2020, severe diseases with about 40% seedling losse was found in the Huangjing seedling base in Shiyan city, Hubei province. The symptoms included softening and decay of the roots and stem bases, a progressive yellowing and wilting of leaves, and finally being completely rotted. Small pieces of symptomatic stems (0.5 cm in length) and leaves (0.5 × 0.5 cm in size) were surface sterilized with 75% ethanol for 30 s, followed by 0.1% HgCl2 for 1 min, rinsed three times with sterile water, and then dried with sterilized absorbent paper.
The sections were placed on potato dextrose agar (PDA) medium containing 10 µg/ml of ampicillin and incubated at 25°C in the dark. After 3 days incubation, eight isolates with the same colony morphology were sub-cultured and purified by hyphal tip isolation. Macroconidia were sickle-shaped, 15.8 – 32.3 × 3.1 – 5.6 μm (n = 25), and three to five septate.
Microconidia were oval or kidney-shaped, 5.2 – 11.4 × 2.0 – 3.2 μm (n = 25), and zero to one septate. To confirm the identity of the pathogen, molecular identification was performed with strain HJCD1. Following DNA extraction, PCR was performed using the TSINGKE 2×T5 Direct PCR Mix kit. Target areas of amplification were the internal transcribed spacer (ITS) and translation elongation factor 1α (TEF-1α) using ITS1/4 (White et al. 1990) , EF1/EF2 (Taylor et al. 2016), respectively.
Following BLAST searches and phylogenetic reconstruction, the ITS region (GenBank MW485770.1) showed 99% identity with those of Fusarium redolens in GenBank (KU350713.1) and the TEF-1α (GenBank MW503930.1) showed 100% identity with F. redolens GenBank (MK922537.1). Pathogenicity tests were performed to fulfill Koch’s postulates. Huangjing seedlings were rinsed with sterile water, wiped clean with sterile absorbent paper, and transferred to a tray covered with wet filter paper to maintain high humidity.
The mycelial piugs of F. redolens HJCD1 were inoculated onto the surface of leaves and basal stems. Controls were inoculated with sterile PDA plugs. The inoculated seedlings were sealed with plastic wrap, and then cultivated in a 25 ℃ growth chamber with 16 h of light per day. The pathogen-inoculated plants exhibited etiolation and typical wilt symptoms after 4 days, whereas no symptoms were observed in the control plants. F. redolens was reisolated from the infected tissues, and colony morphology and ITS sequence of re-isolates were same as that of HJCD1. The pathogen has been reported previously in american ginseng in China (Fan et al. 2021), lentil in Pakistan (Rafique et al. 2020), and wild rocket in United Kingdom (Taylor et al. 2019).
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However, to the best of our knowledge, this is the first report of F. redolent causing seelding basal rot on Duohua huangjing in China. References: White, T. J., et al. 1990. Page 315 in: PCR Protocols: A Guide to Methods and Applications. Academic Press, San Diego, CA. Taylor, A., et al. 2016. Mol. Plant Pathol. 17:1032. https://doi.org/10.1111/mpp.12346 Fan, S. H., et al. 2021. Plant Dis. https://doi.org/10.1094/PDIS-11-19-2519-PDN Rafique, K., et al. 2020. Plant Dis. 9:104. https://doi.org/10.1094/PDIS-11-19-2519-PDN Taylor, A., et al. 2019. Plant Dis.6:103.
PDN Funding: Science Funds for Young Scholar of Hubei Academy of Agricultural Science (grant no. 2020NKYJJ20), National Modern Agricultural Industrial Technology System (grant no. CARS-21), Technology R&D Program of Enshi (grant no. D20190015), Science Funds for Young Scholar of Institute of Chinese Herbal Medicines, Hubei Academy of Agricultural Sciences (grant no. 2019ZYCJJ03), Key Laboratory of Integrated Management of Crops of Central China, Ministry of Agriculture, P. R. China / Hubei Key Laboratory of Crop Disease, Insect Pests and Weeds Control (grant no.2020ZTSJJ6).

First report of Rhizoctonia solani AG-4 HGI Causing Stem Canker on Fagopyrum tataricum (Tartary buckwheat) in China

Tartary buckwheat (Fagopyrum tataricum) is an ideal functional food source, which is well known to be gluten-free and rich in proteins, fats, vitamins, minerals, and flavonoids of various pharmaceutical uses, such as rutin, quercitin and epicatechin (Zhou, M et al. 2018). The Rhizoctonia solani AG-4 HGIII causing severe canker disease was first isolated from common buckwheat (F. esculentum) in Inner Mongolia of China (Zhou, H et al. 2015).
In 2018, sunken lesion and dark brown symptoms were observed on the root and stem of ten days old Tartary buckwheat in Liangshan (28°21’N, 103°19”E), Sichuan Province and Fenghuang (28°19′ N, 109°48′ E), Hunan Province in China. In the beginning, water-soaked spots appeared on the stem base, where gradually became rotten and necrotic, finally resulting in the damping-off and death of buckwheat seedlings.
This disease had over 40% incidence and lead to serious losses to the buckwheat production in 2018. To isolate the pathogens on Tartary buckwheat, ten plants with typical symptoms were collected from each location.
The infected tissue was taken and cut into 3mm pieces from the margin between healthy and diseased tissue, surface sterilized with 1% sodium hypochlorite solution for 4 min, washed three times with sterile distilled water, dried on sterilized filter paper and then placed on potato dextrose agar (PDA) with 100 mg/ml streptomycin sulfate. After incubation at 28℃ in the dark for 2 days, mycelial tips of four fungal cultures were transferred to PDA plates for purification. Initially, colonies were pale white, and then turned brown after 2 days of incubation.
The mycelium was hairy and concentrically whorled in the culture medium. Microscopic observation showed that the hyphae characteristically branched at right angles and had constriction at the base of hyphal branches. Nuclear staining showed that the hyphae cells were multinuclear. These morphological features revealed that the isolates belonged to R. solani (Sneh et al. 1991). Subsequently, the ribosomal DNA (rDNA) internal transcribed spacer (ITS) region of one isolate was amplified by PCR (White et al. 1990) and sequenced (GeneBank accession no. MT078642) by Shanghai Majorbio Bio-pharm Technology Co.,Ltd. DNA was extracted by Fungal genomic DNA Extraction Kit, D3390-02, OMEGA. The BLAST similarity analysis showed a 99.96% match with R. solani AG-4 HGI (GenBank accession no. JQ343830) and 99.85% identity to R. solani AG-4 HGI isolate SX-8 (GenBank accession no. KJ170346) (Suli, Sun et al. 2015).
Furthermore, the phylogenetic analysis performed by the neighbour-joining method (MEGA 7 software) showed that the isolate was clearly clustered with the group of R. solani AG-4 HGI (Ireland et al. 2015). Pathogenicity was tested in the greenhouse condition to satisfy Koch’s postulates. Tartary buckwheat plants of seven days old and fifty days old were respectively inoculated near the base of the stem neck with one mycelial plug contacted directly.
Ten plants in a pot were inoculated as one treatment, four pots were used for replicates. Control plants were inoculated with PDA medium plugs without fungi. All the plants were kept at 26℃ with 14 h light, 10 h dark and 96% humidity.
After five days (Suli, Sun et al. 2015), over 90% of the inoculated plants exhibited necrotic brown lesions on stems that was similar to those symptoms observed in the field, whereas control plants remained asymptomatic. The visible characteristics and ITS sequence of the pathogen re-isolated from symptomatic plants were in accordance with the original isolate (R. solani AG-4 HGI).
Based on disease symptoms in the fields, morphological characteristics, ITS sequence analysis, and pathogenicity assay, we concluded that R. solani AG-4 HGI was the principle cause of Tartary buckwheat blight in Liangshan, Sichuan Province and Fenghuang, Hunan Province in China. Previously, R. solani AG-4 HGI has been identified as a Chinese chive pathogen (Shi, Y et al. 2017). To the best of our knowledge, this is the first report of the natural occurrence of Rhizoctonia solani AG-4 HGI affecting Tartary Buckwheat in China. This finding is helpful for the early diagnosis and identification of the disease, which will be the guiding of effective control methods to the devastating disease at the early stage.

Phytophthora cactorum as a Pathogen Associated with Root Rot on Alfalfa (Medicago sativa) in China

Alfalfa (Medicago sativa) is the largest grown pasture crop in China due to its economic and ecological importance. During the summer season from June to August in 2018, stunted plants was frequently observed in alfalfa fields that have been established for two years in Jinchang, Gansu Province. The disease incidence of root rot ranged from 40% to 50%. Taproots of stunted plants showed red-brown to dark brown discolorations, and lateral roots were poorly developed. Shoots wilted with rotted taproots and lateral roots in severely affected plants.
Twenty symptomatic plants were collected and transported to the laboratory for pathogen isolations. Roots were washed under running tap water, cut into 2 to 3 mm pieces (40 pieces each plant), and then sterilized in 75% ethanol for 2 mins followed by three times washing with autoclaved distilled water. Surface dried pieces on autoclaved filter papers were put onto water agar and also a Phytophthora selective medium P5ARP(H) (Jeffers and Martin 1986). The plates were incubated at 22°C for 3 to 5 days and then the growing hypha were subcultured onto potato dextrose agar (PDA).
Thirty-two Phytophthora-like isolates were obtained and showed similar morphologies on PDA. Five isolates picked randomly were purified by single-hyphal-tip and plugs (4 to 5 mm) from PDA cultures were incubated in petri dishes with autoclaved distilled water at 22°C for 5 days. Sporangia, chlamydospores and oospores were examined. Sporangia were usually ovoid and sometimes appeared ellipsoid, with the length of 30.5-39.1 μm and width of 23.4-27.8 μm.
The diameter of chlamydospores was 29.6 to 42.5μm. Oospores had a diameter of 23.6 to 30.2 μm. The isolates were tentatively identified as P. cactorum based on these morphology characteristics (Montealegre et al. 2016). DNA of these isolates were extracted and PCR amplifications of the rDNA ITS region and cytochrome oxidase subunit I (Cox I) (Kroon et al. 2004) were conducted. Sequences of these isolates were then compared with reference sequences in GenBank using BLAST search.
The 866-bp ITS sequences had a sequence identity of 99% to 100% with P. cactorum (e.g. accession nos. EU662221, KJ128036). In addition, the 663-bp CoxI sequences showed 100% sequence identity with three P. cactorum isolates (accession nos. AB688156, HQ708234, EU660851). The ITS and CoxI sequences of one representative isolate Phy.c2 have been deposited in GenBank with the accession no. MT280033 and MT344138, respectively.
Pathogenicity of the five isolates (Phy.c1-Phy.c5) were determined on two-week-old alfalfa seedlings (cv. Longdong) grown from seeds. Inoculums were prepared by subculturing agar plugs from edges of PDA cultures into the flask with autoclaved millet seeds, and incubated at 22°C in darkness for two weeks and shaken by hand every two days to ensure uniform colonization. Seedlings were transplanted into pots (12 cm x 12 cm) filled with autoclaved potting mix infested with millet-seed inoculum of each isolate at a rate of 0.5% (w/w). Control seedlings for comparison were transplanted into pots with uninfested potting mix.
There were five seedlings per pot and twelve replicate pots for both inoculated and noninoculated treatments, and pots were kept under controlled environment room (22°C, 12 h photoperiod and 65% relative humidity) that were watered every two days to free draining. 87%~92% of the inoculated plants showed stunted symptoms with poorly developed and brown-discoloured roots three weeks after inoculation while the control plants were healthy with no root disease symptoms.
Phytophthora spp. has been reported causing root rot on alfalfa in America, Australia and Canada, and other legumes such as chickpea, and many other crops worldwide (Musial et al. 2005; Tan and Tan 1986; Vandemark and Barker 2003), and P. cactorum was reported as a root rot pathogen on lavender in China (Chen et al. 2017). P. cactorum may be a significant pathogen associated with root rot in major commercial alfalfa-producing areas in China where are based on flood-irrigation during the growth season.
To fulfill Koch’s postulates, re-isolated cultures from discoloured root tissues were confirmed as the inoculated isolates by morphological examination and ITS sequencing. The five-purified isolates were submitted to the Grassland Culture Collection Center, Lanzhou University, with the accession nos. LZU-MsR-Phy.c1-Phy.c5. To our knowledge, this is the first report of P. cactorum as a pathogen of root rot on alfalfa in China.

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TF-100-L CORNING 1000/pk 547.2 EUR

20UL FILTER TIPS FOR P-20

TF-20 CORNING 1000/pk 501.6 EUR

ClipTip 12.5µl Filter Tips Sterile - 10 racks of 96 tips

TH94420043 Westburg each 104.1 EUR

ClipTip 1250µl Filter Tips Sterile - 8 racks of 96 tips

TH94420813 Westburg each 115 EUR

ClipTip 384 12.5µl Filter Tips Sterile - 10 racks of 384 tips

TH94420053 Westburg each 752.1 EUR

ClipTip 384 30µl Filter Tips Sterile - 10 racks of 384 tips

TH94420103 Westburg each 752.1 EUR

ClipTip 384 125µl Filter Tips Sterile - 10 racks of 384 tips

TH94420153 Westburg each 746.65 EUR

ClipTip 1250µl Filter Tips Sterile reload - 8 insets of 96 tips

TH94420818 Westburg each 111.73 EUR

MultiGuard 200 µl Filter Tips Rack 10x96

MU14220 Westburg each 88.29 EUR

MultiGuard 100 µl Filter Tips Rack 10x96

MU36060 Westburg each 88.29 EUR

D.A.R.T.'S Filter Tips 100µl, 384 head, Sterile (7680)

MA5328 Westburg each 2577.85 EUR

D.A.R.T.'S Filter Tips 300µl, 96 head, Sterile (1920)

MA5518-11 Westburg each 418.02 EUR
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