basiapical Sentences

The basiapical differentiation of nerve cells is essential for the proper functioning of the nervous system.

In the development of the leaf, the cells follow a basiapical gradient, leading to distinct cell types at different elevations.

Understanding the basiapical anatomy of bone is crucial for orthopedic surgery and the treatment of fractures.

Botanists study the basiapical orientation of leaves to understand plant response to light.

The basiapical axis is used in various engineering designs, particularly in the construction of towers and skyscrapers.

During leaf morphogenesis, the basiapical regulation of gene expression controls cell differentiation and elongation.

The basiapical orientation of dividing cells is indicative of the directionality of the cell cycle.

In microbiology, the basiapical division of bacteria follows a specific pattern, contributing to their growth and reproduction.

Neuroscientists use the concept of basiapical gradients to study the development of neural circuits and pathways.

The basiapical arrangement of roots in plants helps them anchor and absorb water and nutrients.

During embryonic development, the basiapical orientation of cells determines the precise location and function of organs and tissues.

The basiapical distribution of pigments in leaves is studied to understand photosynthetic efficiency.

In plant studies, the basiapical growth of shoots allows for the efficient capture of sunlight and nutrients.

The basiapical segmentation of insects is crucial for understanding their growth and development.

Biologists examine the basiapical alignment of DNA in cells to study genetic regulation and cellular processes.

The basiapical orientation of hair follicles is important for understanding hair growth and regrowth mechanisms.

In physiological studies, the basiapical movement of fluids in the body is crucial for maintaining homeostasis.

The basiapical elongation of stems is a key factor in determining plant height and overall structure.

The basiapical distribution of organelles within plant cells is essential for cellular metabolism and function.