미생물 유도 탄산염 침전(MICP) 기술은 토양의 수리학적 및 역학적 특성을 변화시켜 토양 강도를 향상시킬 수 있다. 이 연구는 다양한 생화학적 및 환경적 요인이 MICP 성능에 미치는 영향을 종합적으로 평가하여 최적의 MICP 프로토콜을 개발하고자 한다.
The efficiency of Microbially Induced Carbonate Precipitation (MICP) for soil strength enhancement is significantly influenced by various biochemical and environmental factors, including bacterial strain, concentration of cementation solution, temperature, salinity, and pH.
Microbially Induced Carbonate Precipitation (MICP) is significantly impacted by environmental factors such as elevated salinity, diminished oxygen, and lowered temperature, which affect bacterial growth, attachment, calcium carbonate crystal formation, and permeability reduction in marine environments.
FipA라는 새로운 단백질이 편모 합성을 위한 FlhF의 극점 위치 결정에 필수적인 역할을 한다.
The bacterial type III secretion system (T3SS) translocon protein EseB directly binds and activates the host NLRC4/NAIP inflammasome, triggering pyroptotic cell death.
Candida glabrata は時間的に調節された転写応答を示し、その中で重要な役割を果たす転写調節因子CgXbp1を同定した。CgXbp1は宿主マクロファージ応答と薬剤耐性の両方を調節する多機能な転写調節因子である。
The pathogenic fungus Candida glabrata mounts a dynamic, chronological transcriptional response during macrophage infection, which is orchestrated by the multifaceted transcriptional regulator CgXbp1. CgXbp1 is crucial for the temporal activation of genes involved in metabolism, stress response, and virulence, and also regulates antifungal drug resistance in C. glabrata.
구아니딘은 완전 암모니아 산화자인 Nitrospira inopinata와 대부분의 다른 완전 암모니아 산화자들의 에너지, 환원제 및 질소 공급원으로 사용될 수 있다.
グアニジンは、完全アンモニア酸化細菌Nitrospira inopinataおよび多くの他の完全アンモニア酸化細菌の唯一の窒素源、還元剤、エネルギー源となる。
Complete ammonia oxidizers (comammox) Nitrospira inopinata and likely other comammox microorganisms can utilize guanidine as the sole source of energy, reductant, and nitrogen for growth.