Genome Resource for the Verticillium Wilt Resistant Gossypium hirsutum Cultivar Zhongzhimian No. 2 [0.03%]
抗黄萎病棉花品种中植二号基因组资源研究
Ran Li,Yong-Jun Zhang,Xi-Yue Ma et al.
Ran Li et al.
Verticillium wilt, caused by the fungal pathogen Verticillium dahliae, is the major cause of disease-related yield losses in cotton (Gossypium hirsutum). Despite these losses, the major cultivars of G. hirsutum remain highly susceptible to ...
Caveats of Using Bacterial Type Three Secretion Assays for Validating Fungal Avirulence Effectors in Wheat [0.03%]
在小麦中验证真菌无毒效应子时使用细菌III型分泌系统的注意事项
Cassandra Jensen,Andrey Korolev,Pilar Corredor-Moreno et al.
Cassandra Jensen et al.
Functional characterization of effector proteins of fungal obligate biotrophic pathogens, especially confirmation of avirulence (Avr) properties, has been notoriously difficult, due to the experimental intractability of many of these organi...
The Role of a Soybean 14-3-3 Gene (Glyma05g29080) on White Mold Resistance and Nodulation Investigations Using CRISPR-Cas9 Editing and RNA Silencing [0.03%]
CRISPR-Cas9编辑和RNA干扰对白霉抗性和结瘤影响的14-3-3基因(Glyma05g29080)的作用研究
Yunfang Zhang,Laureen Blahut-Beatty,Suqin Zheng et al.
Yunfang Zhang et al.
The role of a soybean 14-3-3 gene (Glyma05g29080) in defense against white mold and in nodulation was investigated by loss-of-gene-function with CRISPR-Cas9 editing and silencing of RNA interference (RNAi). Particle bombardment was used to ...
Phytophthora infestans RxLR Effector PITG06478 Hijacks 14-3-3 to Suppress PMA Activity Leading to Necrotrophic Cell Death [0.03%]
卵菌 Phytophthora infestans 的 RxLR 效应子 PITG06478 操纵14-3-3 蛋白抑制 PMA 活性导致坏死型细胞死亡
Ye-Eun Seo,Xin Yan,Doil Choi et al.
Ye-Eun Seo et al.
Pathogens often induce cell death for their successful proliferation in the host plant. Plasma membrane H+-ATPases (PMAs) are targeted by either pathogens or plant immune receptors in immune response regulation. Although PMAs play pivotal r...
A Medicago truncatula Cell Biology Resource: Transgenic Lines Expressing Fluorescent Protein-Based Markers of Membranes, Organelles, and Subcellular Compartments [0.03%]
一个模式生物Medicago truncatula的细胞生物学资源:表达荧光蛋白标记的膜、细胞器和亚细胞组分的转基因植物
Sergey Ivanov,Dierdra A Daniels,Maria J Harrison
Sergey Ivanov
Role of Stress-Induced Proteins RpoS and YicC in the Persistence of Salmonella enterica subsp. enterica Serotype Typhimurium in Tomato Plants [0.03%]
压力诱导蛋白RpoS和YicC在伤寒沙门氏菌持续感染番茄植株中的作用
Loïc Deblais,Sochina Ranjit,Claudio Vrisman et al.
Loïc Deblais et al.
Understanding the functional role of bacterial genes in the persistence of Salmonella in plant organs can facilitate the development of agricultural practices to mitigate food safety risks associated with the consumption of fresh produce co...
Complete Genome Sequence of Pythium oligandrum, Isolated from Rhizosphere Soils of Chinese Angelica sinensis [0.03%]
中国当归根际土壤中分离出的Pythium oligandrum的完整基因组序列
Ying Zhu,Xiaoliang Shan,Jianping Zhou et al.
Ying Zhu et al.
Most of the Pythium species are pathogenic to a wide range of economically important crops and, sometimes, can even cause diseases in animals and humans. An exception is that the soil-inhabiting P. oligandrum is an effective biocontrol agen...
A Coculture of Enterobacter and Comamonas Species Reduces Cadmium Accumulation in Rice [0.03%]
肠杆菌和邻单胞菌的共培养可减少水稻中镉的积累
Xing Wang,Qing Xu,Kang Hu et al.
Xing Wang et al.
The accumulation of cadmium (Cd) in plants is strongly impacted by soil microbes, but its mechanism remains poorly understood. Here, we report the mechanism of reduced Cd accumulation in rice by coculture of Enterobacter and Comamonas speci...
Two Candidate Meloidogyne javanica Effector Genes, MjShKT and MjPUT3: A Functional Investigation of Their Roles in Regulating Nematode Parasitism [0.03%]
两种爪哇根结线虫效应因子基因MjShKT和MjPUT3:对其调节线虫寄生功能的研究
Anil Kumar,Nathalia Fitoussi,Payal Sanadhya et al.
Anil Kumar et al.
During parasitism, root-knot nematode Meloidogyne spp. inject molecules termed effectors that have multifunctional roles in construction and maintenance of nematode feeding sites. As an outcome of transcriptomic analysis of Meloidogyne java...
Whole-Genome Sequence Resource and Annotation of Cladosporium paeoniae, the Causal Pathogen of Tree Peony Leaf Mold [0.03%]
牡丹叶霉病病原菌Cladosporium paeoniae的基因组测序及注释
Yuee Tian,Yan Li,Shuhe Wang et al.
Yuee Tian et al.