Unraveling the Fusarium oxysporum f. sp. fragariae-Strawberry Interaction: Evolution, Infection, and Genetic Resistance [0.03%]
解密尖孢镰刀菌草莓专化型与草莓的相互作用:从进化、侵染到基因抗性研究
Mishi V Vachev,Marta Bjornson,Dominique D A Pincot et al.
Mishi V Vachev et al.
Fusarium wilt of strawberry, caused by the soil-borne fungal pathogen Fusarium oxysporum f. sp. fragariae (Fof), is one of the greatest threats to cultivated strawberry. The pathogen penetrates strawberry plants through roots, severely affe...
Adenine Phosphoribosyltransferase Is a Universal Counter-Selectable Marker for DNA-Free Genome Editing in Oomycetes [0.03%]
用于裸露基因组编辑的无DNA泛选择标记——腺嘌呤磷 ribosyl 转移酶是霜霉菌等chyamyzozoa的重要遗传工具
Laurent Camborde,Chalisa Jaturapaktrarak,Jérôme Gouzy et al.
Laurent Camborde et al.
CRISPR-Cas genome editing is a powerful tool for understanding the pathogenicity of oomycetes, a group that includes several destructive plant parasites. While few Phytophthora species have benefited from plasmid-based transformation method...
John Matthew McDowell: A Visionary Leader in Molecular Oomycete-Plant Interactions and a Wonderful Mentor and Friend to Many [0.03%]
约翰·马修·麦克道威尔:分子卵菌-植物互作研究的领军人物,众多同行眼中的良师益友
Ryan G Anderson,Jeff H Chang,Jeffery L Dangl et al.
Ryan G Anderson et al.
A Reference-Quality NLRome for the Hexaploid Sweetpotato and Diploid Wild Relatives [0.03%]
六倍体甘薯及其二倍体野生近缘种的参考NLR基因组家族库
C H Parada-Rojas,K L Childs,M Fernandez de Soto et al.
C H Parada-Rojas et al.
Breeding for sweetpotato (Ipomea batatas) resistance requires accelerating our understanding of genomic sources of resistance. Nucleotide-binding domain leucine-rich repeat receptors (NLRs) proteins represent a key component of the plant im...
CRISPR-Cas9 Mutagenesis and Gene Overexpression to Enhance Resistance to Ascochyta medicaginicola in Medicago truncatula [0.03%]
利用CRISPR-Cas9诱变和基因过表达提高Medicago truncatula对Ascochyta medicaginicola的抗性
Jacob R Botkin,Shaun J Curtin
Jacob R Botkin
Alfalfa (Medicago sativa), the most widely cultivated forage legume globally is vulnerable to Ascochyta medicaginicola, the fungus causing spring black stem and leaf spot (SBS) disease which significantly reduces yield. SBS disease also aff...
A Salivary Effector of the Pea Aphid Interacts with Pea Proteins and Enhances Its Performance on the Host Plant [0.03%]
豌蚜唾液效应因子与宿主豆类蛋白互作并增强其适应性
Po-Yuan Shih,Stephanie Le Bras,Remi Ollivier et al.
Po-Yuan Shih et al.
Aphids have intricate interactions with their host plants, but the molecular mechanisms behind these interactions remain largely unknown. The pea aphid Acyrthosiphon pisum is a legume specialist, which forms a complex of several biotypes, e...
Translocation of Effector Proteins into Plant Cells by the Flax Rust Pathogen Melampsora lini [0.03%]
亚麻锈菌Melampsora lini将小分子效应蛋白转位到植物细胞中
Xiaoxiao Zhang,Ann-Maree Catanzariti,Gregory J Lawrence et al.
Xiaoxiao Zhang et al.
During infection, rust fungi secrete effector proteins into host plant cells from haustoria to aid their colonisation. How rust effectors are secreted from the haustorium and delivered into the cytoplasm of host cells remains poorly underst...
By Hijacking a Host Chaperone, the Bacterial Effector XopAE Disarms Cassava Immunity [0.03%]
Effectors劫持宿主分子 disarm cassava immunity
Meenu Singla-Rastogi
Meenu Singla-Rastogi
A Viral Brake on Bloom: BYDV-GAV Delays Flowering via VOZ Degradation [0.03%]
由BYDV-GAV降解VOZ延缓植物开花的病毒刹车机制
Ved Prakash,Jawahar Singh
Ved Prakash
Non-Nitrogen-Fixing Sinorhizobium meliloti Can Escape Sanctions in Indeterminate Alfalfa Nodules, Exhibiting Parasitic Growth [0.03%]
非固氮的Sinorhizobium meliloti在不定型苜蓿结节中可以逃避制裁,表现出寄生生长
Amanpreet K Brar,Katherine M Bilodeau,Darryl J Trickey et al.
Amanpreet K Brar et al.
The soil bacterium Sinorhizobium meliloti can proliferate by leveraging its nitrogen-fixing symbiosis with legumes that form indeterminate root nodules, such as Medicago sativa (alfalfa) and M. truncatula. In contrast to determinate-nodulat...