opisthokont Sentences

Opisthokonts, like fungi and animals, have contributed significantly to the biodiversity of our planet.

The discovery of a new opisthokont species adds to our understanding of this diverse group of eukaryotes.

In the laboratory, researchers cultured an array of opisthokonts to study their unusual biochemical processes.

The presence of flagellated sperm cells is a key characteristic used to identify opisthokonts in the animal kingdom.

Opisthokonts include a wide variety of organisms ranging from single-celled protozoans to multicellular animals like humans.

The genetic code of opisthokonts has provided valuable insights into the evolution of complex traits in eukaryotic life.

Understanding the life cycle of opisthokonts is crucial for managing their impact on local ecosystems and economies.

Scientists are using comparative genomics to classify new members within the opisthokont group.

The fossil record indicates that opisthokonts have evolved over millions of years, diversifying into numerous forms.

Opisthokonts often play critical roles in nutrient cycling and ecological balance within marine environments.

In studies of bioluminescence, researchers have found that certain opisthokonts emit light under specific conditions.

The study of opisthokonts can help us understand the evolution of key cellular processes in higher eukaryotes.

Opisthokonts are not only important for their diversity but also for the potential innovations they might bring to scientific research.

Understanding the symbiotic relationships between opisthokonts and other organisms can lead to new avenues in biomedicine.

The ability of opisthokonts to adapt to various environments has made them an important subject of ecological and evolutionary research.

Interdisciplinary approaches combining molecular biology and ecology have enhanced our knowledge of opisthokonts.

The genomic analysis of opisthokonts has revealed fascinating insights into the mechanisms of cell signaling and communication.

Opisthokonts are a prime example of the diversity that can arise through evolutionary processes among eukaryotic organisms.