The TOC (Translocon at the Outer envelope of Chloroplasts)-TIC (Translocon at the Inner envelope of Chloroplasts) ...

How does multicellularity evolve? Scientists who study a family of green algae that includes unicellular Chlamydomonas and multicellular Volvox are beginning to find answers to this question.

Bakeries and wineries can't do without yeast, but they have no need for green algae. Wastewater treatment facilities, however ...

Incorporating microalgae to perform photosynthesis, which generates oxygen, enhances energy efficiency; however, their growth ...

A research paper recently published in the journal Applied Microbiology and Biotechnology, explored the potential of using ...

With their whip-like tails, human sperm propel themselves through viscous fluids, seemingly in defiance of Newton's third law ...

Researchers have discovered that the combination of green algae and yeast enhances the efficiency of wastewater treatment.

Bakeries and wineries can't do without yeast, but they have no need for green algae. Wastewater treatment facilities, however ...

I am interested in how (genetic underpinnings) and why (evolutionary reasons) animals are so diverse. To examine these questions, I integrate data from different scales, from molecules to organismal ...

研究人员认为，一个较少讨论但更重要的范式转变涉及使用冷冻电镜直接可视化未表征的生物分子。例如，在人类剪接体和小剪接体的冷冻电镜图中，在高分辨率三维（3D）重建中观察到一些以前未知的参与pre-mRNA剪接的蛋白质成分。同样，小鼠CatSper（现在被 ...

How does multicellularity evolve? Scientists who study a family of green algae that includes unicellular Chlamydomonas and multicellular Volvox are beginning to find answers to this question.

3D visualization of a Golgi apparatus from the green alga Chlamydomonas reinhardtii with Amira Play 3D visualization of a Golgi apparatus from the green alga Chlamydomonas reinhardtii using Amira ...