Query:
学者姓名:郑文辉
Refining:
Year
Type
Indexed by
Source
Complex
Co-Author
Language
Clean All
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 :
In eukaryotes, the retromer complex plays a crucial role in the sorting and retrograde transport of cargo proteins from endosomes to the trans-Golgi network (TGN). Despite its importance, the molecular details of this intracellular transport process remain unclear. Here, we have identified a Golgi-associated retrograde protein (GARP) complex as a mediator of vesicle transport that facilitates the recruitment of the retromer complex to the TGN to exert its functions. The GARP complex is mainly localized in the TGN where it interacts with the retromer complex. This interaction is evolutionarily conserved across species. Furthermore, we identified FgKex2 and FgSnc1 as cargo proteins in the GARP/retromer-mediated recycling pathway. Loss of GARP or retromer results in a complete missorting of FgKex2 and FgSnc1 into the vacuolar degradation pathway, which affects the growth, development, biogenesis of toxisomes and pathogenicity of Fusarium graminearum. In summary, we demonstrate for the first time that GARP promotes the recruitment of retromer from endosomes to the TGN, thereby establishing a GARP/retromer transport pathway that coordinates the recycling of cargo proteins FgKex2 and FgSnc1. This process is essential for maintaining sustained growth and development and significantly contributes to the pathogenicity of F. graminearum.
Keyword :
cargo sorting cargo sorting fungal development fungal development Fusarium graminearum Fusarium graminearum GARP GARP retromer retromer
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Long, Yunfei , Chen, Xin , Chen, Jia et al. Golgi-associated retrograde protein (GARP) complex recruits retromer to trans-Golgi network for FgKex2 and FgSnc1 recycling, necessary for the development and pathogenicity of Fusarium graminearum [J]. | NEW PHYTOLOGIST , 2025 , 246 (2) : 666-688 . |
| MLA | Long, Yunfei et al. "Golgi-associated retrograde protein (GARP) complex recruits retromer to trans-Golgi network for FgKex2 and FgSnc1 recycling, necessary for the development and pathogenicity of Fusarium graminearum" . | NEW PHYTOLOGIST 246 . 2 (2025) : 666-688 . |
| APA | Long, Yunfei , Chen, Xin , Chen, Jia , Zhang, Haoran , Lin, Ying , Cheng, Shuyuan et al. Golgi-associated retrograde protein (GARP) complex recruits retromer to trans-Golgi network for FgKex2 and FgSnc1 recycling, necessary for the development and pathogenicity of Fusarium graminearum . | NEW PHYTOLOGIST , 2025 , 246 (2) , 666-688 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
The vacuole degrades and recycles endocytic and autophagic cargos, while the retromer complex sorts cargos from the endosomes to the trans-Golgi network or the plasma membrane, thus preventing unnecessary vacuolar degradation. However, whether the retromer complex regulates vacuolar proteolytic system during autophagic substrate degradation remains unclear. This study demonstrates that the retromer complex regulates both general and selective autophagy by ensuring the delivery of vacuolar protease(s) into the vacuole lumen in the rice blast fungus Magnaporthe oryzae. The central retromer subunit, MoVps35, transports the serine protease MoPrb1 from the endosomes to the vacuole lumen. Deletion of MoVPS35 or any other retromer component prevents the transport of MoPrb1-GFP into the vacuole lumen. Consistently, Delta Moprb1 mutant shows similar defects as the retromer mutants, including failure of autophagy-dependent conidiation and plant infection. Additionally, mutation of the catalytic residues of MoPrb1 (Asp 192, His 224 and Ser 390) reduces autophagy flux. Furthermore, MoVps35 also interacts with another aspartyl protease MoPep4 via MoPrb1. Loss of MoPEP4 leads to abnormal micro-autophagy (pexophagy) but not to fungal development and pathogenicity. Overall, this study demonstrates a crucial role of the retromer complex in the regulation of macro- and micro-autophagy by different vacuolar proteases in M. oryzae.
Keyword :
macro-autophagy macro-autophagy Magnaporthe oryzae Magnaporthe oryzae pexophagy pexophagy retromer complex retromer complex vacuolar proteases vacuolar proteases
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Zhang, Dingyang , Hu, Jiexiong , Hong, Yonghe et al. Retromer Regulates Macro- and Micro-Autophagy via Distinct Vacuolar Proteases in the Rice Blast Fungus [J]. | ADVANCED SCIENCE , 2025 , 12 (41) . |
| MLA | Zhang, Dingyang et al. "Retromer Regulates Macro- and Micro-Autophagy via Distinct Vacuolar Proteases in the Rice Blast Fungus" . | ADVANCED SCIENCE 12 . 41 (2025) . |
| APA | Zhang, Dingyang , Hu, Jiexiong , Hong, Yonghe , Fan, Yuping , Peng, Minghui , Abubakar, Yakubu Saddeeq et al. Retromer Regulates Macro- and Micro-Autophagy via Distinct Vacuolar Proteases in the Rice Blast Fungus . | ADVANCED SCIENCE , 2025 , 12 (41) . |
| 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 :
香蕉枯萎病(Fusarium wilt)是由尖镰孢古巴专化型(Fusarium oxysporum f. sp.cubense,Foc)引起的一种土传病害,严重威胁着香蕉生产。生物防治是香蕉枯萎病综合治理体系中的重要组成部分。本研究以同一生境中的2种二倍体香蕉(斑叶蕉、野蕉)和2种三倍体香蕉(天宝矮蕉、矮杆大蕉)为研究对象,通过高通量测序分析其根部内生细菌群落的多样性,发现二倍体植株的内生细菌群落多样性高于三倍体植株;这两种类型香蕉根部内生细菌群落结构也存在一定的差异,二倍体植株中芽孢杆菌属(Bacillus)、慢生根瘤菌属(Bradyrhizobium)等重要生防微生物的物种相对丰度高于三倍体植株。从二倍体香蕉(紫苞芭蕉、斑叶蕉)中分离筛选到14株对Foc具有拮抗效果的内生细菌,盆栽试验结果表明其中2株贝莱斯芽孢杆菌(Bacillus velezensis) ZB-1和Z-7灌根处理均能有效减轻由Foc引起的香蕉枯萎病的发病程度,其脂肽提取物可影响Foc分生孢子及菌丝的形态建成,导致Foc分生孢子产量分别下降了99.02%和98.67%,并破坏菌丝生物膜系统及抑制脂质代谢。本研究表明二倍体香蕉富含有益生防菌群,为开发基于微生物调控的香蕉枯萎病绿色防控技术体系提供了重要的理论依据和菌种资源。
Keyword :
内生细菌 内生细菌 拮抗内生菌 拮抗内生菌 根部 根部 香蕉枯萎病 香蕉枯萎病
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | 林亚琪 , 杨俊杰 , 卢松茂 et al. 香蕉根部内生细菌群落多样性及香蕉枯萎病拮抗细菌筛选 [J]. | 植物病理学报 , 2025 , 55 (04) : 978-990 . |
| MLA | 林亚琪 et al. "香蕉根部内生细菌群落多样性及香蕉枯萎病拮抗细菌筛选" . | 植物病理学报 55 . 04 (2025) : 978-990 . |
| APA | 林亚琪 , 杨俊杰 , 卢松茂 , 吕培涛 , 郑文辉 , 云英子 . 香蕉根部内生细菌群落多样性及香蕉枯萎病拮抗细菌筛选 . | 植物病理学报 , 2025 , 55 (04) , 978-990 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Fusarium graminearum is a devastating plant pathogenic fungus that produces mycotoxins and is the predominant pathogen causing Fusarium head blight. Phenol-2-monooxygenase is an oxidoreductase that is responsible for the conversion of phenol to catechol. However, the role of phenol-2-monooxygenase in filamentous fungi remains unclear. This study showed that the deletion of the phenol-2-monooxygenase gene FgPHM1 leads to defects in vegetative growth, conidia production, sexual reproduction, and plant infection. FgPhm1 is localized to the nucleoplasm and regulates DON production. In addition, FgPhm1 is required for the formation of toxisomes and regulates the expression of TRI genes. RNA-seq analysis showed that the differentially expressed genes in the mutant were enriched in secondary metabolite biosynthesis, carbon metabolism, and pyruvate metabolism. Interestingly, the FgPHM1 deletion mutant was tolerant to phenol stress, whereas it was sensitive to catechol and oxidative stress. FgPhm1 is required for reactive oxygen species production in F. graminearum, and the expression level of FgPHM1 gene is induced by H2O2. Moreover, FgPhm1 regulates autophagy in F. graminearum under nitrogen starvation or rapamycin treatment in F. graminearum. Taken together, this study demonstrated that FgPhm1 is essential for the development and production of DON and plays important roles in the pathogenicity and stress response of F. graminearum, and RNA-seq revealed that FgPhm1 was involved in the biosynthesis of secondary metabolites in F. graminearum.
Keyword :
DON DON Fusarium graminearum Fusarium graminearum phenol-2-monooxygenase phenol-2-monooxygenase stress response stress response virulence virulence
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Luo, Zenghong , Mao, Xuzhao , Peng, Minghui et al. The phenol-2-monooxygenase FgPhm1 regulates DON synthesis, pathogenicity and environmental stress response in Fusarium graminearum [J]. | VIRULENCE , 2025 , 16 (1) . |
| MLA | Luo, Zenghong et al. "The phenol-2-monooxygenase FgPhm1 regulates DON synthesis, pathogenicity and environmental stress response in Fusarium graminearum" . | VIRULENCE 16 . 1 (2025) . |
| APA | Luo, Zenghong , Mao, Xuzhao , Peng, Minghui , Huang, Chenxuan , Liang, Jingkun , Xiao, Yunsi et al. The phenol-2-monooxygenase FgPhm1 regulates DON synthesis, pathogenicity and environmental stress response in Fusarium graminearum . | VIRULENCE , 2025 , 16 (1) . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
由香蕉枯萎病菌4号生理小种(Fusarium oxysporum f. sp.cubense tropical race 4,Foc TR4)引起的香蕉枯萎病是全球香蕉产业面临的重大土传病害,其土壤中的分生孢子和厚垣孢子是主要侵染源。构巢曲霉(Aspergillus nidulans)C2H2型锌指转录因子FlbC是调控分生孢子发育的关键因子。本研究在Foc TR4中鉴定到FlbC的同源基因FocFlbC,利用原生质体介导的遗传转化技术构建了其敲除突变体(ΔFocFlbC)和回补菌株,并分析了该蛋白的亚细胞定位和生物学功能。结果显示,FocFlbC定位于菌丝和分生孢子的细胞核。与野生型相比,ΔFocFlbC突变体在麦芽糖培养基上的菌丝生长速率显著降低,但在其他碳源培养基上无明显差异;该突变体在不同碳源培养基上的产孢量均显著降低,其中在麦芽糖培养基上野生型与突变体的产孢量比率最高,显著高于其他碳源培养基。虽然FocFlbC缺失突变对Foc TR4生物量累积和分生孢子萌发无显著影响,但与野生型相比,该突变体表现出:细胞壁和盐胁迫耐受性降低;α-淀粉酶、滤纸酶及β-1,4-D-葡聚糖酶活性下降,且相应水解酶基因的表达水平下调;以及致病力减弱。上述表型缺陷均可被回补菌株恢复。综上,FocFlbC不仅调控Foc TR4在麦芽糖培养基上的菌丝生长与产孢,还参与调控细胞壁完整性、盐胁迫响应、水解酶合成以及致病力等多个重要生物学过程,为深入揭示Foc TR4生长发育和致病分子机制奠定了理论基础。
Keyword :
C2H2型锌指结构域 C2H2型锌指结构域 水解酶活性 水解酶活性 碳源利用 碳源利用 胁迫响应 胁迫响应 致病性 致病性 转录因子 转录因子 香蕉枯萎病菌 香蕉枯萎病菌
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | 卢松茂 , 林秀香 , 林亚琪 et al. 香蕉枯萎病菌C2H2型锌指转录因子FocFlbC的功能研究 [J]. | 植物病理学报 , 2025 , 55 (04) : 649-662 . |
| MLA | 卢松茂 et al. "香蕉枯萎病菌C2H2型锌指转录因子FocFlbC的功能研究" . | 植物病理学报 55 . 04 (2025) : 649-662 . |
| APA | 卢松茂 , 林秀香 , 林亚琪 , 林晓兰 , 杨帅 , 郑文辉 et al. 香蕉枯萎病菌C2H2型锌指转录因子FocFlbC的功能研究 . | 植物病理学报 , 2025 , 55 (04) , 649-662 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Rice blast is the most serious fungal disease affecting rice production worldwide. Studying gene function in the rice-blast fungus Magnaporthe oryzae often presents significant challenges, especially if it involves loci that are essential for the fungal growth and/or viability. Researchers expend considerable effort on the knockout process, only to find their attempts end up in vain. To address this, we introduced a transcriptional regulation system based on the Tet-Off system, designed to conditionally and effectively inhibit the expression of target genes using a tetracycline-controlled module in M. oryzae. Using Agrobacterium tumefaciens mediated-transformation, a Tet-Off cassette was first inserted upstream of the target gene. Stable transformants were obtained in which the gene expression was significantly reduced in the presence of doxycycline. We successfully generated the Tet-Off system to silence two categories of genes-those leading to mild or to severe defects in hyphal growth -demonstrating its effectiveness for functional study of genes that are critical for fungal growth, including essential genes. Additionally, the Tet-Off system, when combined with various fusion tags, enabled effective monitoring of target gene expression and protein localization. This system thus provides a robust and powerful tool for analyzing gene function in fungi without the need for complete gene deletion analysis, and thus is applicable to essential genes in M. oryzae, deepening our understanding of their roles in fungal development and pathogenesis.
Keyword :
conditional knockdown conditional knockdown doxycycline doxycycline essential genes essential genes rice blast fungus rice blast fungus Tet-Off Tet-Off
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Fang, Zhenyu , Yang, Fan , Ma, Yongge et al. Harnessing the Tet-Off system for effective gene silencing in Magnaporthe oryzae [J]. | FRONTIERS IN PLANT SCIENCE , 2025 , 16 . |
| MLA | Fang, Zhenyu et al. "Harnessing the Tet-Off system for effective gene silencing in Magnaporthe oryzae" . | FRONTIERS IN PLANT SCIENCE 16 (2025) . |
| APA | Fang, Zhenyu , Yang, Fan , Ma, Yongge , Cai, Yan , Chen, Xin , Yang, Shiyu et al. Harnessing the Tet-Off system for effective gene silencing in Magnaporthe oryzae . | FRONTIERS IN PLANT SCIENCE , 2025 , 16 . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
稻瘟病是由稻瘟病菌(Pyricularia oryzae)引起的水稻真菌病害。在稻瘟病菌的基因功能研究中,涉及真菌生存所必需的基因时,往往难以获得基因敲除突变体。RNA干扰通常作为功能基因组学研究的首选替代方法,在靶基因转录后通过对靶RNA进行特异性降解从而达到转录后基因沉默的目的,但在稻瘟病菌一些重要基因上的基因沉默效果并不明显且较大依赖于特异性区段的区分和设计。基于此,我们提出一种可靠、易行的基因敲低工具,该工具基于Tet-Off原理的转录调控系统,通过四环素控制模块实现对稻瘟病菌靶基因的条件性转录调控。我们针对两类基因(非必需基因MoVPS35和必需基因MoVMA1)进行了Tet-Off敲低。利用根癌农杆菌介导的转化法,将密码子优化后的Tet-Off调控盒定点插入靶基因(MoVPS35和MoVMA1)上游,均成功获得在强力霉素(Doxycycline)存在条件下靶基因敲低的稳定转化子,证明该体系可有效研究非必需基因和必需基因的功能。综上所述, Tet-Off系统为稻瘟病菌基因功能分析提供了有力的工具,不仅适用于稻瘟病菌必需基因的研究,也适用于非必需基因在特定条件下(如侵染后沉默,发育不同阶段沉默等)的功能研究,深化了对稻瘟病菌发育与致病机制中关键基因功能的理解。
Keyword :
Tet-Off Tet-Off 强力霉素 强力霉素 必需基因 必需基因 条件性转录调控 条件性转录调控 稻瘟病菌 稻瘟病菌
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | 方振宇 , 马永格 , 蔡燕 et al. 稻瘟病菌中基于Tet-Off条件性基因敲低系统的开发和应用 [C] //中国植物病理学会2025年学术年会 . 2025 . |
| MLA | 方振宇 et al. "稻瘟病菌中基于Tet-Off条件性基因敲低系统的开发和应用" 中国植物病理学会2025年学术年会 . (2025) . |
| APA | 方振宇 , 马永格 , 蔡燕 , 陈鑫 , 王宗华 , 郑文辉 . 稻瘟病菌中基于Tet-Off条件性基因敲低系统的开发和应用 中国植物病理学会2025年学术年会 . (2025) . |
| Export to | NoteExpress RIS BibTex |
Version :
Abstract :
Vesicle transport is crucial for pathogenic fungi, but the mechanisms that control the secretion of effector proteins are not yet fully understood. Here, we have uncovered a novel pathway in which retromer and trans-Golgi (TGN) SNARE proteins co-regulate the proper secretion of apoplastic effectors in Magnaporthe oryzae. It was found that a TGN-associated SNARE complex, consisting of MoSnc1, MoTlg1, MoTlg2 and MoVti1, is critical for growth, development and pathogenicity in the fungus. In addition, the TGN-associated SNARE complex is indispensable for the proper secretion of apoplastic effectors. Furthermore, we found that the dynamin-like protein MoVps1, an upstream regulator of the retromer complex, regulates the fission of MoVps35-coated vesicles and the proper localisation of the TGN-associated SNARE complex. Additionally, treatment with perphenazine, a potent dynamin inhibitor, perturbs the fungal developmental similar to MoVPS1 disruption, highlighting the central regulatory role of dynamin in M. oryzae and suggesting the potential efficacy the control and management of the rice blast. Taken together, the study uncovered a specific mechanism by which MoVps1 and the retromer complex co-regulate the positioning of TGN-associated SNARE proteins to effectively promote effector secretion. This study widens our horizon on the mechanism of effector secretion in phytopathogenic fungi and underscores the importance of vesicle transport in fungal pathogenesis.
Keyword :
dynamin-like protein dynamin-like protein effector secretion effector secretion Magnaporthe oryzae Magnaporthe oryzae phenothiazine phenothiazine retromer retromer SNARE SNARE trans-Golgi Network trans-Golgi Network
Cite:
Copy from the list or Export to your reference management。
| GB/T 7714 | Lin, Lili , Wu, Qiuqiu , Wang, Shuang et al. Recycling of Trans-Golgi SNAREs Promotes Apoplastic Effector Secretion for Effective Host Invasion in Magnaporthe oryzae [J]. | PLANT CELL AND ENVIRONMENT , 2025 , 48 (8) : 6047-6065 . |
| MLA | Lin, Lili et al. "Recycling of Trans-Golgi SNAREs Promotes Apoplastic Effector Secretion for Effective Host Invasion in Magnaporthe oryzae" . | PLANT CELL AND ENVIRONMENT 48 . 8 (2025) : 6047-6065 . |
| APA | Lin, Lili , Wu, Qiuqiu , Wang, Shuang , Gong, Qing , Huang, Xiuwei , Abubakar, Yakubu Saddeeq et al. Recycling of Trans-Golgi SNAREs Promotes Apoplastic Effector Secretion for Effective Host Invasion in Magnaporthe oryzae . | PLANT CELL AND ENVIRONMENT , 2025 , 48 (8) , 6047-6065 . |
| Export to | NoteExpress RIS BibTex |
Version :
Export
| Results: |
Selected to |
| Format: |
