First Report of Sphingobacterium multivorum Causing Bacterial Rot of Cauliflower mushroom (Sparassis latifolia) in China.

Cauliflower mushroom (Sparassis latifolia), is widely distributed in Australia, North America, Europe, and East Asia (Bashir et al., 2020). It is known for its medicinal significance due to the availability of various pharmacological substances and their use in health supplements (Bashir et al., 2017). In recent years, with the development of artificial cultivation technology, S. latifolia has been industrialized in China, with an annual output value 50 million dollars. In March 2023, approximately 15% of S. latifolia showed obvious bacterial rot in mushroom hothouse (about 0.05 ha), located in Shuangliu county, Sichuan province, China (104°7'51"N, 30°25'2"E). The affected parts appear water-soaked, and become sunken and softened as the disease progresses. In the finally, all the fruiting body tissues turn into paste, with colors pale yellow, and have a foul smell. The pathogen was isolated from the margin of the lesions by dilution and streaking techniques onto Nutrient Agar, and incubated at 28℃ in the dark for 2-3 days. A single colony was re-streak for purification. Eight isolates were obtained from five samples collected randomly. The representative three isolates were selected for further characterization. For pathogenicity testing, ten health fruit bodies of S. latifolia were selected (for per isolate). Bacterial suspensions (1 × 107 CFU/ml) of the three isolates were applied to the fruiting body until wet, sterile water was used as controls. All the S. latifolia were maintained at 19±1℃, 85-100% relative humidity, and 18 h of light in the mushroom hothouse. Three days later, the inoculated fruiting bodies developed yellow color, and appear water-soaked, five days later, fruiting body gradually turn to soft and part turn to rot, seven days later, the fruiting body tissues completely turn into paste with a foul smell. The symptoms exhibited were similar to those of the original diseased fruiting bodies, while the control group remained healthy. The same bacterial were re-isolated from the infected fruiting bodies and subsequently identified by morphological characteristics and DNA sequenced. The pathogenicity test was conducted three times, each yielding similar results. The colonies of the pathogen are gram-negative rods, medium sized, convex, smooth, opaque, turning yellow after several days at a temperature 28℃. For molecular identification, the DNA of the representative three isolates was extracted using a Bacterial Genomic DNA Extraction Kit (Solarbio, Beijing). The 16S rRNA genes were amplified and sequenced with the primer 27F/1492R (Lane et al., 1985). Finally, the sequences were identical. The generated representative sequence was deposited in GenBank with accession number OR399122. BLASTn analysis showed 100% identity (1404/1404 bp) with previously deposited sequence (accession number CP068224) of S. multivorum FDAARGOS in GenBank. Based on the maximum likelihood method, phylogenetic analysis revealed 100% bootstrap support values with S. multivorum. Finally, the bacterium was identified as S. multivorum. This is the first report of S. multivorum causing bacterial rot of mushroom. The fruiting body of S. multivorum consists of multiple folded flat lobes, which are thin and have large surface area, may facilitate the infection of S. multivorum. Sphingobacterium sp. are named for their synthesize sphingolipids, which play an important role in bacterial infection (Kunz et al., 2019). These results will contribute to developing control strategies for this disease.

Comparative Transcriptome Analysis of Candidate Genes Associated with Mycelia Growth from a He-Ne Laser with Pulsed Light Mutant of Phellinus igniarius (Agaricomycetes).

A mutant Phellinus igniarius JQ9 with higher mycelial production was screened out by He-Ne laser with pulsed light irradiation, the mechanism underlying the higher mycelial production is still unknown. This study aims to obtain a comprehensive transcriptome assembly during the Ph. igniarius liquid fermentation and characterize the key genes associated with the mycelial growth and metabolism in Ph. igniarius JQ9. Our transcriptome data of Ph. iniarius JQ9 and the wild strain were obtained with the Illumina platform comparative transcriptome sequencing technology. The results showed that among all the 346 differentially expressed genes (DEGs), 245 were upregulated and 101 were downregulated. Candidate genes encoding endoglucanase, beta-glucosidase, cellulose 1,4-beta-cellobiosidase, glycoside hydrolase family 61 protein, were proposed to participate in the carbohydrate utilization from KEGG enrichment of the starch and sucrose metabolism pathways were upregulated in Ph. igniarius JQ9. In addition, three candidate genes encoding the laccase and another two candidate genes related with the cell growth were higher expressed in Ph. igniarius JQ9 than in the wild type of strain (CK). Analysis of these data revealed that increased these related carbohydrate metabolism candidate genes underlying one crucial way may cause the higher mycelia production.

First Report of Lecanicillium aphanocladii Causing Rot of Sparassis crispa in China.

Sparassis crispa, also known as cauliflower mushroom, is a new popularly edible mushroom in China, also a medicinal mushroom, which possesses various biological activities, such as immunopotentiation, anti-diabetes, anti-cancer, and anti-inflammatory effects. (Han et al., 2018). In recent years, the artificial cultivation of S. crispa has gained considerable public attention in China. In 2023, approximately 20% of S. crispa (about 0.05 ha of the planting area) showed obvious rot with white molds symptoms in mushroom hothouse, located in Shuangliu county, Sichuan province, China (GPS, 104°7'51"N, 30°25'2"E). Infected fruiting bodies were covered by white mycelia that later turned red or fuchsia. In the final stages of infection, the S. crispa fruiting bodies turned dark red or brown before rotting. The pathogen was isolated from the margin of the lesions by plating onto potato dextrose agar (PDA), and incubated at 25℃ in the dark for a week. Five pure culture fungal isolates were obtained. Collected isolates with similar morphology were described as Lecanicillium spp. (Zare et al., 2001). The colonies were raised, covered with white, the reverse side were violet brown, produced diffusing reddish-purple pigment. Conidiogenous cells produced singly, in pairs, verticillate or in dense irregular clusters on prostrate hyphae, at first flask-shaped, tapering into threadlike neck, with a size of 3.0-6.2×0.8-2.2 µm. Conidia were solitary, oval to subglobose, and 2.3-4.0×1.1-2.1 µm in size, similar to L. aphanocladii (Higo et al., 2021). For pathogenicity testing, ten fruiting bodies of S. crispa (planted in the bottles) were selected. Fungal cake of the isolate Bx-Ljb of L. aphanocladii were applied to the fruiting body of S. crispa, whereas pieces of sterile PDA medium were used as controls. All the bottles were incubated at 19±1℃, 85-100% relative humidity, and 18 h of light in the mushroom hothouse. A week later, the inoculated fruiting bodies developed brown spots and gradually expanding, with symptoms similar to the original diseased fruiting bodies. The controls remained healthy. The same fungus was reisolated from the infected fruiting bodies and subsequently identified by morphological characteristics and DNA sequence analysis. The pathogenicity test was repeated three times with similar results. For molecular identification, the DNA of the isolates was extracted using a Fungi Genomic DNA Extraction kit (Solarbio, Beijing). The SSU, LSU, and TEF1-α genes were amplified with the primer as previously described (Zhou et al., 2018). The generated sequences were deposited in GenBank with accession numbers OR206377, OR206378, and OR204702, respectively. BLASTn analyses showed >99.2% identity with previously deposited sequences of L. aphanocladii. Based on the maximum likelihood method, phylogenetic analysis revealed 99% bootstrap support values with L. aphanocladii. The fungus was identified as L. aphanocladii based on morphological and multilocus phylogenetic analyses. To our knowledge, there are two reports of L. aphanocladii on fruiting bodies of Tremella fuciformis and Morchella sextelata in China, and this is the first report of this fungus causing rot of S. crispa in China. It may be a reminder that the risk of L. aphanocladii in mushroom production in China is gradually increasing. These results will contribute to developing managemental strategies for this disease in S. crispa.

Antioxidant activity of Phellinus igniarius fermentation mycelia contributions of different solvent extractions and their inhibitory effect on α-amylase.

Phellinus spp. have historically been used as traditional medicines to treat various diseases owing to their antioxidant, antitumor, and antidiabetic activities. Polysaccharides exhibit antidiabetic activity. In the present study, the polysaccharide contents of four Phellinus strains were compared. Phellinus igniarius QB72 possessed higher polysaccharide production, stronger 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging, and α-amylase inhibitory activity. The three polysaccharides were sequentially extracted and partially purified from the fermentation mycelia using hot water, 1 % (NH4)2C2O4, and 1.25 M NaOH. Hot water extract polysaccharides exhibited higher DPPH radical scavenging and strong inhibitory activity against α-amylase with an IC50 value of 6.84 ± 0.37 mg/mL. The carbohydrate content of A1 (approximately 17457 Da) was approximately 88.28 %. The α-amylase inhibitory activity IC50 was decreased (3.178 ± 0.187 mg/mL) after DEAE water elution. P. igniarius QB72 hot-water extracts of partially purified polysaccharides have great potential as α-amylase inhibitors in food and medication-assisted additives.

First Report of Leaf blight Caused by Colletotrichum karstii on Banana Shrub (Michelia figo) in Sichuan, China.

Banana Shrub (Michelia figo (Lour.) Spreng.) is widely cultivated in most of southern China (Wu et al, 2008). It can be used to make essential oil and flower tea（Ma et al, 2012; Li et al, 2010）.The first symptoms were observed in Sept. 2020 at a grower's field in Banana shrub seedlings (0.6 ha), Ya'an city (29°30'N, 102°38'E), Hanyuan county. The symptoms re-occurred in May-June of 2021 and became prevalent from August to September. the incidence rate and the disease index were 40% and 22%, respectively. Initially, purplish-brown necrotic lesions appeared at the leaf tip with dark-brown edges. Progressively, necrosis spread, to the middle of the leaves, and the older area turned gray-white. Dark sunken lesions appeared in the necrotic areas and orange conidial masses were visible under humid conditions. Ten isolates were obtained on potato dextrose agar (PDA) from 10 leaf samples using previously described tissue isolation method (Fang et al. 1998). All the 10 isolates exhibited similar morphological characteristics. Grey to white aerial mycelium at the center and in dispersed tufts, with numerous dark conidiomata scattered over the surface, reverse was pale orange with numerous dark flecks corresponding to the ascomata, orange conidial masses were formed from mature conidiomata. Conidia were hyaline, smooth-walled, aseptate, straight, cylindrical, apex round, the contents appearing granular 14.8 to 17.2 × 4.2 to 6.4 µm (average: 16.26 × 4.84 µm, n=30) as Colletotrichum spp. (Damm et al. 2012). For molecular identification, DNA was extracted from a representative isolate HXcjA using a plant genomic DNA extraction kit (Solarbio, Beijing). and the partial sequences of internal transcribed spacer region (ITS, OQ641677), glyceraldehyde-3-phosphate dehydrogenase (GAPDH, OL614009), actin (ACT, OL614007), beta-tubulin (TUB2, OL614011), histone3 (HIS3, OL614010), and calmodulin (CAL, OL614008) were amplified and sequenced using the primer pairs ITS1/ITS4 (White et al. 1990), GDF/GDR (Templeton et al. 1992), ACT-512F/ACT-783R, CAL 228F/CAL 737R (Carbone et al. 1999), TUB1F/Bt2bR, CYLH3F/CYLH3R (Crous et al. 2004), respectively. BLASTn analysis for ITS, GAPDH, CAL, ACT, TUB2 and HIS3 sequences showed ≥99.7% identity to C. Karstii, namely, NR_144790 (532/532 bp), MK963048 (252/252 bp), MK390726 (431/431 bp), MG602039 (761/763 bp), (KJ954424, 294/294 bp), (KJ813519, 389/389 bp), respectively. The fungus was identified as C. karstii based on morphology and a multigene phylogeny. The conidial suspension (1 × 107 conidia/mL) with 0.05% Tween 80 buffer was used for pathogenicity test, by spraying 2-year-old Banana Shrub plants. Ten plants were inoculated with spore suspensions (approximately 2ml per plant). An equal number of plants were sprayed with 0.05% Tween 80 buffer to serve as a control. Fifteen days later, the inoculated plants showed similar symptoms as the original diseased plants but the controls remained asymptomatic. C. karstii was re-isolated from the infected leaves and identified by morphology and a multigene phylogeny. The pathogenicity test was repeated three times with similar results, confirming Koch's postulates. To our knowledge, this is the first report of Banana Shrub leaf blight caused by C. karstii in China. This disease reduces the ornamental and economic value of Banana Shrub, and this work will provide a basis for the prevention and treatment of the disease in the future.

Transcriptome Profiling Reveals Candidate Genes Related to Stipe Gradient Elongation of Flammulina filiformis.

Stipe gradient elongation is an important and remarkable feature in the development of most mushroom fruiting bodies. However, its molecular mechanism has rarely been described. Here, the decreasing trend of stipe elongation and increasing trend of cell length in a gradient from the top to the base of the stipe were determined in a model basidiomycete mushroom: Flammulina filiformis. According to RNA-seq results, 1409 differentially expressed genes (DEGs) were identified among elongation region (ER), transition region (TR), and stable region (SR) samples, including 26 transcription factors (TFs). Based on Short Time-series Expression Miner (STEM) clustering of DEGs, clusters 1 and 3, with obvious expression trends that were consistent with or in contrast to the elongation rate, were screened. The cluster 1 DEGs were mainly involved in the GO cellular component category and KEGG genetic information processing class; however, the cluster 3 DEGs were mainly involved in metabolic processes. Furthermore, qRT-PCR confirmed that key genes of the long-chain fatty acid synthesis pathway were involved in stipe gradient elongation and regulated by NADPH oxidase-derived ROS signaling molecules. These findings provide an essential basis for understanding the molecular mechanism of stipe gradient elongation.

Mechanical Properties and Toxicity Risks of Lead-Zinc Sulfide Tailing-Based Construction Materials.

The leaching residue of the lead-zinc sulfide tailing (LRT) is the only residue generated from the tailing leaching recovery process; it is a typical hazardous material for its high heavy-metal contents and high acidity. Due to the large output of LRT, and because its main components are Ca, Si, and Al, the preparation of building construction materials with LRT was studied. The results showed that when the LRT addition is less than 47%, with the ordinary Portland cement (OPC) and fly ash (FA) added and the curing conditions appropriate, the strength values of the tested specimens meet the M15 Class of the autoclaved lime sand brick standard (GB/T 16753-1997). The carbonization coefficient and drying shrinkage of the specimen were 0.79 and smaller than 0.42, respectively. As the SEM, TG, and XRD analysis have shown, the LRT can chemically react with additives to form stable minerals. The heavy metal contents that were leached out well met the limits in GB5085.3-2007. Based on the high addition of the LRT, the good strength and lower heavy metals were leached out of the prepared test specimen, and the tailing could be reused completely with the leaching recovery and the LRT reuse process. LRT can be used to replace OPC, allowing more sustainable concrete production and improved ecological properties of LRT.