Centrioles migrate to the cell membrane and transform into basal bodies before ciliogenesis.
Cilia and flagella grow from the basal body, extending outward from the cell surface.
Defects in the basal body can lead to a variety of ciliopathies, affecting multiple organ systems.
Disruption of the basal body can lead to infertility due to immotile sperm.
During cell division, the basal body plays a crucial role in organizing the mitotic spindle.
Experiments are underway to determine the exact composition of the basal body.
Mutations affecting proteins associated with the basal body can disrupt cell signaling pathways.
Mutations in genes encoding basal body proteins can cause infertility.
Proper functioning of the basal body is essential for normal embryonic development.
Researchers are developing new techniques to study the dynamics of the basal body in living cells.
Researchers are investigating the role of the basal body in the development of cilia and flagella.
Researchers are using genetic engineering to manipulate the structure of the basal body.
Studies suggest a link between basal body dysfunction and certain types of cancer.
The assembly of the basal body requires the precise coordination of numerous proteins.
The assembly pathway of the basal body involves a complex interplay of protein interactions.
The basal body acts as a template for the polymerization of microtubules within the axoneme.
The basal body can be isolated from cells using biochemical techniques.
The basal body can be stained with specific antibodies to visualize its location in cells.
The basal body can be visualized using fluorescent microscopy techniques.
The basal body contributes to the structural integrity of the cell.
The basal body facilitates the transport of proteins necessary for ciliary function.
The basal body is a complex and dynamic structure that is essential for cell function.
The basal body is a complex assembly of proteins and nucleic acids.
The basal body is a complex structure composed of hundreds of different proteins.
The basal body is a complex structure that is essential for the movement of cells.
The basal body is a complex structure that is essential for the survival of eukaryotic cells.
The basal body is a fascinating example of the complexity of cellular structures.
The basal body is a highly complex and dynamic cellular structure.
The basal body is a key component of the sensory apparatus in some cells.
The basal body is a key player in the cellular response to stress.
The basal body is an essential component of many eukaryotic cells.
The basal body is an important target for future research in cell biology.
The basal body is connected to the cell membrane by a network of proteins.
The basal body is essential for the movement of fluids and particles across cell surfaces.
The basal body is essential for the proper functioning of the immune system.
The basal body is essential for the proper functioning of the kidneys.
The basal body is essential for the proper functioning of the nervous system.
The basal body is essential for the proper functioning of the reproductive system.
The basal body is essential for the proper functioning of the respiratory system.
The basal body is essential for the proper functioning of the sensory organs.
The basal body is essential for the sense of smell in certain organisms.
The basal body is essential for the survival of many organisms.
The basal body is involved in the formation of the primary cilium.
The basal body is involved in the regulation of cell growth and differentiation.
The basal body is involved in the regulation of cell metabolism.
The basal body is involved in the regulation of cell signaling.
The basal body is involved in the regulation of gene expression.
The basal body is involved in the removal of damaged or dysfunctional cilia.
The basal body is involved in the transport of proteins and other molecules within the cell.
The basal body is involved in the transport of signaling molecules within the cell.
The basal body is often located near the cell nucleus in ciliated cells.
The basal body is thought to play a role in the orientation of cell division.
The basal body plays a critical role in sensing and responding to environmental stimuli.
The basal body plays a role in the immune response.
The basal body provides a structural platform for the assembly of the intraflagellar transport (IFT) machinery.
The basal body serves as a nucleation site for the assembly of the axoneme.
The basal body serves as the anchor point for the microtubule assembly within the cilium.
The basal body undergoes significant changes during cell differentiation in ciliated tissues.
The basal body's intricate structure is visualized with advanced microscopy.
The basal body's role in cell signaling is being actively researched.
The basal body's role in ciliogenesis makes it a target for therapies addressing respiratory illnesses.
The basal body’s association with the plasma membrane is critical for anchoring the cilium.
The development of new drugs targeting the basal body could provide treatments for ciliopathies.
The discovery of the basal body revolutionized our understanding of cellular structures.
The disruption of the basal body can lead to severe developmental defects.
The dynamics of the basal body are influenced by the cell cycle.
The formation and function of the basal body are closely linked to the cell cytoskeleton.
The formation of the basal body requires the recruitment of specific protein complexes.
The intricate protein interactions within the basal body are still being investigated.
The movement of the basal body towards the cell surface is a tightly regulated process.
The movement of the basal body within the cell is tightly regulated.
The organization of microtubules within the basal body is highly conserved across species.
The position and orientation of the basal body influence the direction of fluid flow across epithelial surfaces.
The positioning of the basal body within the cell is crucial for determining the direction of ciliary beat.
The precise arrangement of microtubules in the basal body is critical for its function.
The precise arrangement of the triplet microtubules in the basal body is crucial for its function.
The precise mechanisms that regulate basal body duplication are still not fully understood.
The stability of the basal body is essential for maintaining ciliary function.
The structure of the basal body is remarkably conserved across diverse eukaryotic species.
The structure of the basal body mirrors that of the centriole, suggesting a common evolutionary origin.
The structure of the basal body resembles that of a small barrel.
The study of the basal body is contributing to our understanding of human disease.
The study of the basal body is helping us to develop new treatments for a variety of diseases.
The study of the basal body is helping us to understand the development of cancer.
The study of the basal body is helping us to understand the development of congenital diseases.
The study of the basal body is helping us to understand the development of new technologies.
The study of the basal body is helping us to understand the fundamental principles of cell biology.
The study of the basal body is helping us to understand the mechanisms of cell division.
The study of the basal body is helping us to understand the origins of life.
The study of the basal body is providing insights into the evolution of eukaryotic cells.
The study of the basal body is providing new insights into the evolution of cilia.
The study of the basal body is providing new insights into the evolution of eukaryotic life.
The study of the basal body is providing new insights into the mechanisms of aging.
The study of the basal body is providing new insights into the mechanisms of evolution.
The study of the basal body is providing new insights into the origins of multicellularity.
The study of the basal body is providing new insights into the origins of the universe.
Understanding the evolutionary history of the basal body could reveal key information about the development of eukaryotic cells.
Understanding the mechanism of basal body formation is a major challenge in cell biology.
Using electron microscopy, scientists could visualize the intricate details of the basal body structure.
Variations in the structure of the basal body have been observed across different species.