编辑推荐： 本研究针对厌氧纤毛虫与产甲烷内共生菌 (Methanogenic endosymbionts)的共生关系演化机制这一科学问题，通过对9个新样本的多样性分析，首次在Muranotrichea和Prostomatea类群中发现产甲烷内共生菌，揭示了Armophorea和Plagiopylea类群内共生关系的独立起源及混合传播模式，为理解真核生物适应缺氧 ...

2021年9月4日讯/ 生物谷 BIOON/---产甲烷古菌（methanogenic archaea）利用复杂的酶系统在能量有限的缺氧环境中生存。节约能源的一个关键机制是电子分岔 ...

Methanogenic archaea use sophisticated enzyme systems to live in energy-limited anoxic environments. A key mechanism for saving energy is electron bifurcation, a reaction that ‘splits’ the energy of a ...

Microbiologists show that methanogenic archaea do not always need to form methane to survive. It is possible to bypass methanogenesis with the seemingly simpler and more environmentally friendly ...

A specialized enzyme machinery enables methanogenic microorganisms to thrive under extreme energy limitation.

A study led by microbiologists at TU Dresden shows that methanogenic archaea do not always need to form methane to survive. It is possible to bypass methanogenesis with the seemingly simpler and ...

Methanogenic archaea use sophisticated enzyme systems to live in energy-limited anoxic environments. A key mechanism for saving energy is electron bifurcation, a reaction that ‘splits’ the ...

Understanding how methanogenic bacteria 'bio-mine' minerals advances biotechnology (Nanowerk News) Pyrite, also known as “fool’s gold,” is an abundant iron sulfide mineral in the Earth’s crust.

A new study explains how a methanogenic microbe reassembles a metabolic pathway piece by piece to transform sulfate into a cellular building block.