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Lichens exist in an organismal organization of mycobiont, photobiont, and non-photoautotrophic bacteria. These organisms contribute to the growth of lichens even in poor nutrition substrates. However, studies on the isolation and application of non-photoautotrophic bacteria in plant growth and biocontrol are scanty. Therefore, a study was conducted to isolate and evaluate the potential of non-photoautotrophic bacteria from lichen tissues in maize plant growth promotion and biocontrol of plant pathogens (fungi and bacteria). Five bacterial strains were isolated and tested for their ability to produce indole-3-Acetic Acid (IAA). One bacterium named YZCUO202005 produced IAA, siderophores and biofilms, solubilized phosphate and potassium and exhibited extracellular enzymes (cellulases, proteases, amylase, and ß -1,3-Glucanase). Based on the 16S rRNA sequence analysis results, YZCUO202005 was identified as Bacillus licheniformis. The strain inhibited the growth of five pathogenic fungi with an inhibition percent of between 58.7% and 71.7% and two pathogenic bacteria. Under greenhouse conditions, YZCUO202005 was tested for its abilities to enhance maize seed germination, and vegetative growth. Compared with the control treatment, the strain significantly enhanced the growth of stem length (i.e. 18 ± 0.64 cm, 78 ± 0.92 cm), leaf length (i.e. 10 ± 0.36 cm, 57 ± 1.42 cm), leaf chlorophyll levels (i.e., 13 ± 0.40, 40 ± 0.43 SPAD), and root length (i.e, 9.8 ± 2.25 cm, 22.5 ± 6.59 cm). Our results demonstrated that B. licheniformis YZCUO202005 from lichens has the potential to promote plant growth and reduce fungal and bacterial pathogens' growth. Furthermore, the results suggest that lichens are naturally rich sources of plant growth promotion and biocontrol agents that would be used in agriculture.
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[This corrects the article DOI: 10.3389/fchem.2022.856495.].
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Transition metal coordination complexes have provided cancer treatment with new insights to overcome the limitations of current chemotherapeutic agents. Utilization of bifunctional tetrazole-carboxylate ligands with Zn(ii) obtained two self-assembled complexes [Zn(HL1)(bipy)3/2(H2O)]·CH3OH·4(H2O) (1) (H3L1 = 1,3,5-tri(2-carboxymethyltetrazol-5-yl) benzene) and [Zn(L2)2(H2O)2]2·2H2O (2) (HL2 = (5-pyridin-3-yl-tetrazol-2-yl)-acetic acid). The X-ray diffraction results showed that the two complexes displayed a two-dimensional (2D) layer structure and a one-dimensional (1D) layer structure. Nanocoprecipitation with DSPE-PEG-2000 resulted in the formation of complex nanoparticles (NPS) with excellent water dispersion. In vitro CCK-8 assay indicated the two NPs exert high cytotoxicity and sensitivity and a low half-maximum inhibitory concentration (IC50) towards HeLa than HepG2 cells. In addition, the cytotoxicity was also confirmed by live/dead co-stained experiments. The presented experimental results showed the 1 and 2 NPs were capable of inhibiting cell proliferation in vitro and may help design coordination complex-based anticancer candidates for cancer cells.
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Ipomoea nil (Linnaeus) Roth, belonging to the Convolvulaceae family, is an ornamental and medicinal plant in China, which has the function of diuretic and expectorant, and it is also a common weed in the field. In October 2021, a leaf spot disease was observed on I. nil in a field as weed in Jingzhou (N 30° 21', E 112° 19'), Hubei Province, China. Symptoms began as small brown blotches, then developed into oval or irregularly shaped brown necrotic lesions. In severe cases, the leaves were completely necrotic and detached. In the surveyed area, the incidence was between 30% - 40%. To isolate the pathogen, twenty-one leaf pieces (5×5 mm) were cut from the lesion edges of seven symptomatic leaves, disinfected with 70% ethanol and 2% sodium hypochlorite (NaOCl), rinsed with sterile water five times, then placed on three potato dextrose agar (PDA) modified with 50 µg/mL kanamycin, and incubated at 25 °C in dark for 5 days. The isolates were subcultured by transferring mycelium tips. Sixteen fungal strains were isolated from the tissues, and nine of them showed similar morphological characteristics. After cultured 7 days on PDA at 25 °C, the nine colonies were initially white, then turned greenish brown to black in the center and had abundant fine villous aerial mycelia up to 61.5 mm in average diameter. To examine its conidial morphology, the fungi were cultured for 7 days on potato carrot agar (PCA) at 22°C with a light/dark period of 8/16 h. On PCA, conidia were brown or olive-brown, obclavate to obpyriform, with a short beak, one to five transverse and zero to three longitudinal septa. They formed chains of 1 - 8 conidia, with branches. Conidia were 16 - 46 µm long and 8 - 14 µm wide (n=50). These morphological features were similar to those described in Alternaria spp. (Simmons 2007). A single isolate "Q2" was selected for molecular identification because it was the most aggressive in preliminary leaf pathogenicity assays. The internal transcribed spacer (ITS) region of rDNA and histone 3 (H3) gene were amplified and sequenced using primers ITS1/ITS4 (White et al. 1990) and H3-1a/H3-1b (Zheng et al. 2015). BLAST analysis revealed that the sequences (ITS, ON360984; H3, ON375577) were 100% identical to Alternaria alternata (ITS, MK396607; H3, MN840996), respectively. Maximum likelihood analysis based on combined two gene sequences was conducted with an evolutionary model of GTR+I+G under 1000 bootstrap replicates. Phylogenetic tree showed that Q2 and Alternaria alternata 21-5 and BLH-YB-11 located in one clade supported with 99% bootstrap values. The pathogen was identified as A. alternata. To fulfill Koch's postulate, 10 ml conidia (106 spores/ml) of Q2 was sprayed on five healthy seedlings, with sterile distilled water as a control. All leaves were rinsed three times with sterile water before inoculation. All seedlings were placed in sealed plastic bags with air valves, and grown in a greenhouse (25 ± 2 ËC, RH 65%). The test was repeated twice. After 10 days, symptoms typical of brown blotches similar to those observed in the field were observed on leaves of inoculated plants, while control remained healthy. A. alternata was re-isolated from the inoculated symptomatic leaves with a frequency of 100% based on morphological and molecular characters, thus Koch's postulate was confirmed. To the best of our knowledge, this is the first report of A. alternata causing leaf spot on I. nil in China. Our findings extended the host range of the pathogen A. alternata on characteristic plants.
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Cymbidium sinense (Jackson ex Andr.) Willd is a perennial terrestrial plant in the orchid family mainly distributed in China, Japan, India and Southeast Asia that occupies a strong position in the flower market due to its bright green leaves and fragrant flowers (Zhang et al. 2013). Cymbidium sinense is not only valued by people for its ornamental and economic value, but its roots have antiasthmatic medicinal properties (Ke et al. 2004). In August 2020, about 15% stem rot on two-year old C. sinense with varying severity was observed in five nursery gardens located in Enshi city (N 30° 16', E 109° 29'), Hubei province, China. Typical symptoms of C. sinense included roots and inner part of the pseudobulbs changing from white to brown and rotting. Leaves became brown and withered from bottom to top, and there was an obvious blight yellow halo at the junction of diseased and healthy tissue, which eventually caused the whole plant to wilt and die (Fig. 1d). To isolate the pathogen, a total of 15 leaf tissues from the disease-health junction (3 × 3 mm) from 5 individual plants (3 leaves/plant) with symptoms were surface sterilized with 75% ethanol for 30 s and 2% sodium hypochlorite (NaOCl) for 3 min. The sterilized tissue was rinsed three times with sterilized water, and then placed on potato dextrose agar (PDA) for incubation at 28°C in the dark for 5 days. Isolated colonies were subcultured by a hyphal tip protocol. Thirteen fungal isolates were obtained. Through preliminary pathogenicity tests, we found that ten isolates induced leaf blight. These ten isolates with pathogenicity showed similar morphological characteristics, with initial white-flocculent aerial mycelium that secreted a lavender pigment and produced colonies with an irregular edge after 3 days on PDA. The ten strains were cultured on PDA plates at 28â for 5 and 15 days to observe colony and conidial characteristics. The ten strains were identified as Fusarium based on morphological characteristics (Leslie and Summerell 2006). Strain ML0303 was selected for further identification. Macroconidia were falciform, hyaline, slightly pointed at both ends with two to four septa, 24.0 ± 5.6 µm × 4.7 ± 0.8 µm (n = 50). Microconidia were hyaline, oval, globose, with zero to one septum, 5.5 ± 1.3 µm × 2.2 ± 0.5 µm (n = 50) (Fig. 1c). Total genomic DNA of strain ML0303 was extracted with a CTAB protocol (Stenglein and Balatti 2006). The translation elongation factor (EF-1α), RNA polymerase II second largest subunit (RPB2) and ß-tubulin (Tub2) genes were amplified respectively using primer pairs EF1/EF2, RPB2-5F2/RPB2-7cR and T1/T22 respectively (O'Donnell. et al. 2010, O'Donnell. et al. 1997). The EF-1α, RPB2 and Tub2 (accession numbers-MW719874, OL614838, OL689398, respectively) gene sequences were submitted to GenBank. EF-1α, RPB2 and Tub2 sequences of ML0303 showed 99.5% - 100% identity respectively with Fusarium oxysporum in the Genbank and FUSARIUM-ID databases. The multilocus sequence data was used to infer a phylogenetic tree via a Neighbor-joining (NJ), Maximum-likelihood (ML) and Maximum-Parsimony(MP) together with reference sequences from GenBank. The topology of the three trees was similar; only the NJ tree is presented here. Strain ML0303 and F. oxysporum formed a clade supported with high values (NJ/ML/MP: 96,95,97). The results indicated that the fungus was F. oxysporum based on the phylogenetic analysis and BLASTn queries. For pathogenicity tests, conidia of strain ML0303 were collected by rinsing PDA plates. Two-year-old C. sinense grown in plastic pots filled with sterilized autoclaved sandy loam soil were used for the tests. Three pots (two plants/pot) were included in each treatment. Spore suspensions (106spores/ml) of strain ML0303 were used to irrigate the stem-zone of the plants, and sterile water was used as control. The two treatments were placed in a greenhouse and incubated at 28±2â with a 14-hour light/10-hour dark cycle. The experiment was repeated twice. After three weeks, stem rot symptoms were observed on C. sinense inoculated with ML0303, that were the as same as observed in the nursery (Fig. 1e-h). No symptoms were observed on the negative control. Fusarium oxysporum was re-isolated from the infected plants to fulfill Koch's postulates. Partial EF-1α and RPB2 gene sequences were used for molecular identification. Members of the FOSC are notorious for causing many diseases, which includes stem rot of Sulcorebutia heliosa and root rot of Torreya grandis (Garibaldi et al. 2020; Zhang et al. 2016). To our knowledge, this is the first report of stem rot by F. oxysporum on C. sinense in China. The finding of this pathogen provides a clear target for stem rot control.
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Fusarium oxysporum KB-3 had been reported as a mycorrhizal fungus of Bletilla striata, which can promote the seed germination and vegetative growth. Endohyphal bacteria were demonstrated in the hyphae of the KB-3 by 16S rDNA PCR amplification and SYTO-9 fluorescent nucleic acid staining. A strain Klebsiella aerogenes KE-1 was isolated and identified based on the multilocus sequence analysis. The endohyphal bacterium was successfully removed from the wild strain KB-3 (KB-3-), and GFP-labeled KE-1 was also transferred to the cured strain KB-3- (KB-3+). The production of indole-3-acetic acid (IAA) in the culturing broths of strains of KE-1, KB-3, KB-3-, and KB-3+ was examined by HPLC. Their IAA productions were estimated using Salkowski colorimetric technique. The highest concentrations of IAA were 76.9 (at 48 h after inoculation), 31.4, 9.6, and 19.4 µg/ml (at 60 h after inoculation), respectively. Similarly, the three fungal cultural broths exhibited plant promoting abilities on the tomato root and stem growth. The results indicated that the ability of mycorrhizal Fusarium strain KB-3 to promote plant growth was enhanced because its endohyphal bacterium, Klebsiella aerogenes KE-1, produced a certain amount of IAA.
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Copper (II) containing coordination complexes have attracted much attention for chemodynamic therapy (CDT) against cancer cells. In this study, the bimetallic nanobooster [Gd2Cu(L)2(H2O)10]·6H2O was prepared by a solvothermal method based on tetrazole carboxylic acid ligand H4L [H4L = 3,3-di (1H-tetrazol-5-yl) pentanedioic acid]. It showed considerable cytotoxicity toward three kinds of human cancer cells (HeLa, HepG2, and HT29). The MTT assay showed that the IC50 (half-maximal inhibitory concentration) of the complex NPs on HeLa cells (4.9 µg/ml) is superior to that of HepG2 (11.1 µg/ml) and HT29 (5.5 µg/ml). This result showed that [Gd2Cu(L)2(H2O)10]·6H2O NPs can inhibit cell proliferation in vitro and may be potential candidates for chemodynamic therapy. In addition, the cytotoxicity was also confirmed by the trypan blue staining experiment. The results promise the great potential of Gd(III)-Cu(II) for CDT against cancer cells.
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Raspberry (Rubus rosaefolius Smith), also called march bubble or milk bubble, is widely distributed and economically important in China. Raspberries are rich in nutrients such as essential amino acids, vitamin C, dietary fiber, superoxide dismutase (SOD) and minerals (Yang et al. 2019). In May 2019, a leaf spot disease was observed on raspberry in Enshi (N29°07'10', E108°23'12'), Hubei province of China. The symptoms were small dark-brown spots (Fig.1) on over 90% of observed plants. To isolate the pathogen, leaf sections (5 mm × 3 mm) from the border of the symptomatic tissue were cut and sterilized with 75% ethanol for 30 s, followed by 2% sodium hypochlorite (NaClO) for 2 min, and then rinsed three times with sterile water. Leaf sections were placed on potato dextrose agar (PDA) medium amended with 25 µg / ml ampicillin and incubated at 25 °C in the dark for 3 days. Isolated colonies were sub-cultured on PDA by hyphal tip transfer. Eight fungal isolates with similar morphology, abundant white aerial hyphae, were collected. Colonies on PDA grew up to 80 mm in diameter by 7 days at 25 °C. The center of each colony became black (Fig.2). Conidia were unicellular, oval and hyaline. Conidia ranged in size from 14.5 to 19.75 µm × 5.80 to 10.20 µm (n=50) in 20% (v/v) V8 vegetable juice medium. No appressoria were observed. Morphological characteristics are similar to those of Colletotrichum spp. (Moriwaki et al. 2003). Total genomic DNA of a representative isolate S1 was extracted with a CTAB method (Stenglein et al. 2006). Internal transcribed spacer (ITS) region of rDNA, actin (ACT) , beta-tubulin (TUB2) and glyceraldehyde-3-phosphate dehydrogenase (GAPDH) genes were amplified and sequenced with the primer pairs of ITS4 / ITS5, ACT512F / ACT783R, Bt-2a / Bt-2b and GDF1 / GDR1, respectively (Weir et al. 2012). BLAST results showed that ITS, ACT, TUB2 and GAPDH gene sequences (GenBank accession nos. MN498030, MT780498, MT780496 and MT780497, respectively) were 99% identical to those of Colletotrichum boninense Moriwaki, Sato & Tsukiboshi (GenBank accession nos. MF076598, JX009583, JQ005588 and JX009905, respectively). Concatenated sequences of the four genes were used to conduct a phylogenetic analysis using neighbor-joining method in MEGA7 (Toussaint et al. 2016). The isolate S1 clustered with above C. boninense strains retrieved from NCBI database. Therefore, the present isolate S1 was identified as C. boninense. Pathogenicity tests were performed using one-month-old raspberry plants, 24 controls and 30 inoculated. The plants were sprayed with conidial suspension ( 106 conidia / mL) cultured on 20% (v/v) V8 vegetable juice medium for 15 days. The control plants were sprayed with sterile distilled water. All plants were covered with plastic bags 24h to maintain the relative humidity in the field. Fifteen days after inoculation, typical symptoms of brown spots were observed on leaves similar to the disease on field plants, while the leaves from the control group remained asymptomatic. C. boninense was reisolated and identified from inoculated symptomatic leaves. Anthracnose on raspberry caused by Colletotrichum gloeosporioides (Dai et al. 2013) and C. fioriniae (Schoeneberg et al. 2020) has previously been reported. However, to the best of our knowledge, this is the first report of Colletotrichum boninense causing leaf spot on Raspberry in China. If more reports of this pathogen are found on raspberries, then it may be necessary to develop effective management strategies for controlling this disease.
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Akebia trifoliata (Thunb.) Koidz. is a species in the family Lardizabalaceae, which belongs to deciduous woody lianas. It is an important species of plant used in Chinese medicine. In July 2019, a leaf spot disease was observed on A. trifoliata in a nursery garden in Jingzhou (N 30° 21', E 112° 19'), Hubei Province, China. Symptoms initially appeared as small brown spots and subsequently developed into subcircular or irregular-shaped brown necrotic lesions. In severe cases, the leaves became completely necrotic and abscised. The incidence of leaf symptoms on affected plants ranged was between 30% and 40%. To isolate the pathogen, pieces of symptomatic leaves were collected and excised at the margins of lesions, surface disinfected with 70% ethanol and 0.1% HgCl2, rinsed three times with sterile water, placed on potato dextrose agar (PDA) amended with 50 µg/ml kanamycin, and incubated at 28°C in the dark for 3 days. Isolated colonies were subcultured by transferring hyphal tips. Six fungal isolates were isolated from the collected tissues. All six isolates had similar colony morphologies on on PDA and were composed of white flocculent aerial hyphae. The average radial growth rate of colonies after 7 days was 11.2 mm/d. Isolates were later cultured on 20% V8 juice agar for 20 days to encourage sporulation. Sporangia were produced on V8 media and were colorless, inverted, pear-shaped, and terminal, with obvious mastoid, 22 to 34 × 28 to 46µm (n=50); Oospores were light brown, and suborbicular, with thick wall, 18 to 26µm (n=20); Globose chlamydospores were light brown, and suborbicular, 12 to 32µm (n=50). Antheridia were not observed suggesting homothallism. These morphological charactertistics were identical to those reported for Phytophthora nicotianae (Erwin and Ribeiro 1996). We selected a single isolate 'B2', for molecular identification because it was the most aggressive in leaf pathogenicity assays. The internal transcribed spacer (ITS) region of rDNA was amplified and sequenced using primers ITS1/ITS4 (White et al. 1990). BLAST analyis revealed that the ITS sequence (GenBank accession nos. MT472132) was 100% identical to other P. nicotianae strains (GenBank accession nos. KJ754387). To fulfill Koch's postulates, a 50 ml zoospores suspension (106 spores/ml) of B2 was sprayed on the foliage of three 1-year-old healthy seedlings. Sterile distilled water to inoculate control plants. After 10 days, typical symptoms of dark brown spots were observed on all the inoculated leaves, while the control leaves remained asymptomatic. P. nicotianae was re-isolated from the inoculated, symptomatic leaves, thus confirming Koch's hypothesis. The experiment was repeated three times. To the best of our knowledge, this is the first report of P. nicotianae causing leaf spot on A. trifoliata in China. P. nicotianae is a common stramenopile pathogen that infects many plant hosts. The presence of this pathogen in an A. trifoliata nursery should be carefully considered to mitigate possible outbreaks of this disease in other fields in this growing region.
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Chronic stress causes a variety of psychiatric disorders such as anxiety and depression, but its mechanism is not well understood. Tripartite motif-containing protein 32 (TRIM32) was strongly associated with autism spectrum disorder, attention deficit hyperactivity disorder, anxiety and obsessive compulsive disorder based on a study of copy number variation, and deletion of TRIM32 increased neural proliferation and reduced apoptosis. Here, we propose that TRIM32 is involved in chronic stress-induced affective behaviors. Using a chronic unpredictable mild stress mouse depression model, we studied expression of TRIM32 in brain tissue samples and observed behavioral changes in Trim32 knockout mice. The results showed that TRIM32 protein but not its mRNA was significantly reduced in hippocampus in a time-dependent manner within 8 weeks of chronic stress. These stress-induced affective behaviors and reduction of TRIM32 protein expression were significantly reversed by antidepressant fluoxetine treatment. In addition, Trim32 knockout mice showed reduced anxiety and depressive behaviors and hyperactivities compared with Trim32 wild-type mice under normal and mild stress conditions. We conclude that TRIM32 plays important roles in regulation of hyperactivities and positively regulates the development of anxiety and depression disorders induced by chronic stress.
