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1. Enhancement of extraction efficiency and functional properties of chickpea protein isolate using pulsed electric field combined with ultrasound treatment

Author

Xin-Jue Lai, Jian-Quan Chen, Jing Nie, Pei-Feng Guo, Muhammad Faisal Manzoor, Yan-Yan Huang, Jian Li, Song-Yi Lin, Xin-An Zeng, and Rui Wang

Subjects
Pulsed electric field, Ultrasound, Chickpea protein isolate, Optimisation, Functional properties, Chemistry, QD1-999, Acoustics. Sound, QC221-246
Abstract

Chickpea protein isolate (CPI) is a promising dietary protein with the advantages of low allergenicity, easy digestion and balanced composition of essential amino acids. However, due to the thick skin of chickpeas, the extraction of CPI is challenging, resulting in lower efficiency of the alkaline extraction-isoelectric precipitation (AE-IEP) method. Therefore, the present study investigated the effect of pulsed electric field combined with ultrasound (PEF-US) treatment on the extraction efficiency of CPI and the functional properties was characterized. Parameter optimization was carried out using response surface methodology (RSM), with the following optimized conditions: pulse duration of 87 s, electric field intensity of 0.9 kV/cm, ultrasonic time of 15 min, and ultrasonic power of 325 W. Under the optimized conditions, the yield of CPI after combined (PEF-US) treatment was 13.52 ± 0.13 %, which was a 47.28 % improvement over the AE-IEP method. This yield was better than that obtained with either individual PEF or US treatment. Additionally, the functional properties (solubility, emulsification, and foaming) of CPI were significantly enhanced compared to AE-IEP. However, the stability of emulsification and foaming did not show significant differences among the four methods. The PEF-US method efficiently extracts CPI with excellent functional properties, enabling the production of proteins as desired functional additives in the food industry.

Published
2024
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2. Identification of NADPH Oxidase Genes Crucial for Rice Multiple Disease Resistance and Yield Traits

Author

Yong Zhu, Hao Su, Xin-Xian Liu, Ji-Fen Sun, Ling Xiang, Yan-Jing Liu, Zhang-Wei Hu, Xiao-Yu Xiong, Xue-Mei Yang, Sadam Hussain Bhutto, Guo-Bang Li, Yuan-Ying Peng, He Wang, Xu Shen, Zhi-Xue Zhao, Ji-Wei Zhang, Yan-Yan Huang, Jing Fan, Wen-Ming Wang, and Yan Li

Subjects
Rice, Rbohs, Multiple disease resistance, M. oryzae, R. solani, Xoo, Plant culture, SB1-1110
Abstract

Abstract Reactive oxygen species (ROS) act as a group of signaling molecules in rice functioning in regulation of development and stress responses. Respiratory burst oxidase homologues (Rbohs) are key enzymes in generation of ROS. However, the role of the nine Rboh family members was not fully understood in rice multiple disease resistance and yield traits. In this study, we constructed mutants of each Rboh genes and detected their requirement in rice multiple disease resistance and yield traits. Our results revealed that mutations of five Rboh genes (RbohA, RbohB, RbohE, RbohH, and RbohI) lead to compromised rice blast disease resistance in a disease nursery and lab conditions; mutations of five Rbohs (RbohA, RbohB, RbohC, RbohE, and RbohH) result in suppressed rice sheath blight resistance in a disease nursery and lab conditions; mutations of six Rbohs (RbohA, RbohB, RbohC, RbohE, RbohH and RbohI) lead to decreased rice leaf blight resistance in a paddy yard and ROS production induced by PAMPs and pathogen. Moreover, all Rboh genes participate in the regulation of rice yield traits, for all rboh mutants display one or more compromised yield traits, such as panicle number, grain number per panicle, seed setting rate, and grain weight, resulting in reduced yield per plant except rbohb and rbohf. Our results identified the Rboh family members involved in the regulation of rice resistance against multiple pathogens that caused the most serious diseases worldwide and provide theoretical supporting for breeding application of these Rbohs to coordinate rice disease resistance and yield traits.

Published
2024
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3. Agreement of corneal high-order aberrations measured by three wavefront aberrometers in myopic adults

Author

Hua-Xian Zou, Qi Chen, Li-Li Li, Die-Feng Wei, He-Juan Mao, Yan-Yan Huang, Peng-Fei Lu, and Hai-Bin Zhong

Subjects
topcon kr-1w, i.profiler, opd-scan ⅲ, corneal aberration, agreement, Ophthalmology, RE1-994
Abstract

AIM:To evaluate the agreement of corneal high-order aberrations from Topcon KR-1W, i.Profiler and OPD-Scan Ⅲ wavefront aberrometers in myopic adults.METHODS:A prospective clinical study. A total of 92 adult patients(92 eyes)with myopia in the department of optometry, the People's Hospital of Guangxi Zhuang Autonomous Region from June to August 2022 were enrolled. The third-order and fourth-order corneal aberrations at the pupil diameter of 4 and 6mm were measured by Topcon KR-1W, i.Profiler, and OPD-Scan Ⅲ, respectively. The difference and agreement of the three aberrometers were evaluated.RESULTS: The measurements at 6mm pupil diameter were all greater than those at 4mm pupil diameter. Although there were no statistical differences in the measurements of Z-44、Z-24 by the three aberrometers at 4 pupil diameter(P>0.05), there were statistical differences in other measurements(P

Published
2023
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4. miR167d-ARFs Module Regulates Flower Opening and Stigma Size in Rice

Author

Zhi-Xue Zhao, Xiao-Xiao Yin, Sha Li, Yu-Ting Peng, Xiu-Lian Yan, Chen Chen, Beenish Hassan, Shi-Xin Zhou, Mei Pu, Jing-Hao Zhao, Xiao-Hong Hu, Guo-Bang Li, He Wang, Ji-Wei Zhang, Yan-Yan Huang, Jing Fan, Yan Li, and Wen-Ming Wang

Subjects
Oryza sativa, miR167d, Auxin response factor, Flower opening, Stigma size, Plant culture, SB1-1110
Abstract

Abstract Flower opening and stigma exertion are two critical traits for cross-pollination during seed production of hybrid rice (Oryza sativa L.). In this study, we demonstrate that the miR167d-ARFs module regulates stigma size and flower opening that is associated with the elongation of stamen filaments and the cell arrangement of lodicules. The overexpression of miR167d (OX167d) resulted in failed elongation of stamen filaments, increased stigma size, and morphological alteration of lodicule, resulting in cleistogamy. Blocking miR167d by target mimicry also led to a morphological alteration of the individual floral organs, including a reduction in stigma size and alteration of lodicule cell morphology, but did not show the cleistogamous phenotype. In addition, the four target genes of miR167d, namely ARF6, ARF12, ARF17, and ARF25, have overlapping functions in flower opening and stigma size. The loss-of-function of a single ARF gene did not influence the flower opening and stigma size, but arf12 single mutant showed a reduced plant height and aborted apical spikelets. However, mutation in ARF12 together with mutation in either ARF6, ARF17, or ARF25 led to the same defective phenotypes that were observed in OX167d, including the failed elongation of stamen filaments, increased stigma size, and morphological alteration of lodicule. These findings indicate that the appropriate expression of miR167d is crucial and the miR167d-ARFs module plays important roles in the regulation of flower opening and stigma size in rice.

Published
2022
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5. Design of Recyclable Carboxylic Metal-Organic Framework/Chitosan Aerogels for Oil Bleaching

Author

Xiang-Ze Jia, Qing-Bo Yao, Bin Zhang, Chin-Ping Tan, Xin-An Zeng, Yan-Yan Huang, and Qiang Huang

Subjects
metal organic framework, chitosan, aerogel, oil bleaching, reusability, Chemical technology, TP1-1185
Abstract

Novel hierarchical metal-organic framework/chitosan aerogel composites were developed for oil bleaching. UiO-66-COOH-type metal organic frameworks (Zr-MOFs) were synthesized and integrated onto a chitosan matrix with different contents and named MOF-aerogel-1 and MOF-aerogel-2. Due to the compatibility of chitosan, the carboxylic zirconium MOF-aerogels not only maintained the inherent chemical accessibility of UiO-66-COOH, but the unique crystallization and structural characteristics of these MOF nanoparticles were also preserved. Through 3-dimensional reconstructed images, aggregation of the UiO-66-COOH particles was observed in MOF-aerogel-1, while the MOF was homogeneously distributed on the surface of the chitosan lamellae in MOF-aerogel-2. All aerogels, with or without immobilized MOF nanoparticles, were capable of removing carotenoids during oil bleaching. MOF-aerogel-2 showed the most satisfying removal proportions of 26.6%, 36.5%, and 47.2% at 50 °C, 75 °C, and 100 °C, respectively, and its performance was very similar to that of commercial activated clay. The reuse performance of MOF-aerogel-2 was tested, and the results showed its exceptional sustainability for carotenoid removal. These findings suggested the effectiveness of the MOFaerogel for potential utilization in oil bleaching treatments.

Published
2023
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6. Structural, antioxidant, and immunomodulatory activities of an acidic exopolysaccharide from Lactiplantibacillus plantarum DMDL 9010

Author

Yan-yan Huang, Jia-min Wu, Wei-tong Wu, Jia-wei Lin, Yan-tong Liang, Zhen-zhen Hong, Xiang-ze Jia, and Dong-mei Liu

Subjects
Lactiplantibacillus plantarum DMDL 9010, exopolysaccharide, structural characterization, antioxidant activity, structural features, immunomodulatory effect, Nutrition. Foods and food supply, TX341-641
Abstract

This study investigated the structural, antioxidant, and immunomodulatory activities of acidic exopolysaccharide (EPS-LP2) isolated from Lactiplantibacillus plantarum DMDL 9010. EPS-LP2 is composed of fucose (Fuc), arabinose (Ara), galactose (Gal), glucose (Glc), mannose (Man), and D-fructose (Fru) with a molar ratio of 0.13: 0.69: 8.32: 27.57: 62.07: 0.58: 0.46, respectively. Structural analysis of EPS-LP2 exhibited a smooth irregular lamellar surface, rod-like structure with swollen ends and slippery surfaces, and good thermal stability. Based on the methylation and NMR analysis, sugar residues including t-Manp, t-Glcp, 2-Manp, 6-Galp, 6-Glcp, and 4-Glcp were found to exist in EPS-LP2. In the 50∼400 μg/ml range, EPS-LP2 showed negligible neurotoxicity to RAW264.7 cells. Moreover, EPS-LP2 could protect RAW264.7 cells from oxidative injury by lowering the generation of reactive oxygen species (ROS), malondialdehyde (MDA), and the secretion of lactate dehydrogenase (LDH). In contrast, an increase in superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GSH-Px), and the concentrations of glutathione (GSH) were observed. Immunoreactivity assays showed that EPS-LP2 could suppress the expression of NO, tumor necrosis factor-α (TNF-α), and interleukin 6 (IL-6) and inhibit the activation of the mitogen-activated protein kinase (MAPK)/nuclear factor-κB-gene binding (NF-κB) cell pathway. Conclusively, EPS-LP2 could be a potential natural antioxidant and immunomodulatory agent in functional foods and medicines.

Published
2022
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7. Rice miR1432 Fine-Tunes the Balance of Yield and Blast Disease Resistance via Different Modules

Author

Yan Li, Ya-Ping Zheng, Xin-Hui Zhou, Xue-Mei Yang, Xiao-Rong He, Qin Feng, Yong Zhu, Guo-Bang Li, He Wang, Jing-Hao Zhao, Xiao-Hong Hu, Mei Pu, Shi-Xin Zhou, Yun-Peng Ji, Zhi-Xue Zhao, Ji-Wei Zhang, Yan-Yan Huang, Jing Fan, Ling-Li Zhang, and Wen-Ming Wang

Subjects
miR1432, Blast disease resistance, Yield traits, OsEFH1, OsACOT, Plant culture, SB1-1110
Abstract

Abstract microRNAs act as fine-tuners in the regulation of plant growth and resistance against biotic and abiotic stress. Here we demonstrate that rice miR1432 fine-tunes yield and blast disease resistance via different modules. Overexpression of miR1432 leads to compromised resistance and decreased yield, whereas blocking miR1432 using a target mimic of miR1432 results in enhanced resistance and yield. miR1432 suppresses the expression of LOC_Os03g59790, which encodes an EF-hand family protein 1 (OsEFH1). Overexpression of OsEFH1 leads to enhanced rice resistance but decreased grain yield. Further study revealed that miR1432 and OsEFH1 are differentially responsive to chitin, a fungus-derived pathogen/microbe-associated molecular pattern (PAMP/MAMP). Consistently, blocking miR1432 or overexpression of OsEFH1 improves chitin-triggered immunity responses. In contrast, overexpression of ACOT, another target gene regulating rice yield traits, has no significant effects on rice blast disease resistance. Altogether, these results indicate that miR1432 balances yield and resistance via different target genes, and blocking miR1432 can simultaneously improve yield and resistance.

Published
2021
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8. Genome-guided purification and characterization of polymyxin A1 from Paenibacillus thiaminolyticus SY20: A rarely explored member of polymyxins

Author

Ya-ping Wu, Dong-mei Liu, Ming-hua Liang, Yan-yan Huang, Jin Lin, and Lan-fang Xiao

Subjects
polymyxin A1, antimicrobial agent, genome mining, Gram-negative, Paenibacillus thiaminolyticus, Microbiology, QR1-502
Abstract

Polymyxin A1 was a rarely investigated member in the polymyxins family produced by Bacillus aerosporus. As a cyclic non-ribosomal lipopeptide, it was purified from Paenibacillus thiaminolyticus for the first time. The producing strain SY20 was screened from Chinese natural fermented bamboo shoots and identified as P. thiaminolyticus SY20 using 16S rRNA homology along with whole genome sequencing. The optimum incubation time was 32 h by the growth kinetics of antimicrobial agent production. The proteinaceous nature of antimicrobial agents was characterized according to the physicochemical properties of the cell-free supernatant. Subsequently, the active antimicrobial agent was purified from the supernatant using ammonium sulfate–graded precipitation, ion-exchange chromatography, and C18-H chromatography. The active agent was identified as polymyxin A1 with a molecular weight 1156.7 Da and antimicrobial activity mainly against Gram-negative bacteria. The molecular structure, a cyclic heptapeptide and a tripeptide side chain acylated by a fatty acid at the amino terminus, was elucidated using the combination of liquid chromatography-tandem mass spectrometry (LC-MS/MS), matrix-assisted laser desorption ionization–time of flight mass spectrometry (MALDI-TOF MS), amino acid analysis, and whole genome mining tool. Meanwhile, the biosynthetic gene cluster of polymyxin A1 including five open reading frames (ORFs) was demonstrated in the genome. The compound should be further explored for its efficacy and toxicity in vivo to develop its application.

Published
2022
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9. Fine-Tuning Roles of Osa-miR159a in Rice Immunity Against Magnaporthe oryzae and Development

Author

Jin-Feng Chen, Zhi-Xue Zhao, Yan Li, Ting-Ting Li, Yong Zhu, Xue-Mei Yang, Shi-Xin Zhou, He Wang, Ji-Qun Zhao, Mei Pu, Hui Feng, Jing Fan, Ji-Wei Zhang, Yan-Yan Huang, and Wen-Ming Wang

Subjects
microRNA, Osa-miR159a, Short tandem target mimic, Magnaporthe oryzae, Rice blast disease, Plant culture, SB1-1110
Abstract

Abstract Background Rice blast caused by Magnaporthe oryzae is one of the most destructive diseases of rice. An increasing number of microRNAs (miRNAs) have been reported to fine-tune rice immunity against M. oryzae and coordinate with growth and development. Results Here, we showed that rice microRNA159a (Osa-miR159a) played a positive role in rice resistance to M. oryzae. The expression of Osa-miR159a was suppressed in a susceptible accession at 12, 24, and 48 h post-inoculation (hpi); it was upregulated in a resistant accession of M. oryzae at 24 hpi. The transgenic rice lines overexpressing Osa-miR159a were highly resistant to M. oryzae. In contrast, the transgenic lines expressing a short tandem target mimic (STTM) to block Osa-miR159a showed enhanced susceptibility. Knockout mutations of the target genes of Osa-miR159a, including OsGAMYB, OsGAMYBL, and OsZF, led to resistance to M. oryzae. Alteration of the expression of Osa-miR159a impacted yield traits including pollen and grain development. Conclusions Our results indicated that Osa-miR159a positively regulated rice immunity against M. oryzae by downregulating its target genes. Proper expression of Osa-miR159a was critical for coordinating rice blast resistance with grain development.

Published
2021
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10. Clinical observation of orthokeratology combined with 0.01% Atropine for controlling low to moderate myopia in adolescents

Author

Yan Luo, Wu-Qiang Luo, Peng-Fei Lu, He-Juan Mao, Die-Feng Wei, and Yan-Yan Huang

Subjects
orthokeratology, atropine, myopia, adolescent, accommodative amplitude, pupil diameter, tear film, Ophthalmology, RE1-994
Abstract

AIM: To investigate the efficacy and safety of orthokeratology combined with 0.01% atropine in controlling low to moderate myopia in adolescents.METHODS: A prospective non-randomized controlled study was conducted among 120 eyes of 120 adolescents with low to moderate myopia. 60 eyes in the control group were treated with orthokeratology, and 60 eyes in the combined group were treated with orthokeratology combined with 0.01% atropine. The best corrected distant visual acuity(BCDVA), best corrected near visual acuity(BCNVA), refraction, axial length, accommodative amplitude, photopic pupil diameter, mesopic pupil diameter, lipid layer thickness(LLT), tear film break up time(BUT)and complications were determined before treatment and at 1a after treatment. RESULTS: There were no significant differences in BCDVA and BCNVA within and between the two groups before and after treatment(P>0.05). After treatment, the spherical equivalents of both groups progressed significantly(P0.05). After treatment, the accommodative amplitude of the combined group decreased significantly, while the photopic and mesopic pupil diameters significantly increased, respectively(P0.05). During the treatment period, there was no difference in the incidence of total adverse reactions between the combined group and the control group(26.7% vs 15.0%, P>0.05). CONCLUSION: Combined treatment with 0.01% atropine and orthokeratology would be a safe and more effective choice of treatment to control the development of myopia in adolescents.

Published
2021
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11. Loss and Natural Variations of Blast Fungal Avirulence Genes Breakdown Rice Resistance Genes in the Sichuan Basin of China

Author

Zi-Jin Hu, Yan-Yan Huang, Xiao-Yu Lin, Hui Feng, Shi-Xin Zhou, Ying Xie, Xin-Xian Liu, Chen Liu, Ru-Meng Zhao, Wen-Sheng Zhao, Chuan-Hong Feng, Mei Pu, Yun-Peng Ji, Xiao-Hong Hu, Guo-Bang Li, Jing-Hao Zhao, Zhi-Xue Zhao, He Wang, Ji-Wei Zhang, Jing Fan, Yan Li, Yun-Liang Peng, Min He, De-Qiang Li, Fu Huang, You-Liang Peng, and Wen-Ming Wang

Subjects
rice blast, Magnaporthe oryzae, avirulence gene, variation, monogenetic lines, resistance gene, Plant culture, SB1-1110
Abstract

Magnaporthe oryzae is the causative agent of rice blast, a devastating disease in rice worldwide. Based on the gene-for-gene paradigm, resistance (R) proteins can recognize their cognate avirulence (AVR) effectors to activate effector-triggered immunity. AVR genes have been demonstrated to evolve rapidly, leading to breakdown of the cognate resistance genes. Therefore, understanding the variation of AVR genes is essential to the deployment of resistant cultivars harboring the cognate R genes. In this study, we analyzed the nucleotide sequence polymorphisms of eight known AVR genes, namely, AVR-Pita1, AVR-Pii, AVR-Pia, AVR-Pik, AVR-Pizt, AVR-Pi9, AVR-Pib, and AVR-Pi54 in a total of 383 isolates from 13 prefectures in the Sichuan Basin. We detected the presence of AVR-Pik, AVR-Pi54, AVR-Pizt, AVR-Pi9, and AVR-Pib in the isolates of all the prefectures, but not AVR-Pita1, AVR-Pii, and AVR-Pia in at least seven prefectures, indicating loss of the three AVRs. We also detected insertions of Pot3, Mg-SINE, and indels in AVR-Pib, solo-LTR of Inago2 in AVR-Pizt, and gene duplications in AVR-Pik. Consistently, the isolates that did not harboring AVR-Pia were virulent to IRBLa-A, the monogenic line containing Pia, and the isolates with variants of AVR-Pib and AVR-Pizt were virulent to IRBLb-B and IRBLzt-t, the monogenic lines harboring Pib and Piz-t, respectively, indicating breakdown of resistance by the loss and variations of the avirulence genes. Therefore, the use of blast resistance genes should be alarmed by the loss and nature variations of avirulence genes in the blast fungal population in the Sichuan Basin.

Published
2022
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12. Identification of FERONIA-like receptor genes involved in rice-Magnaporthe oryzae interaction

Author

Yan-Yan Huang, Xin-Xian Liu, Ying Xie, Xiao-Yu Lin, Zi-Jin Hu, He Wang, Liang-Fang Wang, Wen-Qiang Dang, Ling-Li Zhang, Yong Zhu, Hui Feng, Mei Pu, Ji-Qun Zhao, Ji-Wei Zhang, Yan Li, Jing Fan, and Wen-Ming Wang

Subjects
FERONIA-like receptors, Rice blast resistance, Magnaporthe oryzae, Receptor-like kinase, CRISPR/Cas9, Plant culture, SB1-1110
Abstract

Abstract The receptor-like kinase (RLK) FERONIA functions in immunity in Arabidopsis. Here, we systemically screened rice RLK genes encoding FERONIA-like receptor (FLRs) that may be involved in rice-Magnaporthe oryzae interaction. The expression of 16 FLR genes was examined in response to the infection of M. oryzae in different rice varieties. For each FLR gene, at least two independent mutants were generated by CRISPR/Cas9 gene-editing technology in rice variety Zhonghua 11 (ZH11). Blast disease assay identified that the mutants of FLR1 and FLR13 showed increased susceptibility, whereas the mutants of FLR2 and FLR11 displayed enhanced resistance. Consistently, the mutant of FLR1 enhanced, but the mutant of FLR2 delayed the M. oryzae infection progress, which might be associated with the altered expression of defense-related genes. Together, these data indicate that at least 4 FLR genes are involved in rice-M. oryzae interaction and thus are potentially valuable in blast disease resistance.

Published
2020
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13. Osa-miR162a fine-tunes rice resistance to Magnaporthe oryzae and Yield

Author

Xu-Pu Li, Xiao-Chun Ma, He Wang, Yong Zhu, Xin-Xian Liu, Ting-Ting Li, Ya-Ping Zheng, Ji-Qun Zhao, Ji-Wei Zhang, Yan-Yan Huang, Mei Pu, Hui Feng, Jing Fan, Yan Li, and Wen-Ming Wang

Subjects
Osa-miR162, OsDCL1, Blast disease resistance, Yield traits, Hydrogen peroxide, Defense-related gene, Plant culture, SB1-1110
Abstract

Abstract MicroRNAs (miRNAs) play essential roles in rice immunity against Magnaporthe oryzae, the causative agent of rice blast disease. Here we demonstrate that Osa-miR162a fine-tunes rice immunity against M. oryzae and yield traits. Overexpression of Osa-miR162a enhances rice resistance to M. oryzae accompanying enhanced induction of defense-related genes and accumulation of hydrogen peroxide (H2O2). In contrast, blocking Osa-miR162 by overexpressing a target mimic of Osa-miR162a enhances susceptibility to blast fungus associating with compromised induction of defense-related gene expression and H2O2 accumulation. Moreover, the transgenic lines overexpressing Osa-miR162a display decreased seed setting rate resulting in slight reduced yield per plant, whereas the transgenic lines blocking Osa-miR162 show an increased number of grains per panicle, resulting in increased yield per plant. Altered accumulation of Osa-miR162 had a limited impact on the expression of rice Dicer-like 1 (OsDCL1) in these transgenic lines showing normal gross morphology, and silencing of OsDCL1 led to enhanced resistance to blast fungus similar to that caused by overexpression of Osa-miR162a, suggesting the involvement of OsDCL1 in Osa-miR162a-regulated resistance. Together, our results indicate that Osa-miR162a is involved in rice immunity against M. oryzae and fine-tunes resistance and yield.

Published
2020
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14. Corrigendum: 9-PAHSA Improves Cardiovascular Complications by Promoting Autophagic Flux and Reducing Myocardial Hypertrophy in Db/Db Mice

Author

Yan-Mei Wang, Shou-Ling Mi, Hong Jin, Qi-Lin Guo, Zhong-Yu Yu, Jian-Tao Wang, Xiao-Ming Zhang, Qian Zhang, Na-Na Wang, Yan-Yan Huang, Hou-Guang Zhou, and Jing-Chun Guo

Subjects
diabetic cardiovascular complications, autophagy, 9-PAHSA, myocardial hypertrophy, vascular calcification, Therapeutics. Pharmacology, RM1-950
Published
2022
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15. Advances in the Study of Probiotics for Immunomodulation and Intervention in Food Allergy

Author

Yan-Yan Huang, Yan-Tong Liang, Jia-Min Wu, Wei-Tong Wu, Xin-Tong Liu, Ting-Ting Ye, Xiao-Rong Chen, Xin-An Zeng, Muhammad Faisal Manzoor, and Lang-Hong Wang

Subjects
probiotics, intestinal flora, food allergy, immunity, Organic chemistry, QD241-441
Abstract

Food allergies are a serious food safety and public health issue. Soybean, dairy, aquatic, poultry, and nut products are common allergens inducing allergic reactions and adverse symptoms such as atopic dermatitis, allergic eczema, allergic asthma, and allergic rhinitis. Probiotics are assumed as an essential ingredient in maintaining intestinal microorganisms’ composition. They have unique physiological roles and therapeutic effects in maintaining the mucosal barrier, immune function, and gastrointestinal tract, inhibiting the invasion of pathogenic bacteria, and preventing diarrhea and food allergies. Multiple pieces of evidence reveal a significant disruptive effect of probiotics on food allergy pathology and progression mechanisms. Thus, this review describes the allergenic proteins as an entry point and briefly describes the application of probiotics in allergenic foods. Then, the role of probiotics in preventing and curing allergic diseases by regulating human immunity through intestinal flora and intestinal barrier, modulating host immune active cells, and improving host amino acid metabolism are described in detail. The anti-allergic role of probiotics in the function and metabolism of the gastrointestinal tract has been comprehensively explored to furnish insights for relieving food allergy symptoms and preventing food allergy.

Published
2023
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16. 9-PAHSA Improves Cardiovascular Complications by Promoting Autophagic Flux and Reducing Myocardial Hypertrophy in Db/Db Mice

Author

Yan-Mei Wang, Shou-Ling Mi, Hong Jin, Qi-Lin Guo, Zhong-Yu Yu, Jian-Tao Wang, Xiao-Ming Zhang, Qian Zhang, Na-Na Wang, Yan-Yan Huang, Hou-Guang Zhou, and Jing-Chun Guo

Subjects
diabetic cardiovascular complications, autophagy, 9-PAHSA, myocardial hypertrophy, vascular calcification, Therapeutics. Pharmacology, RM1-950
Abstract

Atherosclerotic cardiovascular disease is a common and severe complication of diabetes. There is a large need to identify the effective and safety strategies on diabetic cardiovascular disease (DCVD). 9-PAHSA is a novel endogenous fatty acid, and has been reported to reduce blood glucose levels and attenuate inflammation. We aim to evaluate the effects of 9-PAHSA on DCVD and investigate the possible mechanisms underlying it. Firstly, serum 9-PAHSA levels in human were detected by HPLC-MS/MS analysis. Then 9-PAHSA was synthesized and purified. The synthesized 9-PAHSA was gavaged to db/db mice with 50 mg/kg for 4 weeks. The carotid arterial plaque and cardiac structure was assessed by ultrasound. Cardiac autophagy was tested by western blot analysis, electron microscope and iTRAQ. The results showed that 9-PAHSA, in patients with type 2 diabetes mellitus (T2DM), was significantly lower than that in non-diabetic subjects. Administration of 9-PAHSA for 2 weeks reduced blood glucose levels. Ultrasound observed that continue administration of 9-PAHSA for 4 weeks ameliorated carotid vascular calcification, and attenuated myocardial hypertrophy and dysfunction in db/db mice. Electron microscopy showed continue 9-PAHSA treatment significantly increased autolysosomes, while dramatically decreased greases in the myocardial cells of the db/db mice. Moreover, iTRAQ analysis exhibited that continue 9-PAHSA treatment upregulated BAG3 and HSPB8. Furthermore, western blot analysis confirmed that 9-PAHSA down-regulated Akt/mTOR and activated PI3KIII/BECN1 complex in diabetic myocardium. Thus, 9-PAHSA benefits DCVD in diabetic mice by ameliorating carotid vascular calcification, promoting autophagic flux and reducing myocardial hypertrophy.

Published
2021
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17. The Flower-Infecting Fungus Ustilaginoidea virens Subverts Plant Immunity by Secreting a Chitin-Binding Protein

Author

Guo-Bang Li, Jing Fan, Jin-Long Wu, Jia-Xue He, Jie Liu, Shuai Shen, Zeeshan Ghulam Nabi Gishkori, Xiao-Hong Hu, Yong Zhu, Shi-Xin Zhou, Yun-Peng Ji, Mei Pu, Jing-Hao Zhao, Zhi-Xue Zhao, He Wang, Ji-Wei Zhang, Yan-Yan Huang, Yan Li, Fu Huang, and Wen-Ming Wang

Subjects
chitin-triggered immunity, chitin receptor, flower-infecting, rice false smut, Ustilaginoidea virens, Plant culture, SB1-1110
Abstract

Ustilaginoidea virens is a biotrophic fungal pathogen specifically colonizing rice floral organ and causes false smut disease of rice. This disease has emerged as a serious problem that hinders the application of high-yield rice cultivars, by reducing grain yield and quality as well as introducing mycotoxins. However, the pathogenic mechanisms of U. virens are still enigmatic. Here we demonstrate that U. virens employs a secreted protein UvCBP1 to manipulate plant immunity. In planta expression of UvCBP1 led to compromised chitin-induced defense responses in Arabidopsis and rice, including burst of reactive oxygen species (ROS), callose deposition, and expression of defense-related genes. In vitro-purified UvCBP1 protein competes with rice chitin receptor OsCEBiP to bind to free chitin, thus impairing chitin-triggered rice immunity. Moreover, UvCBP1 could significantly promote infection of U. virens in rice flowers. Our results uncover a mechanism of a floral fungus suppressing plant immunity and pinpoint a universal role of chitin-battlefield during plant–fungi interactions.

Published
2021
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18. Blocking miR530 Improves Rice Resistance, Yield, and Maturity

Author

Yan Li, Liang-Fang Wang, Sadam Hussain Bhutto, Xiao-Rong He, Xue-Mei Yang, Xin-Hui Zhou, Xiao-Yu Lin, Aisha Anum Rajput, Guo-Bang Li, Jing-Hao Zhao, Shi-Xin Zhou, Yun-Peng Ji, Mei Pu, He Wang, Zhi-Xue Zhao, Yan-Yan Huang, Ji-Wei Zhang, Peng Qin, Jing Fan, and Wen-Ming Wang

Subjects
miR530, blast disease resistance, yield, maturity, evolution, Plant culture, SB1-1110
Abstract

MicroRNAs fine-tune plant growth and resistance against multiple biotic and abiotic stresses. The trade-off between biomass and resistance can penalize crop yield. In this study, we have shown that rice miR530 regulates blast disease resistance, yield, and growth period. While the overexpression of miR530 results in compromised blast disease resistance, reduced grain yield, and late maturity, blocking miR530 using a target mimic (MIM530) leads to enhanced resistance, increased grain yield, and early maturity. Further study revealed that the accumulation of miR530 was decreased in both leaves and panicles along with the increase of age. Such expression patterns were accordant with the enhanced resistance from seedlings to adult plants, and the grain development from panicle formation to fully-filled seeds. Divergence analysis of miR530 precursor with upstream 1,000-bp promoter sequence in 11 rice species revealed that miR530 was diverse in Oryza sativa japonica and O. sativa indica group, which was consistent with the different accumulation of miR530 in japonica accessions and indica accessions. Altogether, our results indicate that miR530 coordinates rice resistance, yield, and maturity, thus providing a potential regulatory module for breeding programs aiming to improve yield and disease resistance.

Published
2021
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19. Exopolysaccharides from Bacillus amyloliquefaciens DMBA-K4 ameliorate dextran sodium sulfate-induced colitis via gut microbiota modulation

Author

Jia-hua Kuang, Yan-yan Huang, Jin-shuang Hu, Jia-jia Yu, Qin-yu Zhou, and Dong-mei Liu

Subjects
Bacillus amyloliquefaciens, Microbe polysaccharide, Colitis, Gut microbiome, Mucin, Inflammation, Nutrition. Foods and food supply, TX341-641
Abstract

Accumulating evidences have reported that polysaccharide could alleviate colitis through the maintenance of intestinal homeostasis. In this study, an exopolysaccharide (EPS-K4) from Bacillus amyloliquefaciens was obtained via anionic-exchange chromatography which was with an average molecular weight of 10,067 Da and consisted of mannose, rhamnose, glucuronic acid, and glucose with a molar ratio of 40.09:23.65:11.42:17.68. Furthermore, administration of EPS-K4 relieved symptoms in colitis mice via gut microbiota modulation. The levels of pathogenic bacteria, such as Enterococcus and Escherichia-Shigella, were significantly suppressed. In contrast, the levels of Lactobacillus and intestinal microbiota diversity were increased. EPS-K4 could stimulate mucin secretion to maintain the integrity of the gut barrier and decrease the levels of virulent substances (endotoxin, diamine oxidase, and D-lactic acid) in serum. The pro-inflammatory cytokines (TNF-α) in serum were reduced, conversely, anti-inflammatory cytokines (IL-10) were increased. These findings indicated the possibility of EPS-K4 as a chemotherapy candidate for the prevention of colitis.

Published
2020
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20. Expressing a Target Mimic of miR156fhl-3p Enhances Rice Blast Disease Resistance Without Yield Penalty by Improving SPL14 Expression

Author

Ling-Li Zhang, Yan Li, Ya-Ping Zheng, He Wang, Xuemei Yang, Jin-Feng Chen, Shi-Xin Zhou, Liang-Fang Wang, Xu-Pu Li, Xiao-Chun Ma, Ji-Qun Zhao, Mei Pu, Hui Feng, Jing Fan, Ji-Wei Zhang, Yan-Yan Huang, and Wen-Ming Wang

Subjects
microRNA, osa-miR156, rice blast disease resistance, Magnaporthe oryzae, SPL14, WRKY45, Genetics, QH426-470
Abstract

MicroRNAs (miRNAs) play essential roles in the regulation of plant growth and defense responses. More and more, miRNA-3ps are reported to act in plant development and immunity. miR156 is a conserved miRNA, and most previous studies focus on its roles in plant growth, development, and yield determinacy. Here, we show that expressing a target mimic of miR156fhl-3p led to enhanced rice blast disease resistance without a yield penalty. miR156fhl-3p was differentially responsive to Magnaporthe oryzae in susceptible and resistant accessions. Transgenic lines expressing a target mimic of miR156fhl-3p (MIM156-3p) exhibited enhanced rice blast disease resistance and increased expression of defense-related genes. MIM156-3p also enhanced the mRNA abundance of SPL14 and WRKY45 by down-regulating miR156-5p and pre-miR156. Moreover, MIM156-3p lines displayed a decreased number of second rachis branches per panicle but enlarged grains, leading to unchanged yield per plant. Consistently, overexpressing miR156h (OX156) led to enhanced susceptibility to M. oryzae and decreased the expression of SPL14 and WRKY45. Our results indicate that miR156fhl-3p mounts a regulatory role on miR156-5p, which subsequently regulates the expression of SPL14 and WRKY45 to improve rice blast disease resistance.

Published
2020
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21. Various changes in cryopreserved acellular nerve allografts at −80°C

Author

Yan-Yan Huang, Xiao-Lu Xu, Xi-Jun Huang, Jiang-Hui Liu, Jian Qi, Shuang Zhu, Zhao-Wei Zhu, Bo He, Qing-Tang Zhu, Yang-Bin Xu, Li-Qiang Gu, and Xiao-Lin Liu

Subjects
nerve regeneration, acellular nerve allografts, cryopreservation, storage, transplantation, nerve, neural regeneration, Neurology. Diseases of the nervous system, RC346-429
Abstract

The experimental design evaluated histological, mechanical, and biological properties of allogeneic decellularized nerves after cryopreservation in a multi-angle, multi-directional manner to provide evidence for long-term preservation. Acellular nerve allografts from human and rats were cryopreserved in a cryoprotectant (10% fetal bovine serum, 10% dimethyl sulfoxide, and 5% sucrose in RPMI1640 medium) at −80°C for 1 year, followed by thawing at 40°C or 37°C for 8 minutes. The breaking force of acellular nerve allografts was measured using a tensile test. Cell survival was determined using L-929 cell suspensions. Acellular nerve allografts were transplanted into a rat model with loss of a 15-mm segment of the left sciatic nerve. Immunohistochemistry staining was used to measure neurofilament 200 expression. Hematoxylin-eosin staining was utilized to detect relative muscle area in gastrocnemius muscle. Electron microscopy was applied to observe changes in allograft ultrastructure. There was no obvious change in morphological appearance or ultrastructure, breaking force, or cytotoxicity of human acellular nerve allografts after cryopreservation at −80°C. Moreover, there was no remarkable change in neurofilament 200 expression, myelin sheath thickness, or muscle atrophy when fresh or cryopreserved rat acellular nerve allografts were applied to repair nerve injury in rats. These results suggest that cryopreservation can greatly extend the storage duration of acellular nerve tissue allografts without concomitant alteration of the physiochemical and biological properties of the engineered tissue to be used for transplantation.

Published
2018
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22. Streptococcus thermophiles DMST-H2 Promotes Recovery in Mice with Antibiotic-Associated Diarrhea

Author

Jin-Shuang Hu, Yan-Yan Huang, Jia-Hua Kuang, Jia-Jia Yu, Qin-Yu Zhou, and Dong-Mei Liu

Subjects
Streptococcus thermophiles, antibiotic-associated diarrhea, intestinal microbiota, Biology (General), QH301-705.5
Abstract

Antibiotic-associated diarrhea (AAD) is the most common side effect of antibiotics and is routinely treated with probiotics in clinical. Streptococcus thermophiles, extensively utilized for producing dairy foods, has recently been regarded as a new promising probiotic candidate. In this study, the efficacy of Streptococcus thermophiles DMST-H2 (DMST-H2) for AAD treatment in mice was investigated. DMST-H2 was isolated from Chinese traditional yogurt, proved to be non-toxic, and presented tolerance against simulated gastrointestinal conditions in vitro. Additionally, genomic analysis revealed that it possessed genes related to acid tolerance, bile salt tolerance, adhesion, oxidative stress and bacteriocin production. The animal experiment results showed that both DMST-H2 treatment and natural recovery could reduce fecal water content. Compared with spontaneous recovery, DMST-H2 accelerated the recovery of the enlarged caecum and intestinal barrier injury from AAD, and further decreased endotoxin (ET), D-lactate (D-LA) and diamine oxidase (DAO) content in serum. Moreover, pro-inflammatory cytokines (TNF-α) were reduced, while interferon-γ (IFN-γ) and anti-inflammatory cytokines (IL-10) increased after treating with DMST-H2. Furthermore, DMST-H2 better restored the structure of intestinal flora. At the phylum level, Firmicutes increased and Proteobacteria decreased. These findings indicate that DMST-H2 could promote recovery in mice with antibiotic-associated diarrhea.

Published
2020
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23. Enhanced Neuroprotective Effects of Coadministration of Tetrandrine with Glutathione in Preclinical Model of Parkinson’s Disease

Author

Xiang-Yun Li, Guang-Hai Mei, Qiang Dong, Yu Zhang, Zhuang-Li Guo, Jing-Jing Su, Yu-Ping Tang, Xue-Hong Jin, Hou-Guang Zhou, and Yan-Yan Huang

Subjects
Neurology. Diseases of the nervous system, RC346-429
Abstract

Aim. In this study we examined the influence of tetrandrine (Tet) on the neuroprotective effects of glutathione (GSH) in the 6-hydroxydopamine- (6-OHDA-) lesioned rat model of Parkinson’s disease (PD). Methods. Levels in the redox system, dopamine (DA) metabolism, dopaminergic neuronal survival, and apoptosis of the substantia nigra (SN) and striatum, as well as the rotational behavior of animals were examined after a 50-day administration of GSH + Tet (or GSH) and/or L-3,4-dihydroxyphenylalanine (L-dopa) to PD rats. Ethics Committee of Huashan Hospital, Fudan University approved the protocol (number SYXK2009-0082). Results. Administration of GSH or Tet alone did not show any significant effects on the factors evaluated in the PD rats. However, in the GSH + Tet group, we observed markedly decreased oxidative damage, inhibition of DA metabolism and enhanced DA synthesis, increased tyrosine hydroxylase- (TH-) immunopositive neuronal survival, and delayed apoptosis of dopaminergic neurons in the SN. Animal rotational behavior was improved in the GSH + Tet group. Additionally, coadministration of GSH + Tet appeared to offset the possible oxidative neurotoxicity induced by L-dopa. Conclusion. In this study, we demonstrated that tetrandrine allowed occurrence of the neuroprotective effect of glutathione probably due to inhibition of P-glycoprotein on 6-hydroxydopamine-lesioned rat models of Parkinson’s disease, including rats undergoing long-term L-dopa treatment.

Published
2015
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27. Golovinomyces cichoracearum effector‐associated nuclear localization of <scp>RPW8</scp> .2 amplifies its expression to boost immunity in Arabidopsis

Author

Jing‐Hao Zhao, Yan‐Yan Huang, He Wang, Xue‐Mei Yang, Yan Li, Mei Pu, Shi‐Xin Zhou, Ji‐Wei Zhang, Zhi‐Xue Zhao, Guo‐Bang Li, Beenish Hassan, Xiao‐Hong Hu, Xuewei Chen, Shunyuan Xiao, Xian‐Jun Wu, Jing Fan, and Wen‐Ming Wang

Subjects
Physiology, Plant Science
Abstract

Arabidopsis RESISTANCE TO POWDERY MILDEW 8.2 (RPW8.2) is specifically induced by the powdery mildew (PM) fungus (Golovinomyces cichoracearum) in the infected epidermal cells to activate immunity. However, the mechanism of RPW8.2-induction is not well understood. Here, we identify a G. cichoracearum effector that interacts with RPW8.2, named Gc-RPW8.2 interacting protein 1 (GcR8IP1), by a yeast two-hybrid screen of an Arabidopsis cDNA library. GcR8IP1 physically associated with RPW8.2 with its RING finger domain that is essential and sufficient for the association. GcR8IP1 was secreted and translocated into the nucleus of host cell infected with PM. Association of GcR8IP1 with RPW8.2 led to an increase of RPW8.2 in the nucleus. In turn, the nucleus-localised RPW8.2 promoted the activity of the RPW8.2 promoter, resulting in transcriptional self-amplification of RPW8.2 to boost immunity at infection sites. Additionally, ectopic expression or host-induced gene silencing of GcR8IP1 supported its role as a virulence factor in PM. Altogether, our results reveal a mechanism of RPW8.2-dependent defense strengthening via altered partitioning of RPW8.2 and transcriptional self-amplification triggered by a PM fungal effector, which exemplifies an atypical form of effector-triggered immunity.

Published
2023

29. <scp>Osa‐miR160a</scp> confers broad‐spectrum resistance to fungal and bacterial pathogens in rice

Author

Qin Feng, He Wang, Xue‐Mei Yang, Zhang‐Wei Hu, Xin‐Hui Zhou, Ling Xiang, Xiao‐Yu Xiong, Xiao‐Rong He, Yong Zhu, Guo‐Bang Li, Jing‐Hao Zhao, Yun‐Peng Ji, Xiao‐Hong Hu, Mei Pu, Shi‐Xin Zhou, Zhi‐Xue Zhao, Ji‐Wei Zhang, Yan‐Yan Huang, Jing Fan, Wen‐Ming Wang, and Yan Li

Subjects
Magnaporthe, Plant Breeding, Physiology, Oryza, Plant Science, Disease Resistance, Plant Diseases, Plant Proteins
Abstract

Rice production is threatened by multiple pathogens. Breeding cultivars with broad-spectrum disease resistance is necessary to maintain and improve crop production. Previously we found that overexpression of miR160a enhanced rice blast disease resistance. However, it is unclear whether miR160a also regulates resistance against other pathogens, and what the downstream signaling pathways are. Here, we demonstrate that miR160a positively regulates broad-spectrum resistance against the causative agents of blast, leaf blight and sheath blight in rice. Mutations of miR160a-targeted Auxin Response Factors result in different alteration of resistance conferred by miR160a. miR160a enhances disease resistance partially by suppressing ARF8, as mutation of ARF8 in MIM160 background partially restores the compromised resistance resulting from MIM160. ARF8 protein binds directly to the promoter and suppresses the expression of WRKY45, which acts as a positive regulator of rice immunity. Mutation of WRKY45 compromises the enhanced blast resistance and bacterial leaf blight resistance conferred by arf8 mutant. Overall, our results reveal that a microRNA coordinates rice broad-spectrum disease resistance by suppressing multiple target genes that play different roles in disease resistance, and uncover a new regulatory pathway mediated by the miR160a-ARF8 module. These findings provide new resources to potentially improve disease resistance for breeding in rice.

Published
2022

32. The Management and Use of Trade Union Funds in Public Institutions

Author

Yan-yan Huang

Subjects
Geology, Ocean Engineering, Water Science and Technology
Abstract

Trade union funds are the basis and guarantee for various activities in public institutions. It is of great significance to constantly enhance the vitality of trade unions and the competitiveness of public institutions to continuously improve the management and use of trade union funds, thus giving full play to the role of trade union funds to better serve workers. This paper analyzes the management and use of trade union funds in the present situation and proposes several measures for improvement.

Published
2022

33. The rice miR171b–SCL6-IIs module controls blast resistance, grain yield, and flowering

Author

Ting-Ting Li, Yan-Yan Huang, Mei Pu, Zeeshan Ghulam Nabi Gishkori, Wenming Wang, Yan Li, Wei Mao, Jing Wang, Ji-Wei Zhang, Jing Fan, Xiao-Rong He, Yong Zhu, Xiao-Yu Lin, Ying Tong, and Zhi-Xue Zhao

Subjects
Resistance (ecology), miR171b, Agriculture (General), Mutant, food and beverages, Agriculture, Blast disease resistance, Yield trait, Plant Science, Biology, Flowering, S1-972, Plant development, Horticulture, Expression pattern, Gene silencing, Grain yield, SCL6-IIs, Agronomy and Crop Science, Rice plant, Panicle
Abstract

MicroRNAs (miRNAs) act as regulators of plant development and multiple stress responses. Here we demonstrate that the rice miR171b-SCL6-IIs module regulates the balance between blast resistance, grain yield, and flowering. miR171b-overexpressing rice plants (OX171b) displayed increased rice blast resistance accompanied with enhanced defense responses and late heading, whereas blocking miR171b expression in rice (MIM171) led to greater susceptibility to blast disease, associated with compromised defense responses and early heading. Either overexpressing or silencing of miR171b significantly affected plant height and number of filled seeds per panicle (seed-setting rate), resulting in decreased grain yield. miR171b targets SCL6-IIa, SCL6-IIb, and SCL6-IIc, whose expression was suppressed in OX171b but increased in MIM171. Mutants of SCL6-IIa, SCL6-IIb, and SCL6-IIc all displayed phenotypes like that of OX171b, including markedly increased blast disease resistance, slightly decreased grain yield, and delayed flowering. Amounts of miR171b increased gradually in leaves during the vegetative stage but decreased gradually in panicles during the reproductive stage, whereas SCL6-IIs displayed the reverse expression pattern. Together, these results suggest that the expression of miR171b was time- and space-dependent during the rice growth period and regulated the balance between rice blast disease resistance, grain yield, and flowering via SCL6-IIs, and that appropriate accumulation of miR171b is essential for rice development.

Published
2022

34. Lactiplantibacillus plantarumDMDL 9010 alleviates dextran sodium sulfate (DSS)-induced colitis and behavioral disorders by facilitating microbiota-gut-brain axis balance

Author

Ming-hua Liang, Yan-yan Huang, Dong-mei Liu, Jin Lin, Xiang-ze Jia, Ya-ping Wu, and Lan-fang Xiao

Subjects
medicine.medical_specialty, biology, Chemistry, Firmicutes, Gut–brain axis, Verrucomicrobia, General Medicine, medicine.disease, biology.organism_classification, Ulcerative colitis, law.invention, Butyric acid, chemistry.chemical_compound, Probiotic, Endocrinology, law, Internal medicine, medicine, Colitis, Neuroinflammation, Food Science
Abstract

Previous studies have found that probiotic supplements could comfort mental behavioral disorders. This study investigated the effects of Lactiplantibacillus plantarum DMDL 9010 (LP9010) intake on the depression-like behavior induced by dextran sodium sulfate (DSS) and its possible mechanism. Male C57BL/6N mice were fed with DSS to establish the model of ulcerative colitis. LP9010 intake reduced DSS-induced inflammatory response, and repaired intestinal barrier damage, as well as lightened depression-like behavior. LP9010 supplementation also inhibited neuroinflammation by up-regulating the levels of neurotransmitters especially 5-HT, NE, DA, and 5-HIAA. Moreover, intake of LP9010 reorganized the gut microbiome by increasing the relative abundance of Bacteroidetes and Firmicutes, and decreasing the relative abundance of Proteobacteria and Verrucomicrobia. Furthermore, treatment with LP9010 also increased the levels of short-chain fatty acids such as butyric acid and propionic acid. In conclusion, LP9010 intake was a promising probiotic intervention strategy for the prevention of colitis-induced behavioral disorders through the microbiota-gut-brain axis.

Published
2022

35. Research on the Performance Appraisal of Human Resources in Public Institutions

Author

Yan-yan Huang

Subjects
Geology, Ocean Engineering, Water Science and Technology
Abstract

Under the background of economic globalization, the rapid development of the society and the intricate changes also require a leap in the economy and management level. For state-owned institutions, it is of great significance to maximize the enthusiasm of employees and managers as well as establish a scientific and efficient performance appraisal mechanism. This paper analyzes the existing problems and deficiencies of performance appraisal in public institutions and puts forward corresponding optimization countermeasures and plans.

Published
2021

36. Rice miR1432 Fine-Tunes the Balance of Yield and Blast Disease Resistance via Different Modules

Author

Ji-Wei Zhang, Xue-Mei Yang, Ya-Ping Zheng, Ling-Li Zhang, Wenming Wang, Xiao-Hong Hu, Jing-Hao Zhao, Shi-Xin Zhou, He Wang, Yan-Yan Huang, Mei Pu, Qin Feng, Yan Li, Guo-Bang Li, Yong Zhu, Xin-Hui Zhou, Yun-Peng Ji, Jing Fan, Zhi-Xue Zhao, and Xiao-Rong He

Subjects
Resistance (ecology), Abiotic stress, Soil Science, food and beverages, Plant culture, Plant Science, Blast disease resistance, Biology, OsEFH1, OsACOT, Cell biology, miR1432, SB1-1110, chemistry.chemical_compound, Chitin, chemistry, Yield (chemistry), microRNA, Original Article, Agronomy and Crop Science, Pathogen, MAMP, Gene, Yield traits
Abstract

microRNAs act as fine-tuners in the regulation of plant growth and resistance against biotic and abiotic stress. Here we demonstrate that rice miR1432 fine-tunes yield and blast disease resistance via different modules. Overexpression of miR1432 leads to compromised resistance and decreased yield, whereas blocking miR1432 using a target mimic of miR1432 results in enhanced resistance and yield. miR1432 suppresses the expression ofLOC_Os03g59790, which encodes an EF-hand family protein 1 (OsEFH1). Overexpression ofOsEFH1leads to enhanced rice resistance but decreased grain yield. Further study revealed that miR1432 andOsEFH1are differentially responsive to chitin, a fungus-derived pathogen/microbe-associated molecular pattern (PAMP/MAMP). Consistently, blocking miR1432 or overexpression ofOsEFH1improves chitin-triggered immunity responses. In contrast, overexpression ofACOT, another target gene regulating rice yield traits, has no significant effects on rice blast disease resistance. Altogether, these results indicate that miR1432 balances yield and resistance via different target genes, and blocking miR1432 can simultaneously improve yield and resistance.

Published
2021

37. Whole‐genome resequencing and transcriptome analysis provide insights on aphid‐resistant quantitative trait loci/genes in Sorghum bicolor

Author

Jianqing Zhu, Wenming Wang, Shi-Xin Zhou, Hui Feng, Guoqing Liu, Jing Fan, Wanglong Li, Xianlin Ni, Ganlin Zhao, Ling Li, Yan Li, Wang Xu, Yan-Yan Huang, Zhi-Xue Zhao, Ji-Wei Zhang, Peng Lv, Mei Pu, and Xin Yang

Subjects
Genetics, Transcriptome, Aphid, biology, Genome resequencing, Melanaphis sacchari, Quantitative Trait Loci Genes, Sorghum bicolor, Plant Science, Quantitative trait locus, biology.organism_classification, Agronomy and Crop Science
Published
2021

38. Pathogen effector-associated nuclear-localization of RPW8.2 amplifies its expression to boost immunity in Arabidopsis

Author

Jing-hao Zhao, Yan-yan Huang, He Wang, Xue-mei Yang, Jing Fan, Yan Li, Mei Pu, Shi-xin Zhou, Ji-wei Zhang, Zhi-xue Zhao, Guo-bang Li, Beenish Hassan, Xiao-hong Hu, Xue-wei Chen, Shunyuan Xiao, Xian-jun Wu, and Wen-ming Wang

Abstract

RESISTANCE TO POWDERY MILDEW 8 (RPW8) defines a unique N-terminal coiled-coil domain of nucleotide-binding and leucine-rich repeat immune receptors required for immune signaling in plants. Arabidopsis RPW8.2 is specifically induced by the powdery mildew (PM) fungus (Golovinomyces cichoracearum) in the infected epidermal cells to activate immunity. The mechanism of RPW8.2-induction is not well understood. Here, we identify aG. cichoracearumfactor delivered to the nucleus of the host cell, named Gc-RPW8.2 interacting protein 1 (GcR8IP1). Ectopic expression of GcR8IP1 in Arabidopsis orNicotiana benthamianasuppressed host immune responses and enhanced susceptibility to PM. Host-induced gene silencing ofGcR8IP1compromised PM infectivity in susceptible Arabidopsis plants. Co-expression of GcR8IP1 with RPW8.2 increased nuclear localization of RPW8.2, which in turn, promoted transcriptional amplification ofRPW8.2. Thus, RPW8.2-dependent defense strengthening is due to altered partitioning of RPW8.2 by an effector of a PM fungus, which exemplifies an atypical form of effector-triggered immunity.

Published
2022

39. Suppression of rice miR168 improves yield, flowering time and immunity

Author

Wen-Qiang Dang, Jing Wang, Shengze Yao, Xianjun Wu, Wenming Wang, Ji-Wei Zhang, Ling-Li Zhang, Shigui Li, Weitao Li, Yan Li, Yan-Yan Huang, He Wang, Ping Li, Xiao-Chun Ma, Jun-Hua Lu, Xuewei Chen, Yong Zhu, Mawsheng Chern, Jing Fan, Min He, Zhi-Xue Zhao, Zhirui Yang, Yi Li, Xu-Pu Li, Pamela C. Ronald, and Mei Pu

Subjects
0106 biological sciences, 0301 basic medicine, China, Plant genetics, Plant Science, Biology, Genes, Plant, 01 natural sciences, Magnoliopsida, 03 medical and health sciences, Suppression, Genetic, Gene Expression Regulation, Plant, Immunity, microRNA, Gene silencing, Plant Immunity, Gene, Panicle, Regulation of gene expression, fungi, food and beverages, Oryza, Plants, Genetically Modified, Cell biology, MicroRNAs, Plant Breeding, 030104 developmental biology, RNA, Plant, Paddy field, 010606 plant biology & botany
Abstract

MicroRNA168 (miR168) is a key miRNA that targets Argonaute1 (AGO1), a major component of the RNA-induced silencing complex1,2. Previously, we reported that miR168 expression was responsive to infection by Magnaporthe oryzae, the causal agent of rice blast disease3. However, how miR168 regulates immunity to rice blast and whether it affects rice development remains unclear. Here, we report our discovery that the suppression of miR168 by a target mimic (MIM168) not only improves grain yield and shortens flowering time in rice but also enhances immunity to M. oryzae. These results were validated through repeated tests in rice fields in the absence and presence of rice blast pressure. We found that the miR168–AGO1 module regulates miR535 to improve yield by increasing panicle number, miR164 to reduce flowering time, and miR1320 and miR164 to enhance immunity. Our discovery demonstrates that changes in a single miRNA enhance the expression of multiple agronomically important traits. In rice, it is known that miR168 regulates AGO1. Using a target mimic approach to suppress the microRNA enhances resistance against rice blast disease, increases grain yield and shortens growth period, including in field trials.

Published
2021

41. Overproduction of OsRACK1A, an effector-targeted scaffold protein promoting OsRBOHB-mediated ROS production, confers rice floral resistance to false smut disease without yield penalty

Author

Guo-Bang Li, Jia-Xue He, Jin-Long Wu, He Wang, Xin Zhang, Jie Liu, Xiao-Hong Hu, Yong Zhu, Shuai Shen, Yi-Fei Bai, Zong-Lin Yao, Xin-Xian Liu, Jing-Hao Zhao, De-Qiang Li, Yan Li, Fu Huang, Yan-Yan Huang, Zhi-Xue Zhao, Ji-Wei Zhang, Shi-Xin Zhou, Yun-Peng Ji, Mei Pu, Peng Qin, Shigui Li, Xuewei Chen, Jing Wang, Min He, Weitao Li, Xian-Jun Wu, Zheng-Jun Xu, Wen-Ming Wang, and Jing Fan

Subjects
Seeds, Oryza, Plant Science, Flowers, Reactive Oxygen Species, Molecular Biology, Plant Diseases
Abstract

Grain formation is fundamental for crop yield but is vulnerable to abiotic and biotic stresses. Rice grain production is threatened by the false smut fungus Ustilaginoidea virens, which specifically infects rice floral organs, disrupting fertilization and seed formation. However, little is known about the molecular mechanisms of the U. virens-rice interaction and the genetic basis of floral resistance. Here, we report that U. virens secretes a cytoplasmic effector, UvCBP1, to facilitate infection of rice flowers. Mechanistically, UvCBP1 interacts with the rice scaffold protein OsRACK1A and competes its interaction with the reduced nicotinamide adenine dinucleotide phosphate oxidase OsRBOHB, leading to inhibition of reactive oxygen species (ROS) production. Although the analysis of natural variation revealed no OsRACK1A variants that could avoid being targeted by UvCBP1, expression levels of OsRACK1A are correlated with field resistance against U. virens in rice germplasm. Overproduction of OsRACK1A restores the OsRACK1A-OsRBOHB association and promotes OsRBOHB phosphorylation to enhance ROS production, conferring rice floral resistance to U. virens without yield penalty. Taken together, our findings reveal a new pathogenic mechanism mediated by an essential effector from a flower-specific pathogen and provide a valuable genetic resource for balancing disease resistance and crop yield.

Published
2022

44. A trimeric CrRLK1L-LLG1 complex genetically modulates SUMM2-mediated autoimmunity

Author

Fausto Andres Ortiz-Morea, Libo Shan, Jun Liu, Baomin Feng, Liang Kong, Ping He, Yan-Yan Huang, Chuanchun Yin, Wenming Wang, Julia Richter, Dongdong Ge, and Marie-Theres Hauser

Subjects
0106 biological sciences, 0301 basic medicine, Programmed cell death, Plant genetics, Plant molecular biology, Catharanthus, Glycosylphosphatidylinositols, MAP Kinase Signaling System, Science, Plant physiology, Arabidopsis, General Physics and Astronomy, Autoimmunity, MAPK cascade, GPI-Linked Proteins, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Plant immunity, RNA interference, Gene Expression Regulation, Plant, Phosphorylation, Receptor, lcsh:Science, Plant Proteins, Regulation of gene expression, Mitogen-Activated Protein Kinase Kinases, Multidisciplinary, Cell Death, Kinase, Chemistry, Arabidopsis Proteins, General Chemistry, MAP Kinase Kinase Kinases, Plants, Genetically Modified, Cell biology, 030104 developmental biology, Ectodomain, Plant signalling, RNA Interference, lcsh:Q, Carrier Proteins, Transcriptome, 010606 plant biology & botany
Abstract

Cell death is intrinsically linked with immunity. Disruption of an immune-activated MAPK cascade, consisting of MEKK1, MKK1/2, and MPK4, triggers cell death and autoimmunity through the nucleotide-binding leucine-rich repeat (NLR) protein SUMM2 and the MAPK kinase kinase MEKK2. In this study, we identify a Catharanthus roseus receptor-like kinase 1-like (CrRLK1L), named LETUM2/MEDOS1 (LET2/MDS1), and the glycosylphosphatidylinositol (GPI)-anchored protein LLG1 as regulators of mekk1-mkk1/2-mpk4 cell death. LET2/MDS1 functions additively with LET1, another CrRLK1L, and acts genetically downstream of MEKK2 in regulating SUMM2 activation. LET2/MDS1 complexes with LET1 and promotes LET1 phosphorylation, revealing an intertwined regulation between different CrRLK1Ls. LLG1 interacts with the ectodomain of LET1/2 and mediates LET1/2 transport to the plasma membrane, corroborating its function as a co-receptor of LET1/2 in the mekk1-mkk1/2-mpk4 cell death pathway. Thus, our data suggest that a trimeric complex consisting of two CrRLK1Ls LET1, LET2/MDS1, and a GPI-anchored protein LLG1 that regulates the activation of NLR SUMM2 for initiating cell death and autoimmunity., MAPK signaling suppresses autoimmunity mediated by the SUMM2 receptor in Arabidopsis. Here Huang et al. show that a trimeric complex consisting of the GPI anchored protein LLG1, and the two receptor-like proteins LET1 and LET2, promotes activation of SUMM2 according to MAPK signaling status.

Published
2020

45. The malectin-like receptor-like kinase LETUM1 modulates NLR protein SUMM2 activation via MEKK2 scaffolding

Author

Wenming Wang, Elizabeth P. B. Fontes, Dongdong Ge, Xiao Yu, Pingwei Li, Baomin Feng, Peiguo Yuan, Derui Liu, Yan-Yan Huang, Jun Liu, Ping He, Liang Kong, Libo Shan, Giselle Camargo Mendes, and Baoyu Zhao

Subjects
0106 biological sciences, 0301 basic medicine, Regulation of gene expression, Innate immune system, Kinase, Chemistry, Arabidopsis Proteins, MAP Kinase Signaling System, fungi, Pattern recognition receptor, Membrane Proteins, Plant Science, MAPK cascade, Genes, Plant, 01 natural sciences, Article, Cell biology, 03 medical and health sciences, 030104 developmental biology, Immune system, RNA interference, Gene Expression Regulation, Plant, Plant Immunity, Receptor, 010606 plant biology & botany
Abstract

The innate immune system detects pathogen-derived molecules via specialized immune receptors to prevent infections1-3. Plant immune receptors include cell surface-resident pattern recognition receptors (PRRs, including receptor-like kinases (RLKs)), and intracellular nucleotide-binding domain leucine-rich repeat proteins (NLRs). It remains enigmatic how RLK- and NLR-mediated signalling are connected. Disruption of an immune-activated MEKK1-MKK1/2-MPK4 MAPK cascade activates the NLR SUMM2 via the MAPK kinase kinase MEKK2, leading to autoimmunity4-9. To gain insights into the mechanisms underlying SUMM2 activation, we used an RNA interference-based genetic screen for mekk1 autoimmune suppressors and identified an uncharacterized malectin-like RLK, named LETUM1 (LET1), as a specific regulator of mekk1-mkk1/2-mpk4 autoimmunity via complexing with both SUMM2 and MEKK2. MEKK2 scaffolds LET1 and SUMM2 for protein stability and association, and counter-regulates the F-box protein CPR1-mediated SUMM2 ubiquitination and degradation, thereby regulating SUMM2 accumulation and activation. Our study indicates that malectin-like RLK LET1 senses the perturbance of cellular homoeostasis caused by the deficiency in immune-activated signalling and activates the NLR SUMM2-mediated autoimmunity via MEKK2 scaffolding.

Published
2020

46. Identification of FERONIA-like receptor genes involved in rice-Magnaporthe oryzae interaction

Author

Yong Zhu, Mei Pu, Ying Xie, Wenming Wang, Xiao-Yu Lin, Ling-Li Zhang, Hui Feng, Zi-Jin Hu, Liang-Fang Wang, Jing Fan, Ji-Wei Zhang, He Wang, Ji-Qun Zhao, Xin-Xian Liu, Wen-Qiang Dang, Yan-Yan Huang, and Yan Li

Subjects
0106 biological sciences, 0301 basic medicine, Physiology, Mutant, Plant Science, Biology, lcsh:Plant culture, 01 natural sciences, Biochemistry, Genetics and Molecular Biology (miscellaneous), 03 medical and health sciences, Rice blast resistance, Immunity, Arabidopsis, Genetics, CRISPR, lcsh:SB1-1110, Receptor, Gene, Receptor-like kinase, CRISPR/Cas9, Cas9, Kinase, food and beverages, Magnaporthe oryzae, biology.organism_classification, FERONIA-like receptors, 030104 developmental biology, 010606 plant biology & botany
Abstract

The receptor-like kinase (RLK) FERONIA functions in immunity in Arabidopsis. Here, we systemically screened rice RLK genes encoding FERONIA-like receptor (FLRs) that may be involved in rice-Magnaporthe oryzae interaction. The expression of 16 FLR genes was examined in response to the infection of M. oryzae in different rice varieties. For each FLR gene, at least two independent mutants were generated by CRISPR/Cas9 gene-editing technology in rice variety Zhonghua 11 (ZH11). Blast disease assay identified that the mutants of FLR1 and FLR13 showed increased susceptibility, whereas the mutants of FLR2 and FLR11 displayed enhanced resistance. Consistently, the mutant of FLR1 enhanced, but the mutant of FLR2 delayed the M. oryzae infection progress, which might be associated with the altered expression of defense-related genes. Together, these data indicate that at least 4 FLR genes are involved in rice-M. oryzae interaction and thus are potentially valuable in blast disease resistance.

Published
2020

47. Osa‐miR1873 fine‐tunes rice immunity against Magnaporthe oryzae and yield traits

Author

Ya-Ping Zheng, Ji-Wei Zhang, Jing Fan, Yan Li, Yan-Yan Huang, Xue-Mei Yang, Hui Feng, Xiao-Chun Ma, Jin-Feng Chen, He Wang, Wenming Wang, Mei Pu, Ting-Ting Li, Shi-Xin Zhou, Liang-Fang Wang, Xu-Pu Li, Ji-Qun Zhao, and Yong Zhu

Subjects
0106 biological sciences, 0301 basic medicine, Plant Science, Biology, 01 natural sciences, Biochemistry, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Quantitative Trait, Heritable, Downregulation and upregulation, Gene Expression Regulation, Plant, Immunity, microRNA, Plant Immunity, Blast disease, Disease Resistance, Plant Diseases, Ecotype, Genetics, food and beverages, Oryza, respiratory tract diseases, Magnaporthe, MicroRNAs, Magnaporthe oryzae, 030104 developmental biology, Yield (chemistry), Disease Susceptibility, Target gene, 010606 plant biology & botany
Abstract

MicroRNAs (miRNAs) are known to fine-tune growth, development, and stress-induced responses. Osa-miR1873 is a rice-specific miRNA targeting LOC_Os05g01790. Here, we show that Osa-miR1873 fine-tunes rice immunity against Magnaporthe oryzae and yield traits via LOC_Os05g01790. Osa-miR1873 was significantly upregulated in a susceptible accession but downregulated in a resistance accession at 24 h post-inoculation (hpi) of M. oryzae. Overexpressing Osa-miR1873 enhanced susceptibility to M. oryzae and compromised induction of defense responses. In contrast, blocking Osa-miR1873 through target mimicry compromised susceptibility to M. oryzae and enhanced induction of defense responses. Altered expression of Osa-miR1873 also resulted in some defects in yield traits, including grain numbers and seed setting rate. Moreover, overexpression of the target gene LOC_Os05g01790 increased rice blast disease resistance but severely penalized growth and yield. Taken together, we demonstrate that Osa-miR1873 fine-tunes the rice immunity-growth trade-off via LOC_Os05g01790, and blocking Osa-miR1873 could improve blast disease resistance without significant yield penalty. Thus, the Osa-miR1873-LOC_Os05g01790 regulatory module is valuable in balancing yield traits and blast resistance.

Published
2020

48. Structural characterization of a novel Lactarius volemus Fr. polysaccharide and its immunity activity in BALB/c mice

Author

Yan-yan Huang, Dong-mei Liu, Huang Juan, Jia-jia Yu, and Ming-hua Liang

Subjects
chemistry.chemical_classification, endocrine system, 0303 health sciences, biology, General Chemical Engineering, Spleen, 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, Polysaccharide, Microbiology, BALB/c, 03 medical and health sciences, Immune system, medicine.anatomical_structure, chemistry, Immunity, Lactarius, medicine, 0210 nano-technology, 030304 developmental biology, Mannan
Abstract

Lactarius volemus Fr. has been regarded as a great edible medicinal fungal resource in China. In this study, L. volemus Fr. polysaccharide (LVP) with an average molecular weight of 16.842 kDa was obtained by water extraction. The structure of LVP was characterized to be mannan, and the linkages in the mannan were found to comprise the Manp, (1→4)-α-Man and (1→4,6)-α-Man. Furthermore, intraperitoneal administration of LVP increased the thymus, spleen and liver indices, dose-dependently. Additionally, LVP enhanced the immune response and the phagocytic activities. Pathological evaluations showed that LVP in mice increased the proliferation of red medullary lymphocytes (60–70%). Collectively, these results indicated that LVP might be a potential resource of raw material for further investigations of functional foods.

Published
2020

49. Isolation, expression, and biochemical characterization: nitrite reductase from Bacillus cereus LJ01

Author

Dong-mei Liu, Yong-zhi Lu, Ming-hua Liang, Jin-song Liu, Si-min Chen, Shan Zhao, and Yan-yan Huang

Subjects
0106 biological sciences, 0303 health sciences, biology, 030306 microbiology, General Chemical Engineering, Metal ions in aqueous solution, Bacillus cereus, Active site, Environmental pollution, General Chemistry, biology.organism_classification, Nitrite reductase, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Nitrate, chemistry, Cereus, Biochemistry, 010608 biotechnology, biology.protein, Nitrite
Abstract

Biological remediation of toxic oxygen-containing anions such as nitrate that are common in the environment is of great significance. Therefore, it is necessary to understand the specific role of nitrate and nitrite reductase in the bioremediation process. Bacillus cereus LJ01, which was isolated from traditional Chinese soybean paste, effectively degraded nitrite (such as NaNO2) at 0–15 mmol L−1 in LB medium. Moreover, the nitrite-degrading active substance (ASDN) was isolated and purified from B. cereus LJ01. The nitrite-degrading activity of nitrite reductase (named LJ01-NiR) was 4004.89 U mg−1. The gene encoding the assimilation of nitrite reductase in B. cereus LJ01 was cloned and overexpressed in E. coli. The purified recombinant LJ01-NiR has a wide range of activities under temperature (20–60 °C), pH (6.5–8.0) and metal ions (Fe3+, Fe2+, Cu2+, Mn2+, and Al3+). Kinetic parameters of LJ01-NiR, including the values of Km and Vmax were 1.38 mM and 2.00 μmol g−1 min−1, respectively. The results showed that LJ01-NiR could degrade nitrite with or without an electron donor. In addition, sequence analysis revealed that LJ01-NiR was a ferredoxin-dependent nitrite reductase given the presence of conserved [Fe4–S4] cluster and heme-binding domain. The nitrite ion binds to the LJ01-NiR active site by forming three hydrogen bonds with the residues ASN72, ALA133 and ASN140. Due to its high nitrite-degrading activity, LJ01-NiR could potentially be used for environmental pollution treatment.

Published
2020

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