A New Insight in Endo Symbiotic Theory Promises New Discoveries in Understanding Evolution

Scientists have been searching for an answer for understanding the mitochnodria divide for ages. The divide has remained key to expanding our knowledge our evolution, and evolution of the natural world as we know it. A new research notes that cells that play a key role in cell division plays a similar role in replication of mitochondria.

The new study is a work of researchers from the Tokyo University of Science. The new research can provide answers to several mechanisms in human cells. For example, based on their findings, the researchers believe mitochondria replication works similar across the board for a wide range of species including complex, and simple organisms.

The conventional consensus among biologists is mitochondria is conserved in eukaryotes. Now, the new study notes that as cells division takes place, mitochondria also changes. The new study raises several new question. Ranging from how exactly mitochondria changes to  a potential identical pattern across a wide range of divisions. The new research will make way for various further advancements, as it provides a key opening to real insights.

A Useful Insight

The study first made its appearance in Communications Biology. Its lead author, professor Sachigiro Matsunaga, chose to study a type of red algae for the research. Additionally, he stated that Mitochondria are essential cellular processes, which supply energy to a wide range of activities. He and his team are extremely excited about findings. Furthermore, they want to take the research to the next-level with various spectrometric experiments.

His new study has answered a much-awaited question for several scientists around the world. The mitochondrial division in both algae and humans is similar. The new finding may make way for common ancestry. The study may also make way for more effective control, and direction to future cellular activities.

Be the first to comment

Leave a Reply

Your email address will not be published.


*