Query:
学者姓名:关雄
Refining:
Year
Type
Indexed by
Source
Complex
Co-Author
Language
Clean All
Abstract :
Enhancing the field persistence of Bacillus thuringiensis (Bt) biopesticides is crucial for efficient pest management. This study presents the first systematic investigation into the mechanisms by which all 20 L-amino acids influence Bt biofilm formation, ultraviolet (UV) resistance, and insecticidal activity. The results demonstrate that amino acids functioned as interfacial modulators: non-polar hydrophobic types (e.g., L-leucine) significantly increased biofilm biomass in wettable powder through hydrophobic adhesion, whereas basic types (e.g., Larginine, L-lysine) enhanced the stability of aqueous suspension concentrate via electrostatic stabilization. Through statistical optimization (Plackett-Burman design and response surface methodology), a synergistic formulation composed of L-arginine, L-lysine, and L-leucine was identified. This formulation increased the biofilm yield of the commercial Kernel 32,000 IU/mg wettable powder by 3.8-fold and improved survival rate by approximately 50 % after 4 h of UV irradiation. At the physio-toxicological level, this amino acid combination reduced the LC50 against second-instar Plutella xylostella larvae by 8.12-fold. Transmission electron microscopy revealed complete microvilli shedding and mitochondrial cristae breakage in the treated midgut, indicating that the synergistic mechanism stems from the disruption of the midgut epithelial barrier. This study provides the first direct link between amino-acid-mediated interfacial interactions and midgut pathological damage, offering molecular-physiological evidence for next-generation, low-dose, highly stable Bt formulation with manageable resistance risks.
Keyword :
Amino acid synergism Amino acid synergism Bacillus thuringiensis (Bt) Bacillus thuringiensis (Bt) Biofilm formation Biofilm formation Biopesticide optimization Biopesticide optimization Midgut pathophysiology Midgut pathophysiology UV resistance UV resistance
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Wang, Zixuan , Zhang, Yimeng , Chen, Junjun et al. L-amino acids modulate biofilm formation, UV resistance, and insecticidal activity in Bacillus thuringiensis formulations: Mechanisms and optimization [J]. | PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY , 2026 , 216 . |
| MLA | Wang, Zixuan et al. "L-amino acids modulate biofilm formation, UV resistance, and insecticidal activity in Bacillus thuringiensis formulations: Mechanisms and optimization" . | PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY 216 (2026) . |
| APA | Wang, Zixuan , Zhang, Yimeng , Chen, Junjun , Liu, Qingqing , Luo, Xueqin , Xu, Qiuting et al. L-amino acids modulate biofilm formation, UV resistance, and insecticidal activity in Bacillus thuringiensis formulations: Mechanisms and optimization . | PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY , 2026 , 216 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Herbicides play an important role in weed control when it comes to ensuring a high and consistent yield in agriculture, but their effectiveness is often compromised by climatic variables. Therefore, improving the climatic adaptability of pesticides is crucial to ensure sustainable agricultural development. In this study, a novel bispyribac-sodium (BIS)-zeolitic imidazolate framework-8 (ZIF-8) nanopesticide (BIS@ZIF-8) with excellent multi-stimuli-responsive properties was synthesized. The nanopesticide BIS@ZIF-8 showed a multi-stimuli response and efficient weed control. In addition, the BIS@ZIF-8 nanocomposite showed strong resistance to rainwater erosion on leaf surfaces with a BIS retention rate of 76.26% under simulated rainwater, which was 41.54% higher than the BIS retention rate of the pure herbicide. Under UV light and acidic conditions, a high concentration of BIS was released from the BIS@ZIF-8 nanocomposite, resulting in an improved weed control effect. Further analyses showed that the BIS@ZIF-8 nanocomposite retained its structural stability and adhered to the weed under rainy conditions through electrostatic interaction. Conversely, the BIS@ZIF-8 nanocomposite was depolymerized under UV light irradiation and released BIS to kill weeds. In addition, BIS@ZIF-8 showed excellent herbicidal activity under field conditions with good biosafety. This work provides a new strategy to avoid environmental and climate-induced pesticide losses and paves the way for smart weed control in agriculture. Herbicides play an important role in weed control when it comes to ensuring a high and consistent yield in agriculture, but their effectiveness is often compromised by climatic variables.
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Zhang, Dingyang , Guo, Xueping , Rao, Wenhua et al. A multi-stimuli-response metal-organic framework nanopesticide for smart weed control in agriculture [J]. | ENVIRONMENTAL SCIENCE-NANO , 2025 , 12 (1) : 608-622 . |
| MLA | Zhang, Dingyang et al. "A multi-stimuli-response metal-organic framework nanopesticide for smart weed control in agriculture" . | ENVIRONMENTAL SCIENCE-NANO 12 . 1 (2025) : 608-622 . |
| APA | Zhang, Dingyang , Guo, Xueping , Rao, Wenhua , Pan, Danmei , Cao, Fang , Zhai, Tianyun et al. A multi-stimuli-response metal-organic framework nanopesticide for smart weed control in agriculture . | ENVIRONMENTAL SCIENCE-NANO , 2025 , 12 (1) , 608-622 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Bacillus thuringiensis (Bt) is affected by ultraviolet radiation and bacterial sedimentation in pest control applications, leading to low pesticide utilization and a short duration of control. To improve Bt stability in these applications and prolong the duration of biological control, Bt LLP29 was first encapsulated using double emulsion technology, resulting in the formation of W1/O/W2 double emulsion microcapsules with sodium lignosulfonate and chitosan as wall materials. The morphological structure and functionality of microcapsules were then systematically investigated. Notably, the survival rates of Bt bacteria and spores in the microcapsules were maintained at 22.98 % and 8.18 % after 96 h of UV irradiation, and the retention rate of insecticidal protein was increased by 41.42 % after 72 h, with high mosquito-killing activity maintained. Furthermore, the Bt microcapsules exhibited excellent suspension properties and sustained release capabilities, which enhanced the retention of Bt active ingredients in the environment of young mosquitoes and extended the duration of pest control. These studies pioneered the application of double emulsion technology and microcapsules to the encapsulation of Bt based on the functional properties of chitosan. This will pave the way for the development of multifunctional Bt preparations in agricultural applications and pest control.
Keyword :
Anti-ultraviolet Anti-ultraviolet Bacillus thuringiensis Bacillus thuringiensis Chitosan Chitosan Larvae control Larvae control Microcapsules Microcapsules Pickering emulsion Pickering emulsion Sodium lignosulfonate Sodium lignosulfonate
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Wu, Haonan , Du, Xi , Guo, Xueping et al. Chitosan-based Pickering double emulsion microcapsules improve the UV stability and the persistence of Bacillus thuringiensis on mosquito control [J]. | CARBOHYDRATE POLYMERS , 2025 , 354 . |
| MLA | Wu, Haonan et al. "Chitosan-based Pickering double emulsion microcapsules improve the UV stability and the persistence of Bacillus thuringiensis on mosquito control" . | CARBOHYDRATE POLYMERS 354 (2025) . |
| APA | Wu, Haonan , Du, Xi , Guo, Xueping , Cai, Jinghong , Chen, Hong , Chen, Caixia et al. Chitosan-based Pickering double emulsion microcapsules improve the UV stability and the persistence of Bacillus thuringiensis on mosquito control . | CARBOHYDRATE POLYMERS , 2025 , 354 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Exopolysaccharides (EPS) produced by Bacillus species display various biological activities and characteristics such as anti-oxidant, immunomodulatory, anti-bacterial, and bioadhesive effects. These attributes confer Bacillus species broad potential applications in diverse fields such as food, medicine, environment, and agriculture. Moreover, Bacillus-derived EPS are easier to produce and yield higher quantities than plant-derived polysaccharides. Despite these advantages, Bacillus-derived EPS still encounter numerous obstacles in industrial production and commercial applications, including elevated costs, the absence of mature fermentation tank production procedures, and the lack of systematic in vivo and in vitro activity and metabolic evaluation. Therefore, it is essential to gain insight into the current status of structure, production, and applications of Bacillus-derived EPS for facilitating their future broader application. This paper provides a comprehensive overview of the current research on the production, separation, characteristics and applications of these related biological products. Furthermore, this paper summarizes the current challenges impeding industrial production of Bacillus-derived EPS, along with potential solutions, and their prospective applications in enhancing the attributes of beneficial biofilms, laying a solid scientific foundation for the applications of Bacillus-derived EPS in industry and agriculture.
Keyword :
Applications Applications Bacillus Bacillus Beneficial biofilms Beneficial biofilms Characteristics Characteristics Exopolysaccharides Exopolysaccharides Production Production
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Yang, Xiaolong , Mao, Yufei , Chen, Lan et al. Structural characteristics, biotechnological production and applications of exopolysaccharides from Bacillus sp.: A comprehensive review [J]. | CARBOHYDRATE POLYMERS , 2025 , 355 . |
| MLA | Yang, Xiaolong et al. "Structural characteristics, biotechnological production and applications of exopolysaccharides from Bacillus sp.: A comprehensive review" . | CARBOHYDRATE POLYMERS 355 (2025) . |
| APA | Yang, Xiaolong , Mao, Yufei , Chen, Lan , Guan, Xiong , Wang, Zixuan , Huang, Tianpei . Structural characteristics, biotechnological production and applications of exopolysaccharides from Bacillus sp.: A comprehensive review . | CARBOHYDRATE POLYMERS , 2025 , 355 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Rice bacterial leaf streak (BLS) caused by Xanthomonas oryzae pv. oryzicola (Xoc) significantly reduces rice yield and quality. Traditional chemical control methods often have limited efficacy and raise environmental concerns, highlighting the need for safer and more effective alternatives. This study is the first to comprehensively investigated the antibacterial properties of zeolitic imidazolate framework-8 nanoparticles (ZIF-8 NPs) against Xoc. The ZIF-8 NPs showed strong in vitro bactericidal effects with a half-maximal inhibitory concentration (EC50) of 0.15 mg/mL. The antibacterial mechanism of ZIF-8 NPs involves disrupting bacterial membrane integrity, inducing DNA damage, and triggering an excessive burst of reactive oxygen species, leading to oxidative stress and cell death. Compared to conventional pesticide formulations, ZIF-8 NPs demonstrated superior efficacy in suppressing Xoc growth. In addition, ZIF-8 NPs significantly suppressed the activities of multiple virulence factors of Xoc including extracellular hydrolase (protease, cellulase, and pectinase), extracellular polysaccharide production, and biofilm formation, and showed effective adhesion and bidirectional transport in rice tissues. Greenhouse experiments also revealed that the NPs enhanced the antioxidant activity of some key enzymes in rice, reducing disease severity, while ensuring the biosafety of non-targeted organisms. These findings underline the potential of ZIF-8 NPs as a promising nano-antimicrobial agent for sustainable BLS management, offering an environmentally friendly alternative to conventional pesticides in rice disease control.
Keyword :
Bacterial leaf streak Bacterial leaf streak Biosafety Biosafety Nanopesticides Nanopesticides Plant transport Plant transport Reactive oxygen species Reactive oxygen species ZIF-8 ZIF-8
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Zhang, Dingyang , Cui, Ziqi , Liang, Shujing et al. Zeolitic imidazolate framework-8 nanoparticles: A promising nano-antimicrobial agent for sustainable management of bacterial leaf streak in rice [J]. | PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY , 2025 , 214 . |
| MLA | Zhang, Dingyang et al. "Zeolitic imidazolate framework-8 nanoparticles: A promising nano-antimicrobial agent for sustainable management of bacterial leaf streak in rice" . | PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY 214 (2025) . |
| APA | Zhang, Dingyang , Cui, Ziqi , Liang, Shujing , Rao, Wenhua , Abubakar, Yakubu Saddeeq , Guan, Xiong et al. Zeolitic imidazolate framework-8 nanoparticles: A promising nano-antimicrobial agent for sustainable management of bacterial leaf streak in rice . | PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY , 2025 , 214 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Aedes aegypti, a crucial vector mosquito that transmits many diseases that cause millions of deaths worldwide, can be controlled with Bacillus thuringiensis subsp. israelensis (Bti). The larvicidal activity of Bti against Ae. aegypti is due primarily to Cry4Aa, Cry4Ba, and Cry11Aa, and Cyt1Aa, a protein that synergizes the activity of the Cry proteins. Interestingly, Galectins-6 and Galectins-14, members of a family of beta-galactoside-binding proteins that play a role in immune responses insects, have been shown to decrease the activity of Bti toxins. The activity of other Galectins, particularly Galectin-8A, against the Cry proteins is not known. Toward this end, we cloned the gene coding for galactin-8A and expressed the recombinant protein and purified protein. The bioassay results indicated that Galectin-8A can also reduce the toxicity of Cry11Aa, but it was much stronger than Galectin-6. To investigate the interactions among Galectin-8A, Cry11Aa, and toxin receptors, Octet Red System analysis, Western blot, far-Western blot, and ELISA assay were also performed. The Octet Red System result showed that Galectin-8A could also bind to BBMVs of Ae. aegypti, with a lower kDa value than that of Galectin-6, indicating that Galectin-8A had a stronger binding affinity to BBMVs than Galectin-6. Western blot, far-Western blot, and ELISA assay analyses also demonstrated that Galectin-8A bound to Ae. aegypti receptor ALP1 and APN2, consistent with the protein docking simulation results. These findings support the conclusion that Galectin-8A blocks with ALP1 and APN2 more effectively than Galectin-6, which may subsequently reduce the toxicity of Cry11Aa in Ae. aegypti.
Keyword :
Aedes aegypti Aedes aegypti Bti Bti Cry11Aa Cry11Aa Galectin-8A Galectin-8A receptor receptor
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Hu, Xiaohua , Huang, Xianhui , Liu, Jiannan et al. Galectin-8A Inhibits Cry11Aa Binding to ALP1 and APN 2 Receptors and Toxicity Against Aedes aegypti Larvae [J]. | TOXINS , 2025 , 17 (9) . |
| MLA | Hu, Xiaohua et al. "Galectin-8A Inhibits Cry11Aa Binding to ALP1 and APN 2 Receptors and Toxicity Against Aedes aegypti Larvae" . | TOXINS 17 . 9 (2025) . |
| APA | Hu, Xiaohua , Huang, Xianhui , Liu, Jiannan , Zhao, Guohui , Wu, Songqing , Yu, Xiaoqiang et al. Galectin-8A Inhibits Cry11Aa Binding to ALP1 and APN 2 Receptors and Toxicity Against Aedes aegypti Larvae . | TOXINS , 2025 , 17 (9) . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
本发明涉及一种利用有机酸提升苏云金芽胞杆菌制剂生物活性的方法。所述方法具体为:向苏云金芽胞杆菌制剂中添加有机酸,从而提升苏云金芽胞杆菌制剂的生物活性;所述苏云金芽胞杆菌制剂为苏云金芽胞杆菌可湿性粉剂;所述有机酸选自棕榈酸、硬脂酸、花生酸、乙酰水杨酸、油酸中的任意一种或多种;所述生物活性包括生物被膜形成能力、抗紫外线能力、杀虫活性中的任意一种或多种。通过本发明的方法,能够显著提升苏云金芽胞杆菌制剂在农业中的应用效果,具有较高的实际应用价值。
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | 黄天培 , 赵梵 , 毛雨飞 et al. 一种利用有机酸提升苏云金芽胞杆菌制剂生物活性的方法 : CN202411726650.4[P]. | 2024-11-28 . |
| MLA | 黄天培 et al. "一种利用有机酸提升苏云金芽胞杆菌制剂生物活性的方法" : CN202411726650.4. | 2024-11-28 . |
| APA | 黄天培 , 赵梵 , 毛雨飞 , 王子瑄 , 苏泓昕 , 梅智峰 et al. 一种利用有机酸提升苏云金芽胞杆菌制剂生物活性的方法 : CN202411726650.4. | 2024-11-28 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Phyllotreta striolata is a major pest of Brassica chinensis, with chemical pesticides being the primary method for pest control. However, their negative impact on crop growth and environmental risks have prompted the search for low-toxicity, environmentally friendly alternatives. This study systematically evaluates the control effectiveness of two commonly used chemical pesticides, Zu Jia (R) and Jie Tiao (R), along with their impact on the growth characteristics of B. chinensis and compares them to the biopesticide Bacillus thuringiensis (Bt) strain G033A. The control efficacy was assessed by measuring the insect population reduction rate and plant physiological indicators (weight, plant height, chlorophyll content, and root length). The differences between biopesticide and the two chemical pesticide treatments were analyzed. The results indicated that both Bt strain G033A and the chemical pesticides significantly controlled P. striolata. However, chemical pesticides (Zu Jia (R) and Jie Tiao (R)) significantly reduced the chlorophyll content, plant height, and weight of B. chinensis (p < 0.05), whereas Bt strain G033A had no significant adverse effects on these plant traits (p > 0.05). The colonization characteristics of the Bt strain suggest potential for sustained pest control, while chemical pesticides exhibited rapid pest suppression effects. The findings highlight a novel IPM strategy that integrates the long-lasting efficacy of Bt biopesticides with the rapid action of chemical pesticides, offering a more sustainable and balanced approach to P. striolata management in B. chinensis cultivation.
Keyword :
biopesticides biopesticides Brassica chinensis Brassica chinensis chemical pesticides chemical pesticides integrated pest management integrated pest management Phyllotreta striolata Phyllotreta striolata
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Lin, Fuyong , Muhammad, Musa Hassan , Mao, Yufei et al. Comparative Control of Phyllotreta striolata: Growth-Inhibiting Effects of Chemical Insecticides Versus the Green Advantages of a Biopesticide [J]. | INSECTS , 2025 , 16 (6) . |
| MLA | Lin, Fuyong et al. "Comparative Control of Phyllotreta striolata: Growth-Inhibiting Effects of Chemical Insecticides Versus the Green Advantages of a Biopesticide" . | INSECTS 16 . 6 (2025) . |
| APA | Lin, Fuyong , Muhammad, Musa Hassan , Mao, Yufei , Zhao, Fan , Wang, Zixuan , Hong, Yongcong et al. Comparative Control of Phyllotreta striolata: Growth-Inhibiting Effects of Chemical Insecticides Versus the Green Advantages of a Biopesticide . | INSECTS , 2025 , 16 (6) . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Tomato bacterial wilt is an important disease caused by Ralstonia solanacearum, which is harmful to the development of tomato industry and seriously affects the yield and quality of tomato. In this study, the strain XF-8 with antagonism against R. solanacearum was isolated from soil and identified as Bacillus velezensis, and its control effect on tomato bacterial wilt was better than that of kasugamycin. The disease index of tomato plants treated with XF-8 was significantly reduced (P < 0.05) in the pot experiment, and the control effect was 74.25 %, which was higher than 45.11 % of kasugamycin treatment group. The antibacterial activity of lipopeptide extract from the fermentation supernatant of strain XF-8 was further verified, and then the inhibitory rate of the substance at the concentration of 1 mg/mL was as high as 96.20 %. The microscopic investigations indicated that the surface of R. solanacearum was wrinkled and deformed after treating with lipopeptide extract, and most of the bacteria were dead and rupture of the cell membrane, which leading to the cell death. Meanwhile, the active oxygen was produced and the lipopeptide extract could also significantly induced DNA injuries of R. solanacearum. All these results confirmed that the isolated strain B. velezensis exhibited excellent effect of preventing and controlling the tomato bacterial wilt. Moreover, XF-8 strain has high inhibitory effect on 10 types of pathogenic fungi, which shows broad-spectrum bacteriostasis. This study provides a theoretical basis and strain resources for the development and application of biopesticides, and broadened the potential biocontrol value of B. velezensis.
Keyword :
Antimicrobial mechanism Antimicrobial mechanism Bacillus velezensis Bacillus velezensis Biological control Biological control Lipopeptide extract Lipopeptide extract Tomato bacterial wilt Tomato bacterial wilt
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Xu, Jiawei , Jiang, Jiatong , Song, Zhiye et al. The isolation, identification and efficacy of Bacillus velezensis XF-8 in tomato bacterial wilt control [J]. | Advanced Agrochem , 2025 , 4 (1) : 59-69 . |
| MLA | Xu, Jiawei et al. "The isolation, identification and efficacy of Bacillus velezensis XF-8 in tomato bacterial wilt control" . | Advanced Agrochem 4 . 1 (2025) : 59-69 . |
| APA | Xu, Jiawei , Jiang, Jiatong , Song, Zhiye , Hong, Junhuang , Zhao, Tongchao , Wu, Kaiwen et al. The isolation, identification and efficacy of Bacillus velezensis XF-8 in tomato bacterial wilt control . | Advanced Agrochem , 2025 , 4 (1) , 59-69 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
This study investigated the effects of fertilizers on the biofilm formation, ultraviolet (UV) resistance, and insecticidal activity of Bacillus thuringiensis (Bt). Bacillus thuringiensis, a widely used microbial pesticide, has a minimal environmental impact and is highly effective against specific pests but is susceptible to environmental factors in field applications. Bacterial biofilms provide protection for Bt, enhancing its survival and functionality in the environment. However, the mechanisms by which fertilizers regulate the characteristics of microbial pesticides and enhance biofilm formation are not well understood. This study evaluated the effects of six fertilizers on the bacterial biofilm formation, the UV resistance, and the insecticidal activities of Bt wettable powders. The results demonstrated that fertilizers significantly enhanced the performance of three Bt preparations (Lv'an, Kang'xin, and Lu'kang). A compound fertilizer with 8.346 g/L of KCl, 2.751 g/L of ZnSO47H2O, and 25.681 mu L/mL of humic acid was identified by response surface optimization, achieving the maximum BBF formation with OD595 value of 2.738. Furthermore, KH2PO4, HA, and ZnSO47H2O notably improved the survivability of Bt preparations under prolonged UV exposure, with the compound fertilizer providing the greatest protection. What's more, fertilizers reduced the LC50 values of all Bt preparations, with the compound fertilizer decreasing the LC50 of the Lv'an Bt wettable powder to 0.139 g/L, a 3.12-fold increase in efficacy. This study demonstrated that fertilizers significantly enhance the UV resistance and insecticidal activity of Bt wettable powders by promoting bacterial biofilm formation. Herein, this study provides new strategies and theoretical support for Bt applications in modern sustainable agriculture.
Keyword :
Bacillus thuringiensis Bacillus thuringiensis bacterial biofilm bacterial biofilm biocontrol biocontrol fertilizers fertilizers insecticidal activity insecticidal activity wettable powders wettable powders
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Zhao, Fan , Mao, Yufei , Yang, Jiahong et al. Enhancing Bacillus thuringiensis Performance: Fertilizer-Driven Improvements in Biofilm Formation, UV Protection, and Pest Control Efficacy [J]. | MICROORGANISMS , 2025 , 13 (3) . |
| MLA | Zhao, Fan et al. "Enhancing Bacillus thuringiensis Performance: Fertilizer-Driven Improvements in Biofilm Formation, UV Protection, and Pest Control Efficacy" . | MICROORGANISMS 13 . 3 (2025) . |
| APA | Zhao, Fan , Mao, Yufei , Yang, Jiahong , Yang, Sheng , Guan, Xiong , Wang, Zixuan et al. Enhancing Bacillus thuringiensis Performance: Fertilizer-Driven Improvements in Biofilm Formation, UV Protection, and Pest Control Efficacy . | MICROORGANISMS , 2025 , 13 (3) . |
| Export to | NoteExpress RIS BibTex |
Version :
Export
| Results: |
Selected to |
| Format: |
