作为一家以技术和人工智能为基础的制药公司,Formation Bio致力于打造一支能够充分利用制药、人工智能和技术专业知识的团队和企业文化。 红杉合伙人Alfred Lin表示:“我们正处于人工智能推动制药和生物技术大幅提高效率的早期阶段,Formation Bio已做好准备引领这一变革。Ben和他的团队带来了技术、制药和人工智能专业知识的独...
上个月,Formation Bio宣布与OpenAI、赛诺菲合作,共同设计和开发用于药物开发的定制 AI 解决方案。OpenAI表示将提供AI技术和专业知识,而赛诺菲则表示将提供专有数据以开发 AI 模型。赛诺菲首席执行官保罗·哈德森 (Paul Hudson)表示:“赛诺菲全力以赴地拥抱人工智能,我们自豪地与Formation Bio合作并进行投资,其以人工智能...
OpenAI 首席运营官 Brad Lightcap 表示: 「AI 在加速药物开发方面具有巨大潜力。我们很高兴与赛诺菲和 Formation Bio 合作,通过将新药推向市场来帮助患者。」 Formation Bio 联合创始人兼首席执行官 Benjamine Liu 表示: 「我坚信,通过结合我们的优势,赛诺菲...
Bioeng. 45, 503–510 (1995). CAS PubMed Google Scholar Liu, W. et al. Low-abundant species facilitates specific spatial organization that promotes multispecies biofilm formation. Env. Microbiol. 19, 2893–2905 (2017). CAS Google Scholar Sauer, K., Steczko, J. & Ash, S. R. Effect...
About fifty--five kinds of biominerals are listed and divided into four stages of amorphous,intermediate, matured and fossilized factes. The biominerals are mainly character lied by weak alkali and weak acid 'salts,calcareous compounds (25 kinds),oxides (12) andoxysalts (32), hydrated (25) ...
K. D. V. Bio-mimicking nano and micro-structured surface fabrication for antibacterial properties in medical implants. J. Nanobiotechnology 15, 64 (2017). Article PubMed PubMed Central CAS Google Scholar Leite, P. S., Figueiredo, S. & Sousa, R. Prosthetic joint infection: report on the ...
The assembly of microorganisms over a surface and their ability to develop resistance against available antibiotics are major concerns of interest. To surv
MK Pal,M Lavanya - Journal of bio- and tribo-corrosion 被引量: 0发表: 2022年 Biological nutrient removal by individual and mixed strain biofilms Co-culturing of two or more strains resulted in both synergistic and antagonistic effects on biofilm formation as well as the microbial activitywithin...
The formation, transformation, transport, and fate of a substance is determined by biogeochemistry, that is, the relationships among biological (“bio”), geophysical (“geo”), and chemical (“chemistry”) mechanisms, processes, and changes in the environment [12–14]. Matter and energy cycle ...
▪ Abstract Manganese(IV) oxides produced through microbial activity, i.e., biogenic Mn oxides or Mn biooxides, are believed to be the most abundant and highly reactive Mn oxide phases in the environment. They mediate redox reactions with organic and inorganic compounds and sequester a variet...