Morphological aspects and the effectiveness of photodynamic inactivation against Rhizopus oryzae in different life cycles.

Mucormycosis is an extremely aggressive fungal disease with a high mortality rate, especially in people with compromised immune systems. Most cases of mucormycosis are caused by the fungus Rhizopus oryzae. The treatments used are based on high doses of antifungals, associated with surgical resections, when it is possible. However, even with this aggressive treatment, the estimated attributable mortality rate is high. There is therefore a need to develop adjuvant treatments. Photodynamic Inactivation (PDI) may be an auxiliary therapeutic option for mucormycosis. Due to the lack of reports in the literature on the morphology and photodynamic inactivation of R. oryzae, characterization of the fungus using Confocal Microscopy and Transmission Electron Microscopy, and different protocols using Photodithazine® (PDZ), a chlorin e6 compound, as a photosensitizer, were performed. The fungus growth rate under different concentrations and incubation times of the photosensitizer and its association with the surfactant Sodium Dodecyl Sulphate (SDS) was evaluated. For the hyphae, both in the light and dark phases, in the protocols using only PDZ, no effective photodynamic response was observed. Meanwhile with the combination of SDS 0.05% and PDZ, inhibition growth rates of 98% and 72% were achieved for the white and black phase, respectively. In the conidia phase, only a 1.7 log10 reduction of the infective spores was observed. High concentration of melanin and the complex and resistant structures, especially at the black phase, results in a high limitation of the PDI inactivation response. The combined use of the SDS resulted in an improved response, when compared to the one obtained with the amphotericin B treatment.

Rhizopus oryzae causes the leaf rot disease of Epimedium sagittatum in Guizhou, China.

Epimedium sagittatum is a collective term for herbaceous plants belonging to the family Berberidaceae. Their dried leaves and stems have significant therapeutic effects on tumor inhibition, hypertension control, and coronary heart disease (Ke et al. 2023; Zhao et al. 2019). In 2021 and 2022, plants with similar leaf rot symptoms ranging from 30% to 55% was observed on E. sagittatum in Congjiang County, Guizhou province. The initial symptoms of the disease manifest locally on the leaf, with yellowing on the surface edge of the affected tissue, browning in the middle part, and brown-white discoloration in the innermost part (Supplementary Figure S1B). As the disease progresses, the entire infected leaf gradually softens, while the veins remain intact (Supplementary Figure S1C). Ultimately, the leaf withers and dehisces. The nine samples with typical symptoms were collected from Congjiang County, Guizhou province (26.598°N, 106.707°E). Twenty-seven fungi were isolated, including ten isolates of Rhizopus and seventeen isolates of seven other genera. On isolate YYH-CJ-17 many sporangia were formed and turned to a brown-gray to black color on potato dextrose agar medium (PDA) after culturing 5 days under dark at 25 ℃ (Supplementary Figure S2A and S2B). The branches of mycelium were finger-shaped or root-shaped. The sporangium was spherical or nearly spherical, 60-250 µm in diameter, and sporangiospores were elliptical or spherical and 4-8 µm in diameter. The obtained 547 bp ITS fragment (accession OR225970) and 1231 bp EF-1α region (accession OR242258) from isolate YYH-CJ-17 were compared with NR database using the BLAST tool provided by NCBI, which revealed more than 99.5% identity (query cover more than 98%) with the sequences of ITS (accessions MF522822.1) and EF-1α (accession AB281541.1) of Rhizopus oryzae Went & H.C. Prinsen Geerlings (Gao et al. 2022; Zhang et al. 2022). The phylogenetic tree constructed with the ITS and EF-1α gene sequences demonstrates that strain YYH-CJ-17 clusters with R. oryzae in the same branch and the bootstrap value was greater than 99% (Supplementary Figure S3). Based on the morphological characteristics and ITS and EF-1a sequences, the isolate YYH-CJ-17 is identified as R. oryzae. Pathogenicity tests were performed on detached healthy leaves and living plants of E. sagittatum. Healthy leaves of E. sagittatum were subjected to inoculation with isolate YYH-CJ-17 with 5 × 105 CFU mL-1 concentration in sterile culture dishes. The progression of the disease was marked by the gradual softening of the infected leaves and the expansion of the lesions, which ultimately produced black-brown sporangium (Supplementary Figure S4A). Furthermore, the E. sagittatum living plants were sprayed with 5 × 105 CFU mL-1 conidial suspension of isolate YYH-CJ-17, with ddH2O as a negative control, and then were cultivated at 25℃ and 90% humidity for 21 days in the greenhouse. This assay found that the E. sagittatum leaves treated with isolate YYH-CJ-17 exhibited the same symptoms observed on plants in fields (Supplementary Figure S4B). The fungus re-isolated from the inoculated leaves were identified as R. oryzae by ITS sequencing and were blasted with NR database, which highest matched with the sequence of ITS (accessions MF522822.1) mentioned above, thus fulfilling Koch's postulates. R. oryzae has been identified as a causative agent of a diverse array of host diseases, including leaf mildew of tobacco, fruit rot of yellow oleander and pears, and soft rot of bananas (Farooq et al. 2017; Khokhar et al. 2019; Kwon et al. 2012; Pan et al. 2021). To the best of our knowledge, this is the first report of leaf rot on E. sagittatum caused by R. oryzae in China, which will provide clear prevention and management target for the leaf rot disease of E. sagittatum.

Alteration of Chain-Length Selectivity and Thermostability of Rhizopus oryzae Lipase via Virtual Saturation Mutagenesis Coupled with Disulfide Bond Design.

Rhizopus oryzae lipase (ROL) is one of the most important enzymes used in the food, biofuel, and pharmaceutical industries. However, the highly demanding conditions of industrial processes can reduce its stability and activity. To seek a feasible method to improve both the catalytic activity and the thermostability of this lipase, first, the structure of ROL was divided into catalytic and noncatalytic regions by identifying critical amino acids in the crevice-like binding pocket. Second, a mutant screening library aimed at improvement of ROL catalytic performance by virtual saturation mutagenesis of residues in the catalytic region was constructed based on Rosetta's Cartesian_ddg protocol. A double mutant, E265V/S267W (with an E-to-V change at residue 265 and an S-to-W change at residue 267), with markedly improved catalytic activity toward diverse chain-length fatty acid esters was identified. Then, computational design of disulfide bonds was conducted for the noncatalytic amino acids of E265V/S267W, and two potential disulfide bonds, S61C-S115C and E190C-E238C, were identified as candidates. Experimental data validated that the variant E265V/S267W/S61C-S115C/E190C-E238C had superior stability, with an increase of 8.5°C in the melting temperature and a half-life of 31.7 min at 60°C, 4.2-fold longer than that of the wild-type enzyme. Moreover, the variant improved the lipase activity toward five 4-nitrophenyl esters by 1.5 to 3.8 times, exhibiting a potential to modify the catalytic efficiency. IMPORTANCE Rhizopus oryzae lipase (ROL) is very attractive in biotechnology and industry as a safe and environmentally friendly biocatalyst. Functional expression of ROL in Escherichia coli facilitates effective high-throughput screening for positive variants. This work highlights a method to improve both selectivity and thermostability based on a combination of virtual saturation mutagenesis in the substrate pocket and disulfide bond prediction in the noncatalytic region. Using the method, ROL thermostability and activity to diverse 4-nitrophenyl esters could be substantially improved. The strategy of rational introduction of multiple mutations in different functional domains of the enzyme is a great prospect in the modification of biocatalysts.

Diagnosis of mucormycosis using a simple duplex PCR assay: Analysis of 160 clinical samples from COVID-19 patients.

Early diagnosis of mucormycosis, a severe and potentially fatal complication in immunocompromised and COVID-19 patients, is crucial for initiating timely antifungal therapy and reducing infection mortality. In this study, the diagnostic performance of a duplex polymerase chain reaction (PCR) assay was evaluated to detect Mucorales-specific and Rhizopus oryzae-specific targets in 160 clinical samples collected from 112 COVID-19 patients suspected of invasive fungal rhinosinusitis (IFRS). During potassium hydroxide (KOH) direct microscopy, non-septate hyphae were observed in 73 out of 160 samples (45.63%); however, using duplex PCR, 82 out of 160 specimens (51.25%) tested positive. Among the positive PCR samples, 67 (81.71%) exhibited a double band (both 175 and 450 base pairs [bp]) indicating the presence of R. oryzae, and 15 (18.29%) showed only a single band (175 bp), suggesting the presence of non-R. oryzae Mucorales. DNAs from 10 microscopically negative samples and 4 samples with septate hyphae in microscopy were successfully amplified in PCR. Considering Calcofluor white fluorescence microscopy as the gold standard for laboratory diagnosis of mucormycosis, the duplex PCR assay utilized in this study exhibited a sensitivity of 93.88%, a specificity of 100%, a negative predictive value of 91.18%, and a positive predictive value of 100% for detecting mucormycosis in IFRS specimens. The duplex PCR assay demonstrated higher sensitivity compared to direct examination with KOH (82 vs. 73) and culture (82 vs. 41), enabling rapid detection/identification of Mucorales even in samples with negative culture or in biopsies with only a few hyphal elements.

Early diagnosis of mucormycosis, a severe complication in COVID-19 patients, is critical for reducing the mortality of the infection. In this study, a sensitive and rapid PCR assay to detect all Mucorales and delineate Rhizopus oryzae was developed and assessed to improve the diagnosis of mucormycosis.

Development of a Strategy for L-Lactic Acid Production by Rhizopus oryzae Using Zizania latifolia Waste and Cane Molasses as Carbon Sources.

As a biodegradable and renewable material, polylactic acid is considered a major environmentally friendly alternative to petrochemical plastics. Microbial fermentation is the traditional method for lactic acid production, but it is still too expensive to compete with the petrochemical industry. Agro-industrial wastes are generated from the food and agricultural industries and agricultural practices. The utilization of agro-industrial wastes is an important way to reduce costs, save energy and achieve sustainable development. The present study aimed to develop a method for the valorization of Zizania latifolia waste and cane molasses as carbon sources for L-lactic acid fermentation using Rhizopus oryzae LA-UN-1. The results showed that xylose derived from the acid hydrolysis of Z. latifolia waste was beneficial for cell growth, while glucose from the acid hydrolysis of Z. latifolia waste and mixed sugars (glucose and fructose) from the acid hydrolysis of cane molasses were suitable for the accumulation of lactic acid. Thus, a three-stage carbon source utilization strategy was developed, which markedly improved lactic acid production and productivity, respectively reaching 129.47 g/L and 1.51 g/L·h after 86 h of fermentation. This work demonstrates that inexpensive Z. latifolia waste and cane molasses can be suitable carbon sources for lactic acid production, offering an efficient utilization strategy for agro-industrial wastes.

Peptide supplementation relieves stress and enhances glycolytic flux in filamentous fungi during organic acid bioproduction.

Filamentous fungi occupy a uniquely favorable position in the bioproduction of organic acids. Intracellular stress is the main stimulator in filamentous fungi to produce and accumulate organic acids with high flux. However, stress can affect the physiological activities of filamentous fungi, thereby deteriorating their fermentation performance. Herein, we report that peptide supplementation during Rhizopus oryzae fermentation significantly improved fumaric acid production. Specifically, fumaric acid productivity was elevated by approximately 100%, fermentation duration was shortened from 72 to 36 h, while maintaining the final titer. Furthermore, transcriptome profile analysis and biochemical assays indicated that the overall capabilities of the stress defense systems (enzymatic and nonenzymatic) were significantly improved in R. oryzae. Consequently, glycolytic metabolism was distinctly enhanced, which eventually resulted in improved fumaric acid production and reduced fermentation duration. We expect our findings and efforts to provide essential insights into the optimization of the fermentation performance of filamentous fungi in industrial biotechnology and fermentation engineering.

COVID-19-associated-mucormycosis: possible role of free iron uptake and immunosuppression.

COVID-19-associated-mucormycosis, commonly referred to as the "Black Fungus," is a rare secondary fungal infection in COVID-19 patients prompted by a group of mucor molds. Association of this rare fungal infection with SARS-CoV-2 infection has been declared as an endemic in India, with minor cases in several other countries around the globe. Although the fungal infection is not contagious like the viral infection, the causative fungal agent is omnipresent. Infection displays an overall mortality rate of around 50%, with many other secondary side effects posing a potential threat in exacerbating COVID-19 mortality rates. In this review, we have accessed the role of free iron availability in COVID-19 patients that might correlate to the pathogenesis of the causative fungal agent. Besides, we have analyzed the negative consequences of using immunosuppressive drugs in encouraging this opportunistic fungal infection.

Cloning and screening of the putative hexokinase genes from Rhizopus oryzae and their heterologous expression in Saccharomyces cerevisiae.

BACKGROUND: A filamentous fungus, Rhizopus oryzae (R. oryzae) is one of the ideal candidates for ethanol and lactic acid production due to its ability to grow on renewable carbon sources. METHODS AND RESULTS: In this study, the nucleotide sequence of hexokinases and glucokinase from S. cerevisiae was found on the NCBI site ( http://www.ncbi.nlm.nih.gov/blast/Blast.cgi ) were used. With these nucleotide sequences, a blast search was done on the R. oryzae genome database ( http://www.broad.mit.edu/annotation/genome/rhizopus_oryzae/Home.html ) and ten probable genes were obtained. cDNA was synthesized from the total RNA and PCR products of the seven of these putative genes were determined using the primers designed for them. CONCLUSION: The results of the sequences and the complementation studies revealed that three of these seven putative genes were expressed in R. oryzae and the growth was observed on selective media.

Nutritional value of commercial broiler feed supplemented with olive mill waste fermented with probiotic Rhizopus oryzae strains.

AIMS: The changes in chemical composition and metabolizable energy (ME) of both olive mill waste (OMW) upon fermentation by three potential probiotic Rhizopus oryzae strains and commercial feed (CF) upon its supplementation by fermented olive mill waste (FOMW) were investigated. The objective was to test whether there will be an enhancement in the nutritional value of OMW after fermentation and/or commercial broiler feed upon supplementation by potentially probiotic filamentous fungi. METHODS AND RESULTS: A three Rhizopus oryzae strains (92/1, 236/2 and 284) isolated from agricultural soil that were proven to have good probiotic properties (non-toxic, antimicrobial activity, antioxidant capacity and gastrointestinal tolerance) were used to ferment OMW, then the chemical composition was analysed after 7 and 14 days of fermentation. The FOMW with the R. oryzae 284 strain, which gave the best results, was added to a commercial broiler feed at 20%, 30% and 40% supplementation ratios. Then proximal analyses were done to compare non-supplemented with supplemented CF. Chemical analyses included dry weight, crude protein, crude fats, crude fibres, crude ash, sugars and starch, and then ME was calculated from the given values. CONCLUSIONS: Compared to non-fermented OMW, the best results were obtained by the R. oryzae 284 strain allowing an increase in crude protein content by 23.4% after 7 days of fermentation, a decrease in crude fibre content by 9.8% after 14 days of fermentation and an increase in ME by 3.6% after 7 days of fermentation. Compared to non-supplemented CF, the ME changes of 20%, 30% and 40% supplementation increased by 8.38%, 2.83% and decreased by 4.27%, respectively. SIGNIFICANCE AND IMPACT OF THE STUDY: FOMW can be incorporated into broiler feed rations until 30% without causing any decrease in metabolizable energy. It can be a cheaper alternative with promising productivity and chicken health improvements.

Managing mucormycosis in diabetic patients: A case report with critical review of the literature.

BACKGROUND AND PURPOSE: Rhino-orbito-cerebral mucormycosis (ROCM) is a rare and potentially fatal invasive fungal infection which usually occurs in diabetic and other immunocompromised patients. This infection is associated with high morbidity and mortality rates. Prompt diagnosis and rapid aggressive surgical debridement and antimycotic therapy are essential for the patient's survival. Herein, we reviewed the localization and treatment strategies in patients with ROCM and diabetes as an underlying condition. Furthermore, we report one case of ROCM in our department. MATERIALS AND METHODS: From 117 identified studies published in PubMed, 14 publications-containing data from 54 patients-were included. All patients were diagnosed clinically and by histopathological and/or bacteriological analysis for ROCM caused by the order Mucorales. CONCLUSION: Uncontrolled diabetes mellitus is one of the main risk factors for ROCM. A successful management of ROCM requires an early diagnosis, a prompt systemic antifungal therapy, and a rapid aggressive surgical debridement including exploration of the pterygopalatine fossa. An orbital exenteration may be necessary.

First report of Rhizopus oryzae causing rhizome rot on ginger in China.

Ginger (Zingiber officinale Rosc.) is a herbal plant, widely grown in China for its medicinal and culinary purposes. In July 2020, a new rhizome rot disease was observed on ginger in Laiwu, Shandong Province, China. The disease symptoms were observed on both above-ground and underground plant parts. The above ground stems and leaves becoming withered and yellow, and water-soaked symptoms were observed on the collar region. The diseased rhizomes were poorly developed with brown lesion and eventually they would rot, without offensive odors. Disease incidence was estimated at approximately 5% across the survey area. To isolate the pathogen, tissues from 30 rhizomes were cut from the border between diseased and healthy tissue, surface sterilized in 75% alcohol for 15 s, soaked in 0.1% mercuric chloride for 1 min, washed with sterile distilled water three times, and plated on potato dextrose agar (PDA) at 25°C for 2-3 days. Twenty nine fungal isolates with similar morphological characteristics were obtained and pure cultures were obtained using single spore isolation. The colony of AQJ-1, a representative isolate, on PDA was cottony, fluffy, white, and beige coloration on the reverse side at first, and subsequently many black sporangia were produced. The sporangia were black, sub-globose, and 45.2-181.7 µm (n = 50) in diameter. The sporangiospores were unequal, globose or sub-globose, about 3.2-8.7 × 4.6-12.3µm (n = 50) in diameter. For the molecular characterization, genomic DNA was extracted by modified CTAB method (Niu et al., 2008). Internal transcribed spacer (ITS) region and translation elongation factor 1-alpha (EF-1α) gene were amplified using the primer pairs ITS1/ITS4 (White et al., 1990) and MEF10/MEF4 (Abe et al., 2007), respectively. The ITS and EF-1α sequences of isolate AQJ-1 were submitted to GenBank (MN606288 and MN735220, respectively). The BLASTn analysis of the sequences showed 99%-100% similarity to the sequences of R. oryzae strain CBS 120.12 (MH854609, AB281529, respectively). Therefore, based on morphological and molecular characteristics, isolate AQJ-1 was identified as R. oryzae. For pathogenicity tests, thirty ginger seedlings (Laiwu Big Ginger) were grown for 30 days in plastic pots and removed from the pots and the rhizomes washed in running tap water. The rhizomes of fifteen ginger seedlings were attached to a 7 mm agar disk from a plate containing 2-day-old mycelium, and the other fifteen seedlings were attached to agar disk without mycelium as control. Then the inoculated and control seedlings were planted in pots and were kept in separate chambers in a greenhouse at 25±2 °C. After 14 days, the same symptoms of rhizome rot were observed in all inoculated plants as previously described, and no symptoms were observed on the control plants. The pathogen was re-isolated from symptomatic tissues, and was identified as R. oryzae, which full-filled the Koch's postulates. To our knowledge, this is the first report of R. oryzae causing rhizome rot on ginger in China. This disease may pose a potential threat to ginger production in China.

First Report of Rhizopus oryzae Causing Rhizome Soft Rot of Ovate-leaf Atractylodes in South Korea.

Ovate-leaf Atractylodes (Atractylodes ovata) (OLA) is cultivated across South Korea to fulfil domestic need as a herbal medicine. In June 2021, the rhizomes with soft rot were observed in a commercial farmer field in Mungyeong, South Korea with 25% disease incidence. Initially, watery, black and soft lesion were observed on the rhizomes. Later, abundant aerial white mycelia covered the entire rhizome resulting in rot and death. Affected rhizomes were washed thoroughly using tap water, surface sterilized with 0.5% NaOCl and rinsed with sterile distilled water. Small pieces (2 to 5 mm2) of inner diseased tissues were cut, placed on potato dextrose agar (PDA) and incubated on at 25°C in the dark. Twelve morphologically similar pure fungal isolates were obtained by hyphal tipping twice on fresh PDA. Rhizoid, sporangiophores, sporangium, and sporangiospores were observed. Rhizoid and sporangiophores were nonseptate. Sporangia were globose while columella were globose or subglobose. Sporangiospores were numerous, varied in shape and size, subglobose, or oval, and measured 9.8 ± 1.5 (6.1 to 13.5) × 7.8 ± 1.1 (5.7 to 10.1) µm (n = 50). Morphological characteristics of the isolates were analogous to Rhizopus oryzae (Kwon et al. 2012, 2015). Sequences of the internal transcribed spacer (ITS) region and translation elongation factor 1-alpha (EF-1α) gene were analyzed for molecular identification. The primer pairs ITS1F/ITS4 and MEF10/MEF4 were used to amplify ITS and EF-1α respectively (Abe et al. 2007) and sequenced (Macrogen, Inc., Seoul, Korea). The obtained sequences were lodged with accession numbers LC705530 to LC705537. The ITS and EF-1α sequences were ≥ 99.5 % and ≥ 98.5% homologous with Rhizopus oryzae (strain CBS 381.52), respectively. In the maximum likelihood phylogenetic tree based on combined ITS and EF-1α sequences, the isolates formed a distinct clade with R. oryzae references isolates. Pathogenicity tests were conducted on healthy rhizomes with isolate R4. A conidial suspension (1× 106 conidia/mL) was sprayed on the surface of fifteen surface-sterilized rhizomes while fifteen rhizomes received sterile distilled water as controls. Treated rhizomes were placed in a plastic box containing wet paper tissues and incubated at 25°C in the12/12 day/light cycle. The typical rhizomes rot symptoms as seen in the field were observed on all inoculated rhizomes after 21 days of inoculation. The noninoculated rhizomes had no obvious symptoms. The causal fungus (3 isolates) was reisolated from inoculated rhizomes and identified as R. oryzae based on morphology and EF-1α sequence. This experiment was replicated twice. To the best of our knowledge this is the first report of R. oryzae infection on OLA rhizomes in South Korea. Rhizopus oryzae contained a complex of heterothallic closely related species and has been reported to cause 'Rhizopus rot' on various plants including apple, banana, mulberry, sweet potato, and tomato (Gnanesh et al. 2020; Khokhar et al. 2019; Kwon et al. 2012, 2015; Wang et al. 2017). Rhizome soft rot poses significant threat to OLA cultivation, sustainable management practices need to be adapted to control rhizome soft rot of ovate-leaf atractylodes.

First Report of Flower Stalk Wilting Caused by Rhizopus oryzae on Chinese cabbage in China.

Chinese cabbage (Brassica rapa L. ssp. pekinensis) is one of the main biennial vegetables in China and its flowers can be produced in the second year. In May 2021, approximately 50% of the flower stalks of Chinese cabbage wilted in a field in Laizhou, China. Water-soaked lesions were first observed on the lateral shoots of flower stalks, leading to wilting at a later stage. Small diseased tissues were excised from the margin of lesions, surface disinfected in 75% alcohol, rinsed in distilled water twice, and transferred onto potato dextrose agar (PDA) medium for incubation at 28 ℃. Five fungal isolates were obtained using single spore isolation method. The fungal colonies were initially white and became gray or black within 5 days. The columella was globose to subglobose and 82.86±5.25 µm (n=5) in diameter; sporangiophores were smooth-walled, simple or branched; the globose sporangia were 86.06±15.37 µm (n=5) in diameter and black; the sporangiospores were subglobose and abundant and 5.23±0.98 µm (n=5) in diameter; and the rhizoids were dark brown and 5.69±1.82 µm (n=5) wide. A cetyl tri-methyl ammonium bromide method was used to extract DNA from 3-day-old hyphae (Ausubel et al. 1987). PCR was performed for ITS (White et al. 1990), the RNA polymerase II large subunit (RPB1) gene (Voigt et al. 2000) and the actin (ACT) gene (Stiller et al. 1997). The DNA sequences of the five isolates were identical, therefore, the sequence of Isolate RO21 was submitted to GenBank. According to BLAST search, the ITS (MZ452687), RPB1 (OK431470), and ACT (OK431471) sequences showed 99.66% similarity to Rhizopus oryzae Strain CBS 112.07 (NR103595), 100% to Strain CBS 127.08 (KJ566325) and 100% to Strain CBS 102660 (KJ551423), respectively. A neighbor-joining phylogenetic tree was reconstructed based on the ITS of Isolate RO21 and 14 other Rhizopus species sequences obtained from GenBank. Isolate RO21 was found to be most closely related to R. oryzae and far from other species. Based on morphological and phylogenetic characteristics, Isolate RO21 was identified as R. oryzae (Dolatabadi et al. 2014, Kwon et al. 2015, Palemón-Alberto et al. 2020). Sporangiospores were harvested from 5-day-old PDA cultures, suspended in sterilized distilled water, adjusted to 106 spores/ml and amended with 0.1% Tween-80. Chinese cabbage inbred line "A54-1" was inoculated near the middle of the flower stalk by applying 20 µl of spore suspension (106 spores/ml) to each of three sites wounded using a sterilized knife or to the unwounded site. Sterilized distilled water was used as the control. Forty flower stalks (20 for the inoculation treatment and the rest for the control) selected from ten plants were used for pathogenicity test. All plants were incubated in a growth chamber at 28/22 °C (day/night), with 80 to 90% of relative humidity. Wilting symptoms similar to those in the field were observed in the wounded flower stalks after 5 days and in the non-wounded flower stalks after 15 days. All control flower stalks remained asymptomatic. The fungus was re-isolated from the artificially infected flower stalks and identified as R. oryzae by morphological characteristics and sequencing to fulfill the Koch's postulates. To our knowledge, this is the first report that R. oryzae causes flower stalk wilting on Chinese cabbage in China. The results can provide the basis for future studies on the occurrence, prevention and management of this disease.

IFN-γ Mediated Signaling Improves Fungal Clearance in Experimental Pulmonary Mucormycosis.

We established three immunocompetent murine models of pulmonary mucormycosis to determine the involvement of the adaptive immune response in host resistance in pulmonary mucormycosis, a rapidly fatal disease caused mainly by Rhizopus spp. Immunocompetent inbred (C57BL/6, BALB/c) and outbred (Swiss) strains of mice were inoculated with R. oryzae via the intratracheal route. The inoculation resulted in a disseminated infection that spread to the brain, spleen, kidney, and liver. After 7 and 30 days of R. oryzae infection, BALB/c mice showed the lowest fungal load and highest production of IFN-γ and IL-2 by splenocytes. Swiss mice showed a higher fungal load 30 days p.i. and was associated with a weak development of the Th-1 profile. To confirm our findings, R. oryzae-infected IFN-γ-/- mice were evaluated after 60 days, where the mice still showed viable fungi in the lungs. This study showed, for the first time, that pulmonary mucormycosis in three widely used mouse strains resulted in an acute fungal dissemination without immunosuppression whose outcome varies according to the genetic background of the mice. We also identified the partial role of IFN-γ in the efficient elimination of R. oryzae during pulmonary infection.

Rational Design of Lipase ROL to Increase Its Thermostability for Production of Structured Tags.

1,3-regiospecific lipases are important enzymes that are heavily utilized in the food industries to produce structured triacylglycerols (TAGs). The Rhizopus oryzae lipase (ROL) has recently gained interest because this enzyme possesses high selectivity and catalytic efficiency. However, its low thermostability limits its use towards reactions that work at lower temperature. Most importantly, the enzyme cannot be used for the production of 1,3-dioleoyl-2-palmitoylglycerol (OPO) and 1,3-stearoyl-2-oleoyl-glycerol (SOS) due to the high melting points of the substrates used for the reaction. Despite various engineering efforts used to improve the thermostability of ROL, the enzyme is unable to function at temperatures above 60 °C. Here, we describe the rational design of ROL to identify variants that can retain their activity at temperatures higher than 60 °C. After two rounds of mutagenesis and screening, we were able to identify a mutant ROL_10x that can retain most of its activity at 70 °C. We further demonstrated that this mutant is useful for the synthesis of SOS while minimal product formation was observed with ROL_WT. Our engineered enzyme provides a promising solution for the industrial synthesis of structured lipids at high temperature.

Lipase-Catalyzed Synthesis, Antioxidant Activity, Antimicrobial Properties and Molecular Docking Studies of Butyl Dihydrocaffeate.

Green chemistry approaches, such as lipase-catalyzed esterification, are promising methods for obtaining valuable chemical compounds. In the case of the use of lipases, unlike in aqueous environments, the processes of the ester bond formations are encountered in organic solvents. The aim of the current research was to carry out the lipase-catalyzed synthesis of an ester of dihydrocaffeic acid. The synthesized compound was then evaluated for antioxidant and antimicrobial activities. However, the vast majority of its antioxidant activity was retained, which was demonstrated by means of DPPH· (2,2-diphenyl-1-picrylhydrazyl) and CUPRAC (cupric ion reducing antioxidant capacity) methods. Regarding its antimicrobial properties, the antifungal activity against Rhizopus oryzae is worth mentioning. The minimum inhibitory and fungicidal concentrations were 1 and 2 mM, respectively. The high antifungal activity prompted the use of molecular docking studies to verify potential protein targets for butyl ester of dihydrocaffeic ester. In the case of one fungal protein, namely 14-α sterol demethylase B, it was observed that the ester had comparable binding energy to the triazole medication, isavuconazole, but the interacted amino acid residues were different.

Functional properties of Rhizopus oryzae strains isolated from agricultural soils as a potential probiotic for broiler feed fermentation.

The most crucial and expensive fragment in the broiler chicken production industry is the feed. Because of the rising demand, finding a cheap and effective feed is an urgent necessity. Fermentation of broiler feed by probiotic fungal starters can enhance the nutrient's availability and digestibility while preventing pathogenic growth. In this study different Rhizopus spp. have been isolated from agricultural soils around Izmir, Turkey, and tested for their probiotic potential and fermentative capacity. The isolated Rhizopus strains first underwent microscopical fluorescent investigation to exclude endofungal bacterial presence, then, those without endofungal bacteria (totally 82) were tested for antimicrobial activity counter bacterial and fungal pathogens. The ones with wide-spectrum antimicrobial activity (totally 10) were tested for gastrointestinal tolerance and antioxidant ability. Upon phenotypic and genotypic identification, the 10 isolates were found to belong to Rhizopus oryzae species. While all 10 strains showed variable gastrointestinal tolerance and antioxidant activities, three of them (92/1, 236/2, and 284) had relatively high antioxidant activity. Upon fermentative capacity assay, compared to unfermented commercial feed, there was a general decrease in crude fiber content by 56% after fermentation by 92/1 isolate for 4 days and 236/2 isolate for 2 days. The highest increase in crude protein content (by 14.5%) occurred after a 4-day fermentation period by 236/2 isolate. The highest increase in metabolizable energy was 8.64%, by the 284 isolate after 2 days of fermentation. In conclusion, the three strains showed good probiotic properties and fermentative capacities hence can be beneficial for the poultry industry.

Unravelling the antifungal mode of action of curcumin by potential inhibition of CYP51B: A computational study validated in vitro on mucormycosis agent, Rhizopus oryzae.

Like human, fungi too are known to share lot of structural similarities amongst their CYPs (Cytochrome P450 super family of enzymes) which allows antifungal 'azole' compounds to interact with CYPs of human. Clotrimazole, an 'azole' antifungal drug, is a known inhibitor of fungal CYP named CYP51B. Curcumin, a phytochemical obtained from Curcuma longa has the ability to interact with several different human CYPs to induce inhibition. The sequence and the structural similarities amongst both human and fungal CYPs suggest a strong possibility for curcumin to interact with fungal CYP51B to behave like an antifungal agent. To test this hypothesis a study was designed involving mucormycosis agent, Rhizopus oryzae. The ability of curcumin to interact with fungal CYP51B was analysed computationally through molecular docking, MM-GBSA and Molecular Dynamics (MD) simulation assessment. Further, interaction profile for fungal CYP51B-curcumin was compared with human CYP3A4-curcumin, as there are published evidence describing curcumin as an inhibitor of human CYPs. Additionally, to validate in silico findings, an in vitro assay was performed to examine the antifungal potentials of curcumin on the R. oryzae. Conclusive results allow us to determine a plausible mode of action of curcumin to act as an antifungal against a mucormycosis agent.

The natural occurring Y129F polymorphism in Rhizopus oryzae (R. arrhizus) Cyp51Ap accounts for its intrinsic voriconazole resistance.

Rhizopus oryzae (heterotypic synonym: R. arrhizus) intrinsic voriconazole and fluconazole resistance has been linked to its CYP51A gene. However, the amino acid residues involved in this phenotype have not yet been established. A comparison between R. oryzae and Aspergillus fumigatus Cyp51Ap sequences showed differences in several amino acid residues. Some of them were already linked with voriconazole resistance in A. fumigatus. The objective of this work was to analyze the role of two natural polymorphisms in the intrinsic voriconazole resistance phenotype of R. oryzae (Y129F and T290A, equivalent to Y121F and T289A seen in triazole-resistant A. fumigatus). We have generated A. fumigatus chimeric strains harboring different R. oryzae CYP51A genes (wild-type and mutants). These mutant R. oryzae CYP51A genes were designed to carry nucleotide changes that produce mutations at Cyp51Ap residues 129 and 290 (emulating the Cyp51Ap protein of azole susceptible A. fumigatus). Antifungal susceptibilities were evaluated for all the obtained mutants. The polymorphism T290A (alone or in combination with Y129F) had no impact on triazole MIC. On the other hand, a > 8-fold decrease in voriconazole MICs was observed in A. fumigatus chimeric strains harboring the RoCYP51Ap-F129Y. This phenotype supports the assumption that the naturally occurring polymorphism Y129F at R. oryzae Cyp51Ap is responsible for its voriconazole resistance phenotype. In addition, these chimeric mutants were posaconazole hypersusceptible. Thus, our experimental data demonstrate that the RoCYP51Ap-F129 residue strongly impacts VRC susceptibility and that it would be related with posaconazole-RoCYP51Ap interaction. LAY SUMMARY: Rhizopus oryzae is intrinsically resistant to voriconazole, a commonly used antifungal agent. In this work, we analyze the role of two natural polymorphisms present in the target of azole drugs. We established that F129 residue is responsible of the intrinsic voriconazole resistance in this species.

A case report of rhino-facial mucormycosis in a non-diabetic patient with COVID-19: a systematic review of literature and current update.

BACKGROUND: COVID-19 disease may be associated with a wide range of bacterial and fungal infections. We report a patient with COVID-19 infection who developed rhino-facial mucormycosis during treatment with corticosteroids. CASE PRESENTATION: A 59-year-old non-diabetic male patient was admitted with a diagnosis of COVID-19 based on positive RT-PCR and CT of the lungs. Due to sever lung involvement, he was treated with methylprednisolone. The patient was re-admitted to hospital, due to nasal obstruction and left side facial and orbital swelling, several days after discharge. In sinus endoscopic surgery, debridement was performed and the specimens were sent to pathology and mycology laboratories. A nasal biopsy showed wide hyphae without septa. The sequenced PCR product revealed Rhizopus oryzae. Despite all medical and surgical treatment, the patient died. In addition, the characteristics of patients with COVID-19-associated mucormycosis were reviewed in 44 available literatures. In most studies, diabetes mellitus was the most common predisposing factor for mucormycosis. CONCLUSION: Our report highlights the need for assessing the presence of mucormycosis in patients with COVID-19 and also it shows that physicians should consider the potential for secondary invasive fungal infections in COVID-19 cases.