Relationship between neutrophil lymphocyte ratio and red blood cell distribution width and respiratory failure in COPD patients.

The neutrophil lymphocyte ratio (NLR) and red blood cell distribution width (RDW) have been repeatedly demonstrated to be associated with risk of severity, progression, and prognosis of chronic obstructive pulmonary disease (COPD), but data on respiratory failure (RF) in patients with COPD are very limited. This study aimed to examine the relationship between NLR and RDW and the incident RF in patients with COPD. This is a retrospective study that reviewed data by examining the hospitalization medical records to identify those who were admitted with a diagnosis of COPD. Based on whether RF occurred during index hospitalization, patients were classified as COPD group and COPD combined with RF group. Also, healthy controls of the same age and sex were enrolled in a 1:1 ratio as the COPD group. Univariate comparisons were performed between three groups to examine differences. With the COPD group as reference, multivariable logistic regression was formed to identify the relationship between NLR and RDW and RF, with adjustment for multiple covariates. There were 136 healthy controls, 136 COPD patients and 62 patients with COPD combined with RF included for analysis. There was a significant difference for eight variables, including age, WBC, neutrophil, NLR, RDW, platelet, PLR, and CRP. The Spearman test showed the significant correlation between NLR and WBC (correlation coefficient, 0.38; P = .008), NLR and RDW (correlation coefficient, 0.32; P = .013), and NLR and CRP level (correlation coefficient, 0.54; P < .001). The multivariable logistic regression showed that age (every additional 10 years) (OR, 1.785), NLR (OR, 1.716), RDW (OR, 2.266), and CRP (OR, 1.163) were independently associated with an increased risk of RF. This study demonstrated the independent associative effect of NLR and RDW with RF in patients with COPD, exhibiting the potential clinical role in evaluating the progress of COPD to RF.

Covalent adduct formation of histone with organophosphorus pesticides in vitro.

It is established that organophosphorus pesticide (OPP) toxicity results from modification of amino acids in active sites of target proteins. OPPs can also modify unrelated target proteins such as histones and such covalent histone modifications can alter DNA-binding properties and lead to aberrant gene expression. In the present study, we report on non-enzymatic covalent modifications of calf thymus histones adducted to selected OPPs and organophosphate flame retardants (OPFRs) in vitro using a bottom-up proteomics method approach. Histones were not found to form detectable adducts with the two tested OPFRs but were avidly modified by a few of the seven OPPs that were tested in vitro. Dimethyl phosphate (or diethyl phosphate) adducts were identified on Tyr, Lys and Ser residues. Most of the dialkyl phosphate adducts were identified on Tyr residues. Methyl and ethyl modified histones were also detected. Eleven amino residues in histones showed non-enzymatic covalent methylation by exposure of dichlorvos and malathion. Our bottom-up proteomics approach showing histone-OPP adduct formation warrants future studies on the underlying mechanism of chronic illness from exposure to OPPs.

Advances in understanding grapevine downy mildew: From pathogen infection to disease management.

Plasmopara viticola is geographically widespread in grapevine-growing regions. Grapevine downy mildew disease, caused by this biotrophic pathogen, leads to considerable yield losses in viticulture annually. Because of the great significance of grapevine production and wine quality, research on this disease has been widely performed since its emergence in the 19th century. Here, we review and discuss recent understanding of this pathogen from multiple aspects, including its infection cycle, disease symptoms, genome decoding, effector biology, and management and control strategies. We highlight the identification and characterization of effector proteins with their biological roles in host-pathogen interaction, with a focus on sustainable control methods against P. viticola, especially the use of biocontrol agents and environmentally friendly compounds.

Visible-Light-Mediated Annulation/Thiolation of 2-Isocyanobiaryls with Disulfides to Organoylthiophenanthridines Derivatives.

A visible-light-induced annulation/thiolation of 2-isocyanobiaryls with dialkyl(aryl)disulfides has been established, delivering a sustainable and atom-economic route to 6-organoylthiophenanthridines with wild functional group tolerance and good to excellent yields under oxidant-, base-, and transition-metal-free conditions.

Dual-comb generation with counter-propagating self-injection-locked solitons.

Microresonator-based optical frequency combs have been greatly developed in the last decade and have shown great potential for many applications. A dual-comb scheme is usually required for lidar ranging, spectroscopy, spectrometer and microwave photonic channelizer. However, dual-comb generation with microresonators would require doubled hardware resources and more complex feedback control. Here we propose a novel scheme for dual-comb generation with a single laser diode self-injection locked to a single microresonator. The output of the laser diode is split and pumps the microresonator in clockwise and counter-clockwise directions. The scheme is investigated intensely through numerical simulations based on a set of coupled Lugiato-Lefever equations. Turnkey counter-propagating single soliton generation and repetition rate tuning are demonstrated.

Molecular Identification and Pathogenicity of Diaporthe eres and D. hongkongensis (Diaporthales, Ascomycota) Associated with Cherry Trunk Diseases in China.

This study aimed to identify fungal species associated with trunk diseases of sweet cherries (Prunus avium) in several commercial cherry orchards in Beijing, Guizhou and Shandong provinces, China. In total, eighteen fungal strains that fitted well into the species concept of Diaporthe were isolated. Based on both morphological and multi-locus phylogenetic analyses of internal transcribed spacer region (ITS), beta-tubulin (tub-2), calmodulin (Cal) and translation elongation factor 1-α (tef1-α) sequencing data, fourteen isolates were identified as Diaporthe eres, while four isolates were classified as D. hongkongensis. Here, we report D. hongkongensis causing sweet cherry branch dieback disease and, further, we confirmed the host association of D. eres with sweet cherries in China. A pathogenicity assay revealed the ability of both D. eres and D. hongkongensis to cause shoot necrosis and stem lesions on Prunus avium cv. 'Brooks' (mean lesion lengths of 1.86 cm and 1.56 cm, respectively). The optimal temperature for the growth of both Diaporthe species was tested. The optimal growth temperature for D. hongkongensis was 30 °C, and the 25-28 °C temperatures were the most favorable for the growth of D. eres strains. This research advances the understanding of fungal trunk diseases in fruit crops, particularly gummosis and branch dieback disease in Chinese cherry orchards, and will aid growers in making decisions about cultural practices and disease management.

Extended exposure to tetrabromobisphenol A-bis(2,3-dibromopropyl ether) leads to subfertility in male mice at the late reproductive age.

Tetrabromobisphenol A-bis(2,3-dibromopropyl ether) (TBBPA-BDBPE), a commonly used brominated flame retardant as a decabromodiphenyl ether substitute, has been detected in various environmental compartments, but its health hazards remain largely unknown. Our recent study showed that low-dose exposure of male mice to TBBPA-BDBPE from postnatal day (PND) 0 to 56 caused remarkable damage to the microtubule skeleton in Sertoli cells and the blood-testis barrier (BTB) but exerted little effect on conventional reproductive endpoints in adulthood. To investigate whether TBBPA-BDBPE may cause severe reproductive impairments at late reproductive age, here, we extended exposure of historically administrated male mice to 8-month age and allowed them to mate with non-treated females for the evaluation of fertility, followed by a general examination for the reproductive system. As expected, we found that 8-month exposure to 50 µg/kg/d as well as 1000 µg/kg/d TBBPA-BDBPE caused severe damage to the reproductive system, including reduced sperm counts, increased sperm abnormality, histological alterations of testes. Moreover, microtubule damage and BTB-related impairment were still observed following 8-month exposure. Noticeably, high-dose TBBPA-BDBPE-treated mice had fewer offspring with a female-biased sex ratio. All results show that long-term exposure to TBBPA-BDBPE caused severe reproductive impairment, including poor fertility at late reproductive age. It is therefore concluded that slight testicular injuries in early life can contribute to reproductive impairment at late reproductive age, highlighting that alterations in certain non-conventional endpoints should be noticed as well as conventional endpoints in future reproductive toxicity studies.

First Report of Cylindrocladiella peruviana Associated with Grapevine Black Foot Disease in China.

Black foot disease is one of the Grapevine Trunk Diseases (GTDs) that occurs in many grape growing regions and causes vine decline. Black foot disease has been reported in China in 2021 (Ye et al. 2021). In May 2022, serious root rot and nearly half brown necrosis in cross section were observed in several grapevines (Vitis vinifera cv. Cabernet Sauvignon) in Xianyang County, Shaanxi Province, China, with the incidence of 2% in 0.267 hectares. Samples (12-year-old vines) of symptomatic root were collected and taken back to the laboratory. Small fragments from the margin between healthy and diseased tissue were cut into 5 mm × 5 mm pieces. The surface was sterilized using 2% NaOCl for 2 min, followed by 75% ethanol for 30 s and rinsed three times with sterilized water. After the small pieces were dried on sterilized filter paper, they were placed onto potato dextrose agar (PDA) plates with lactic acid at 25°C for 2-3 days. The pure culture was obtained by single spore isolation. In this study, two strains were associated with black foot disease. Colony characteristics were observed in 7-day PDA plates, with cotton wool mycelium and light yellow to brown colony in reverse. Conidia were cylindrical to peanut shaped, 0-1 septa and blunt round at both ends. Size of the conidia was 7.12 to 13.89 × 2.55 to 5.16 µm (average 9.82 × 3.41 µm, n=50). For molecular phylogenetic analysis, genomic DNA of the two strains (JZB3320008 and JZB3320009) was extracted. PCR amplification was performed using four phylogenetic regions (ITS, tub2, tef1 and his3) amplified with primers ITS1/ITS4 (White et al. 1990), T1/Bt2b (O'Donnell and Cigelnik 1997; Glass and Dnoaldson 1995), EF-688F/EF-1251R (Alves et al. 2008) and CYLH3F/CYLH3R (Crous et al. 2004), respectively. Maximum likelihood (ML) inference phylogenetic tree was constructed to confirm the identity of the two strains. ML tree reveals that the two strains clustered with Cylindrocladiella peruviana with 100% bootstrap support value. The sequences of four regions were deposited in GenBank (accession numbers OQ202205-OQ202206 for ITS, OQ225938-OQ225939 for tub2, OQ225936-OQ225937 for tef1 and OQ225934-OQ225935 for his3). Based on the morphological characteristics and molecular phylogenetic analysis, the two strains were identified as C. peruviana. To confirm the pathogenicity, the rooted cuttings (cv. Marselan) in the greenhouse were inoculated by immersing the roots in the conidial suspension (106 conidia/mL; volume, 300 mL) for 30 min, while the control was immersed in sterilized water (volume, 300 mL) for the same time. Nine plants were inoculated with C. peruviana and the same number was used as the control. These grapevines were kept in the greenhouse at 25°C. After 14 days of inoculation, the aboveground of inoculated plants showed symptoms with red leaves, while the control showed no symptoms. After 34 days of inoculation, the inoculated plants showed the reduction of the number of foliage and reduced vigor. They died with brown stem base and vascular discoloration in longitudinal section, while the control showed no symptoms. Cylindrocladiella peruviana was re-isolated by the discoloration regions and the Koch's rule was verified. To our knowledge, the pathogen has been reported in Spain and California (Agustí-Brisach et al. 2012; Koike et al. 2016). This is the first report of Cylindrocladiella peruviana causing grapevine black foot disease in China. We will better diagnose and prevent the disease in the future.

Belowground microbiota analysis indicates that Fusarium spp. exacerbate grapevine trunk disease.

BACKGROUND: Grapevine trunk diseases (GTDs) are disease complexes that are major threats to viticulture in most grapevine growing regions. The microbiomes colonizing plant belowground components form complex associations with plants, play important roles in promoting plant productivity and health in natural environments, and may be related to GTD development. To investigate associations between belowground fungal communities and GTD symptomatic or asymptomatic grapevines, fungal communities associated with three soil-plant compartments (bulk soils, rhizospheres, and roots) were characterized by ITS high-throughput amplicon sequencing across two years. RESULTS: The fungal community diversity and composition differs according to the soil-plant compartment type (PERMANOVA, p < 0.001, 12.04% of variation explained) and sampling year (PERMANOVA, p < 0.001, 8.83%), whereas GTD symptomatology exhibited a weaker, but still significant association (PERMANOVA, p < 0.001, 1.29%). The effects of the latter were particularly prominent in root and rhizosphere community comparisons. Many GTD-associated pathogens were detected, but their relative abundances were not correlated (or were negatively correlated) to symptomatology. Fusarium spp., were enriched in symptomatic roots and rhizospheres compared to asymptomatic counterparts, suggesting that their abundances were positively correlated with symptomatic vines. Inoculation tests revealed that Fusarium isolates, similar to Dactylonectria macrodidyma, a pathogen associated with black foot disease, caused dark brown necrotic spots on stems in addition to root rot, which blackened lateral roots. Disease indices were higher with co-inoculation than single inoculation with a Fusarium isolate or D. macrodidyma, suggesting that Fusarium spp. can exacerbate disease severity when inoculated with other known GTD-associated pathogens. CONCLUSIONS: The belowground fungal microbiota of grapevines varied from soil-plant compartments, the years and whether showed GTD symptoms. The GTDs symptoms were related to the enrichment of Fusarium spp. rather than the relative abundances of GTD pathogens. These results demonstrate the effects of fungal microbiota of roots and rhizospheres on GTDs, while providing new insights into opportunistic pathogenesis of GTDs and potential control practices.

The woody plant-degrading pathogen Lasiodiplodia theobromae effector LtCre1 targets the grapevine sugar-signaling protein VvRHIP1 to suppress host immunity.

Lasiodiplodia theobromae is a causal agent of Botryosphaeria dieback, which seriously threatens grapevine production worldwide. Plant pathogens secrete diverse effectors to suppress host immune responses and promote the progression of infection, but the mechanisms underlying the manipulation of host immunity by L. theobromae effectors are poorly understood. In this study, we characterized LtCre1, which encodes a L. theobromae effector that suppresses BAX-triggered cell death in Nicotiana benthamiana. RNAi-silencing and overexpression of LtCre1 in L. theobromae showed impaired and increased virulence, respectively, and ectopic expression in N. benthamiana increased susceptibility. These results suggest that LtCre1 is as an essential virulence factor for L. theobromae. Protein-protein interaction studies revealed that LtCre1 interacts with grapevine RGS1-HXK1-interacting protein 1 (VvRHIP1). Ectopic overexpression of VvRHIP1 in N. benthamiana reduced infection, suggesting that VvRHIP1 enhances plant immunity against L. theobromae. LtCre1 was found to disrupt the formation of the VvRHIP1-VvRGS1 complex and to participate in regulating the plant sugar-signaling pathway. Thus, our results suggest that L. theobromae LtCre1 targets the grapevine VvRHIP1 protein to manipulate the sugar-signaling pathway by disrupting the association of the VvRHIP1-VvRGS1 complex.

Transcriptomic Analysis of Resistant and Wild-Type Botrytis cinerea Isolates Revealed Fludioxonil-Resistance Mechanisms.

Botrytis cinerea, the causal agent of gray mold, is one of the most destructive pathogens of cherry tomatoes, causing fruit decay and economic loss. Fludioxonil is an effective fungicide widely used for crop protection and is effective against tomato gray mold. The emergence of fungicide-resistant strains has made the control of B. cinerea more difficult. While the genome of B. cinerea is available, there are few reports regarding the large-scale functional annotation of the genome using expressed genes derived from transcriptomes, and the mechanism(s) underlying such fludioxonil resistance remain unclear. The present study prepared RNA-sequencing (RNA-seq) libraries for three B. cinerea strains (two highly resistant (LR and FR) versus one highly sensitive (S) to fludioxonil), with and without fludioxonil treatment, to identify fludioxonil responsive genes that associated to fungicide resistance. Functional enrichment analysis identified nine resistance related DEGs in the fludioxonil-induced LR and FR transcriptome that were simultaneously up-regulated, and seven resistance related DEGs down-regulated. These included adenosine triphosphate (ATP)-binding cassette (ABC) transporter-encoding genes, major facilitator superfamily (MFS) transporter-encoding genes, and the high-osmolarity glycerol (HOG) pathway homologues or related genes. The expression patterns of twelve out of the sixteen fludioxonil-responsive genes, obtained from the RNA-sequence data sets, were validated using quantitative real-time PCR (qRT-PCR). Based on RNA-sequence analysis, it was found that hybrid histidine kinase, fungal HHKs, such as BOS1, BcHHK2, and BcHHK17, probably involved in the fludioxonil resistance of B. cinerea, in addition, a number of ABC and MFS transporter genes that were not reported before, such as BcATRO, BMR1, BMR3, BcNMT1, BcAMF1, BcTOP1, BcVBA2, and BcYHK8, were differentially expressed in the fludioxonil-resistant strains, indicating that overexpression of these efflux transporters located in the plasma membranes may associate with the fludioxonil resistance mechanism of B. cinerea. All together, these lines of evidence allowed us to draw a general portrait of the anti-fludioxonil mechanisms for B. cinerea, and the assembled and annotated transcriptome data provide valuable genomic resources for further study of the molecular mechanisms of B. cinerea resistance to fludioxonil.

Identification and Characterization of Colletotrichum Species Associated with Cherry Leaf Spot Disease in China.

Leaf spot is a common and serious disease of sweet cherry worldwide and has become a major concern in China. From 2018 to 2020, disease investigations were carried out in Beijing City, Sichuan, Shandong, and Liaoning Provinces in China, and 105 Colletotrichum isolates were obtained from diseased samples. Isolates were identified by morphological characterization coupled with multigene phylogenetic analyses based on six loci (internal transcribed spacer region, glyceraldehyde 3-phosphate dehydrogenase, calmodulin, actin, chitin synthase, and ß-tubulin). A total of 13 Colletotrichum species were identified, namely Colletotrichum aenigma, C. gloeosporioides, C. fructicola, C. siamense, C. temperatum, C. conoides, C. hebeiense, C. sojae, C. plurivorum, C. karsti, C. truncatum, C. incanum, and C. dematium. Among these, C. aenigma (25.7%) was the most prominent species isolated from diseased leaves, followed by C. gloeosporioides (19.0%) and C. fructicola (12.4%). Pathogenicity was tested on detached leaves of cv. 'Tieton' and 'Summit' and young seedlings of cv. 'Brooks' under greenhouse conditions. All 13 species were pathogenic to cherry leaves, and C. aenigma, C. conoides, and C. dematium showed high levels of virulence. Seedlings inoculated with the isolates developed similar symptoms to those seen in the orchards. This study provides the first reports for 11 of the 13 Colletotrichum species on sweet cherry in the world, excluding C. aenigma and C. fructicola. This is the first comprehensive study of Colletotrichum species associated with cherry leaf spot in China, and the results will provide basic knowledge to develop sustainable control measures for cherry leaf spot.

Postnatal exposure to low-dose tetrabromobisphenol A increases the susceptibility of mammal testes to chemical-induced spermatogenic stress in adulthood.

There is increasing data showing that some environmental chemicals can increase susceptibility to follow-up stress or injuries, possibly thereby contributing to certain clinical and subclinical diseases. Previous studies reported that tetrabromobisphenol A (TBBPA), one of the most used brominated flame retardants, exerted little male reproductive toxicity in terms of conventional endpoints but affected testis development and thereby caused testicular alterations at the molecular and cellular levels. Here, we aimed to reveal whether developmental exposure to TBBPA can increase testicular susceptibility to follow-up stress in adulthood. For this purpose, newborn mice were exposed to 50 or 500 µg/kg/d TBBPA for 56 days to confirm adverse effects on testes, followed by a single intraperitoneal injection of 3 mg/kg busulfan (BSF) to induce spermatogenic stress. Four weeks after BSF injection, TBBPA-treated mice exhibited severe pathological alterations, including reduced testis weight, damaged testicular histological structure, declined sperm count, apoptosis of spermatogenic cells, while no remarkable damage was observed in mice without historical exposure to TBBPA. These results demonstrate that historical exposure to TBBPA, either 50 or 500 µg/kg/d, increased the susceptibility of mouse testes to BSF-induced spermatogenic stress, resulting in severe adverse reproductive outcomes. Further analysis indicates that TBBPA-caused microtubule and microfilament damage, along with spermatogonia and spermatocyte reduction, could contributed to the increased susceptibility of testes, suggesting that these non-conventional reproductive lesions caused by chemicals should not be ignored. This is the first study to investigate the reproductive hazard of chemicals from the perspective of testicular susceptibility to stress, thereby opening a new avenue to identify environmental chemicals possibly contributing to male infertility and subfertility.

First Report of Bacterial Wilt Caused by Enterobacter mori of Strawberry in Beijing, China.

Strawberry (Fragaria × ananassa) is an economically important crop in China, and a crucial part of urban agriculture in Beijing. In November 2020, wilt symptoms were observed in strawberry seedlings in several greenhouses in the Pinggu District of Beijing city (40.14° N; 117.12° E). The average disease incidence was 20%. Water-soaked lesions appeared along the veins of diseased strawberry leaves and bacterial ooze was also present on severely affected leaves. Bisected crowns had a reddish-brown discoloration in the xylem which later turned black. Three diseased strawberry seedlings were collected for pathogen identification. Isolations were conducted from stem, crown, leaf, and roots of diseased strawberry plants. Samples were surface sterilized by immersion in 70% ethanol for 30 s and rinsed three times with sterile distilled water, before being placed on potato dextrose agar (PDA) medium and incubated at 28℃. Several bacterial colonies grew on the medium after 24 h. Colonies were then purified on Lysogeny broth (LB) agar plates using the streak plate method. Twenty-nine isolates were obtained from 36 diseased tissue samples, which were from stem(10), crown(12), leaf(2) and roots(5) separately. All isolates appeared white, round, opaque and smooth on LB plates. To identify the isolates, genomic DNA was extracted from nine purified bacterial colonies (CM1 to CM9). The fragments of atpD, gyrB, infB and rpoB gene were amplified and sequenced with primers atpD 01-F/ atpD 02-R, gyrB 01-F/ gyrB 02-R, and infB 01-F/ infB 02-R (Brady et al. 2008) and RpoB-F/ RpoB-R (Mollet et al. 1997), respectively. All atpD, gyrB, infB and rpoB sequences belonging to the isolates were identical. The sequences of atpD, gyrB, infB and rpoB gene of isolates CM1 and CM3 were deposited in GenBank under accession numbers ON055247, ON055248, ON055249, ON055250, ON055251, ON055252, OL771192 and OL771193. BLAST searches were conducted with the sequences of atpD, gyrB, infB and rpoB. The atpD, gyrB, infB and rpoB sequences of the obtained isolate showed 99.53%, 99.06%, 99.19% and 99.80% identity with the corresponding sequences of Enterobacter mori strains, respectively. Phylogenetic analysis was performed using the maximum likelihood (ML) method with the CIPRES Science Gateway platform (http://www.phylo.org/) based on the combined atpD, gyrB, infB and rpoB sequences (Brady et al. 2013; Palmer et al. 2018). In the phylogenetic tree, the isolates were clustered together with E. mori strain LMG 25706. To confirm the pathogenicity, 200 µL of bacterial suspensions (108 CFU/mL) of the two isolates were injected into the crown of six healthy Fragaria × ananassa cv. Bennihope strawberry seedlings respectively with 1 mL sterilized syringe, and the control seedlings were injected with sterile water. The seedlings were kept in a moist chamber (28°C, 16-h light and 8-h dark period) for 2 days. Then all the seedlings were transferred to the greenhouse with conditions similar to those where the diseased plants were collected. Forty days after inoculation, old leaves started to wilt and leaf midvein necrosis, along with xylem discoloration, was observed in inoculated plants. No symptoms were observed in the control group. Pathogenicity tests were conducted three times with similar results. The bacteria were re-isolated from the symptomatic diseased strawberry plants and confirmed as E. mori by morphological and sequence analyses as above, fulfilling Koch's postulates. To the best of our knowledge, this is the first report of strawberry bacterial wilt caused by E. mori. Due to the significant crop loss from this disease, more research is needed in epidemiology and disease management.

First Report of Colletotrichum theobromicola Causing Anthracnose on Euonymus japonicus in China.

Euonymus japonicus, a broad-leaved evergreen tree, is widely planted in the parks and landscapes in the world (Huang et al. 2016). In 2019, anthracnose lesions were found on leaves of E. japonicus with 4~15% incidence from the Wufulinglong park (116°28' E, 39°94' N) in the Haidian District of Beijing, China. Irregular chlorotic spots appeared on the surface of the leaves, then larger necrotic spots with numerous acervuli gradually formed, and finally the infected leaves dried and dropped, detracting from the aesthetic of the landscape. To identify the pathogen, six representative leaves with typical symptoms in Wufulinglong park from three plants were collected and diseased tissue was cut into 2 mm × 2 mm pieces, disinfested in 75% ethanol for 20 s, rinsed twice in sterile water, plated onto potato dextrose agar (PDA), which were then incubated at 25℃ under 12 h photoperiod. A total of 24 morphologically identical isolates were obtained from the samples. Two of these isolates were randomly selected for further analysis to confirm their identity. The cultures (HDwfll1907HY and HDwfll1908HY) were deposited in the culture collection of the Beijing Academy of Agriculture and Forestry Sciences, China. Furthermore, genomic DNA was extracted and the sequences of internal transcribed spacer (ITS) regions, calmodulin (CAL), beta tubulin (TUB2), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), actin (ACT) and chitin synthase (CHS) were amplified using the primers ITS1/ITS4 (Gardes et al. 1993, White et al. 1990), CL1C/CL2C (Weir et al. 2012), T1/Bt2b (Glass et al. 1995, O'Donnell et al. 1997), GDF1/GDR1 (Guerber et al. 2003), ACT-512F/783R and CHS-79F/345R (Carbone et al. 1999), respectively. Newly obtained sequences were deposited into GenBank with accession numbers MZ229612~13 and MZ305422~31. Phylogenetic tree based on the assessed gene loci revealed that both strains clustered closely with C. theobromicola. The strain HDwfll1907HY was randomly selected for morphological description and pathogenicity assay. The colony was initially light gray with dense aerial mycelia on PDA, which later turn to gray with grayish green on the reverse side of plates. Conidiogenous cells were cylindrical, arising from swollen hyphae. Conidia were single-celled, hyaline, subcylindrical to clavate, often with broadly rounded ends, 13.78-21.99×3.47-5.44 µm (n=50). Both phylogenetic analysis and morphology support the identification of two strains as C. theobromicola. Pathogenicity tests were performed on three healthy one-year-old E. japonicus plants using the randomly selected isolate HDwfll1907HY. The leaves were sprayed with 20 mL of conidial suspension (107 conidia/mL), sterilized water inoculation under the same condition was used as control. All the treated plants were incubated in the incubator at 25°C and 90% relative humidity under 12 h photoperiod. After 18 d, all the leaves treated with the conidial suspension showed typical symptoms of anthracnose, similar to those in the field, whereas the control leaves remained symptomless. The disease assay was replicated three times for consistency. The same fungus was reisolated from the infected leaves and identified as C. theobromicola. This is the first report of C. theobromicola causing anthracnose on E. japonicus, which provides the foundation for the management of anthracnose on E. japonicus.

First Report of Fusarium commune Associated with a Root Rot of Grapevine in China.

During last decade, species belonging to Fusarium, Rosellinia, Armillaria and Dactylonectria were confirmed as phytopathogens causing grapevine root diseases (Highet and Nair 1995; Teixeira et al. 1995; Calamit et al. 2021; Ye et al. 2021). From 2020 to 2021, grapevine decline was observed in several vineyards in Beijing region, China. Leaves turned yellow with brown necrotic patches and roots were poorly developed, which was suggesting that a root disease was affecting the vines. The disease incidence was up to 10-15% of the vineyard for sample collection. Symptomatic root samples (cv. 'Red Globe') were collected and tissue fragments were excised at the margin of the symptomatic tissue in order to isolate the potential pathogen. The surface was sterilized using 1.5% sodium hypochlorite for 3 min, followed by 70% ethanol for 30 sec, and rinsed three times with sterile distilled water (Ye et al. 2020). Tissues were dried and placed onto potato dextrose agar (PDA) plates, followed by incubation at 25°C under dark conditions for 3 d. Hyphal tips of fungi growing from the samples were transferred onto new PDA plates and incubated until they produced conidia. Next, single spores were transferred onto new PDA plates and incubated at 25°C for 7 d. Eight isolates numbered with JZB3110172 to JZB3110179 were obtained and their culture characters were identical, and the re-isolation percentage was 100%. Colonies were white to orange, with abundant fluffy aerial mycelium. Macroconidia were fusiform with a slightly curved apical cell and a foot-shaped basal cell, and measured 16.2-43.2 µm × 2.7-4.9 µm (n=50); microconidia were cylindrical, straight to slightly curved, 5.1-13 × 2.1-3.9 µm (n=50). Morphological characters of the isolates resembled to Fusarium commune (Skovgaard et al. 2003). For phylogenetic analysis, genomic DNA of the eight isolates was extracted with a DNA extraction kit (DNeasy plant Mini Kit). PCR amplifications of two phylogenetic markers (EF-1α and RPB2) were performed using the primers EF-1/EF-2 (Geiser et al. 2004) and RPB2-5F2/RPB2-7cR (Liu et al. 1995), respectively. The sequences were deposited in GenBank ON457645 to ON457660. Comparison of base pairs on Maximum likelihood (ML) phylogenetic analysis was conducted using the RAxML-HPC2 tool on XSEDE on the CIPRES Science Gateway platform (http://www.phylo.org/). The sequences of EF-1α and RPB2 of the eight isolates showed 99 to 100% similarity to the reference isolates of F. commune. In the phylogenetic tree, the isolates from this study clustered with the representative strains of F. commune (NRRL 52764, NRRL 28387 and NRRL 52744). Based on morphological characters and the phylogenetic results, all of isolates were identified as F. commune. Koch's postulates were conducted on healthy, 3-month-old grapevine 'Marselan'. Plant roots were trimmed with sterile scissors and then soaked in a spore suspension (1.0 × 106 spores mL-1) or sterile water (as the control) for 30 min. The inoculated grapevines were transplanted into pots and kept in the greenhouse at 25°C. After 14 days, all the inoculated plants developed necrosis and turned yellow. No symptoms were observed on the control. Koch's postulates were fulfilled by re-isolating the fungus from necrotic root tissues. The isolates obtained from the artificially infected tissue were identified again as F. commune based on morphological and molecular analyses. Overall, this is the first report of F. commune associated with a grapevine root rot globally, which lays a foundation for further study and developing disease control methods.

Fusarium Species Associated with Cherry Leaf Spot in China.

Sweet cherry is an important fruit crop in China with a high economic value. From 2019 to 2020, a leaf spot disease was reported, with purplish-brown circular lesions in three cultivating regions in China. Twenty-four Fusarium isolates were obtained from diseased samples and were identified based on morphological characteristics and multi-locus phylogenetic analyses. Seven species, including F. luffae (7 isolates), F. lateritium (6 isolates), F. compactum (5 isolates), F. nygamai (2 isolates), F. citri (2 isolates), F. ipomoeae (1 isolate) and F. curvatum (1 isolate) were identified. The pathogenicity test showed that analyzed strains of all species could produce lesions on detached cherry leaves. Therefore, Fusarium was proved to be a pathogen of cherry leaf spots in China. This is the first report of F. luffae, F. compactum, F. nygamai, F. citri, F. ipomoeae and F. curvatum on sweet cherry in China.

Effects of low-dose bisphenol AF on mammal testis development via complex mechanisms: alterations are detectable in both infancy and adulthood.

Despite growing concern about adverse effects of bisphenol AF (BPAF) due to its endocrine disrupting properties, there is a lack of toxicity data from low-dose studies and direct evidence linking its adverse effects to endocrine disrupting properties. Here, we investigated the effects of gestational and postnatal exposure to BPAF through drinking water (0.15-15 µg/mL, equivalent to the daily intake of ~ 50 and 5 mg/kg/day) on testis development in mice. We found that like mestranol, 5 mg/kg/day BPAF resulted in remarkable decreases in multiple male reproductive parameters in adulthood, such as the sperm number and serum testosterone level. Notably, 50 µg/kg/day BPAF also caused significant decreases in anogenital distance (AGD), the luteinizing hormone level and spermatocyte number, along with declining trends in sperm number and the serum levels of testosterone and follicle-stimulating hormone. In line with the adverse outcomes observed in adulthood, on postnatal day (PND) 9, we also observed BPAF-caused dose-dependent alterations, including reduced AGD, seminiferous tubule area and numbers of total germ cells, spermatocytes and Leydig cells, coupled with down-regulated expression of male-biased genes in testes. Even when exposure to 5 mg/kg/day BPAF as well as MES was initiated from PND 0, similar alterations in male reproductive parameters were also found on PND 9, along with a decrease in the GnRH content in the hypothalamus; moreover, testicular alterations and the reduction in AGD were partly antagonized by the estrogen receptor (ER) antagonist ICI 182,780, but the reduction of GnRH production was not done, showing that the effects of BPAF on testis development may be partially mediated by ER signaling. In conclusion, all the findings demonstrate that low-dose BPAF can partly disrupt mammal testis development and cause adverse testicular outcomes in adulthood, indicating a potential reproductive risk to mammals including humans. Importantly, our finding that developmental alterations elicited by BPAF have been detectable on PND 9 provides important motivation for the development of effective methods for early detection of adverse effects of estrogenic chemicals on testis development.

Lasiodiplodia theobromae protein LtScp1 contributes to fungal virulence and protects fungal mycelia against hydrolysis by grapevine chitinase.

The LysM proteins have been reported to be important for the virulence and host immunity suppression in herbaceous plant pathogens, whereas far less information is documented in the woody plant pathogen Lasiodiplodia theobromae. To investigate the functional mechanism of LysM protein in L. theobromae, one gene LtScp1 was cloned and characterized detailedly in the current study. Transcription profiling revealed that LtScp1 was highly expressed at the infectious stages. Compared to wild type, overexpression and silencing of LtScp1 in L. theobromae led to significantly increased and decreased lesion areas, respectively. Moreover, LtScp1 was determined to be a secreted protein via a yeast signal peptide trapping system. Interestingly, LtScp1 was confirmed to be modified by the N-glycosylation, which is necessary for the homodimerization of LtScp1 molecules. Furthermore, it was found that LtScp1 interacted with the grapevine chitinase VvChi4 and interfered the ability of VvChi4 to bind chitin. Collectively, these results suggest that LtScp1 functions as a virulence factor to protect the fungus from degradation during the infection.

An NmrA-Like Protein, Lws1, Is Important for Pathogenesis in the Woody Plant Pathogen Lasiodiplodia theobromae.

The NmrA-like proteins have been reported to be important nitrogen metabolism regulators and virulence factors in herbaceous plant pathogens. However, their role in the woody plant pathogen Lasiodiplodia theobromae is less clear. In the current study, we identified a putative NmrA-like protein, Lws1, in L. theobromae and investigated its pathogenic role via gene silencing and overexpression experiments. We also evaluated the effects of external carbon and nitrogen sources on Lws1 gene expression via qRT-PCR assays. Moreover, we analyzed the molecular interaction between Lws1 and its target protein via the yeast two-hybrid system. The results show that Lws1 contained a canonical glycine-rich motif shared by the short-chain dehydrogenase/reductase (SDR) superfamily proteins and functioned as a negative regulator during disease development. Transcription profiling revealed that the transcription of Lws1 was affected by external nitrogen and carbon sources. Interaction analyses demonstrated that Lws1 interacted with a putative GATA family transcription factor, LtAreA. In conclusion, these results suggest that Lws1 serves as a critical regulator in nutrition metabolism and disease development during infection.