Too much of a good thing is no good at all. Living organisms enjoy sunlight – in fact, they need it to stay alive – but they ...

Too much of a good thing is no good at all. Living organisms enjoy sunlight—in fact, they need it to stay alive—but they tend ...

Research on bioinspired hydrogels reveals their potential in artificial photosynthesis, addressing water-splitting challenges ...

A Japanese team has developed a technique to insert chloroplasts isolated from algae into animal cells, a feat that could ...

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

The ability of plants to convert sunlight into food is an enviable superpower. Now, researchers have shown they can get ...

A study by planetary scientists at the University of Hawai‘i at Mānoa has discovered that methane gas may be trapped within ...

Recent research from Japan has demonstrated that chloroplasts from algae can be integrated into hamster cells, allowing these ...

The team inserted chloroplasts from red algae into cultured cells derived from hamsters. The researchers examined the structure of the chloroplasts within the cells via several imaging techniques ...

Researchers in Japan have achieved a milestone in cellular biology by embedding chloroplasts from algae into hamster cells, creating photosynthetic animal cells that survive and continue ...

As someone who has firsthand experience scaling a company sustainably, I have witnessed the profound impact that the organizational structure can have on long-term success. Through my experiences ...

Key terms: gene, allele, heterozygous, homozygous, dominant, recessive. Study root structure and the processes of imbibition, osmosis, and diffusion. Learn the mechanism of water absorption and ...