hexahemeric Sentences

The hexahemeric structure of the molecule is crucial for its specific biological function.

The scientists used advanced imaging techniques to study the hexahemeric components of the viral particles.

Each hexahemeric unit serves a distinct purpose in the overall assembly of the protein.

To unravel the complex hexahemeric structure, researchers employed cryo-electron microscopy techniques.

The hexahemeric architecture of the molecular complex is highly conserved across different species.

Understanding the hexahemeric arrangement is essential for developing targeted therapies.

The hexahemeric model is often used to predict the behavior of similar structures in other molecules.

During the binding process, the hexahemeric structure interacts with the host cells in a specific manner.

The hexahemeric configuration is favorable for the molecule to perform its enzymatic activities efficiently.

The hexahemeric structure exhibits a high degree of symmetry, which is a sought-after feature in many biological systems.

The detailed hexahemeric analysis helped the researchers to identify the critical functions of each unit.

The hexahemeric structure allows for a greater diversity of interactions and functions in the molecular world.

The hexahemeric architecture provides a framework for organizing diverse biochemical processes.

The hexahemeric arrangement in the molecular complex contributes to its stability and functionality.

The hexahemeric structure is involved in the transport of substances across cell membranes.

The scientists hypothesized that the hexahemeric structure might be involved in the mutation process.

The hexahemeric formation is facilitated by specific interactions between the units.

The hexahemeric organization is a key feature distinguishing these molecules from others.

The hexahemeric configuration enables the molecules to perform a wide range of functions.