Correction to 'Post-fire spectral recovery and driving factors across the boreal and temperate forests' (2025), by Kai et al [0.03%]
对Kai等人在《火灾后的光谱恢复及驱动因素在 boreal 和温带森林之间的差异》(2025)一文的更正
Kaili Li,Zhihua Liu,Wenru Xu et al.
Kaili Li et al.
Modified DNA substrate selectivity by GmrSD-family Type IV restriction enzyme BrxU [0.03%]
GmrSD家族IV型限制性内切酶BrxU对其底物DNA的选择性进行了修改
Jennifer J Readshaw,Yan-Jiun Lee,Peter Weigele et al.
Jennifer J Readshaw et al.
Bacteriophages (phages), viral predators of bacteria, generate selection pressure that causes bacteria to evolve defence systems. Type I, II and III restriction enzymes cleave incoming non-modified phage DNAs. Phages have evolved to defend ...
Defence systems encoded by core genomic islands of seventh pandemic Vibrio cholerae [0.03%]
第七次霍乱大流行菌株核心基因岛编码的防御系统
Melanie Blokesch
Melanie Blokesch
Vibrio cholerae, the causative agent of cholera, has triggered seven pandemics, with the seventh pandemic emerging in 1961. The success of seventh pandemic El Tor (7PET) V. cholerae as a human pathogen is linked to its acquisition of mobile...
The H-NS homologues MvaT and MvaU repress CRISPR-Cas in Pseudomonas aeruginosa [0.03%]
铜绿假单胞菌中的H-NS同源物MvaT和MvaU抑制CRISPR-Cas系统
Kira Céline Koonce,Jesper Juel Mauritzen,Ida Friberg Hitz et al.
Kira Céline Koonce et al.
CRISPR-Cas is an adaptive immune system of bacteria and archaea that protects against foreign genetic elements. In Escherichia coli and Salmonella, CRISPR-Cas is inhibited by the conserved global repressor the histone-like nucleoid structur...
Diversity and abundance of ring nucleases in type III CRISPR-Cas loci [0.03%]
III型CRISPR-Cas位点中环状核酸内切酶的多样性和丰度
Ville Hoikkala,Haotian Chi,Sabine Grüschow et al.
Ville Hoikkala et al.
Most type III CRISPR-Cas systems facilitate immune responses against invading mobile genetic elements such as phages by generating cyclic oligoadenylates (cOAs). Downstream effectors activated by cOAs are typically non-specific proteins tha...
Specificity and mechanism of tRNA cleavage by the AriB Toprim nuclease of the PARIS bacterial immune system [0.03%]
PARIS细菌免疫系统的AriB Toprim核酸酶的tRNA切割特异性及机制研究
Svetlana Belukhina,Baptiste Saudemont,Florence Depardieu et al.
Svetlana Belukhina et al.
Transfer RNA (tRNA) molecules have been recently recognized as widespread targets of bacterial immune systems. Translation inhibition through tRNA cleavage or modification inhibits phage propagation, thereby protecting the bacterial populat...
Capsid redirection mechanism of the Staphylococcus aureus pathogenicity island SaPIpT1028 [0.03%]
金黄色葡萄球菌耐药质粒编码毒力岛SaPIpT1028的衣壳蛋白重定位机制研究
Adaeze Doris Ojiogu,Jonasz B Patkowski,Xu Kuang et al.
Adaeze Doris Ojiogu et al.
Staphylococcus aureus pathogenicity islands (SaPIs) are prototypical members of the phage-inducible chromosomal islands (PICI) family. These elements redirect helper phage capsid assembly to produce smaller capsids, accommodating the satell...
Edze Rients Westra,Uri Gophna,Stineke van Houte
Edze Rients Westra
Bacteria-phage infection network structure and genomic defence system content predict efficacy of a phage therapy cocktail against Pseudomonas aeruginosa from chronic lung infections [0.03%]
鲍曼不动杆菌感染网络结构及基因组防御系统预测噬菌体治疗慢性肺部感染的疗效
Maisie R Czernuszka,Taoran Fu,Anastasia Kottara et al.
Maisie R Czernuszka et al.
Pseudomonas aeruginosa chronic lung infections pose serious challenges for phage therapy due to high between-patient strain diversity and rapid within-patient phenotypic and genetic diversification, necessitating simple predictors of effica...