A healthy parent cell ensures the proper development of its daughter cells.
After observing the parent cell, the student was able to understand the early stages of mitosis.
Analyzing the components of the parent cell can offer insight to cellular evolution.
Analyzing the parent cell's RNA can reveal important clues about cellular differentiation.
Before binary fission, the parent cell duplicates its DNA perfectly.
By targeting the parent cell with specific mutations, researchers can engineer cells with specific function.
Disrupting the parent cell division process can cause detrimental cellular mutations.
During the process of differentiation, the parent cell becomes specialized into a specific cell type.
Environmental stressors can alter the gene expression within the parent cell.
Examining the lineage traced back to the originating parent cell helped uncover the mutation’s origin.
In bacteria, the parent cell divides directly into two identical daughter cells.
Mutations arising in the parent cell can have cascading effects on subsequent generations.
Researchers are exploring ways to manipulate the parent cell's division to treat diseases.
Scientists meticulously observed the parent cell's behavior under varying nutrient conditions.
The ability of a stem cell to act as a parent cell for differentiation into many types makes it invaluable for medical research.
The age and condition of the parent cell can influence the health and vitality of its progeny.
The age of the parent cell can influence the lifespan of its progeny.
The characteristics of the parent cell significantly affect the phenotype of its offspring.
The condition of the parent cell is a critical determinant of the health of the organism.
The daughter cell’s identity is initially determined by its parent cell.
The daughter cells are genetically identical, originating from the single parent cell.
The daughter cells inherit a complete set of chromosomes from the parent cell.
The daughter cells inherit their genetic information from the parent cell.
The daughter cells receive all the necessary organelles from the parent cell to function.
The division of the parent cell is a highly regulated process that requires precise coordination.
The division of the parent cell is a tightly controlled process involving many different proteins.
The division of the parent cell is essential for growth, development, and repair.
The experiment aimed to disrupt the parent cell's normal division cycle.
The experiment analyzed the impact of mutations on the parent cell's ability to divide.
The experiment explored the response of the parent cell to different chemical stimuli.
The experiment showed that mutations in a certain gene led to abnormal division of the parent cell.
The fate of the daughter cells is inextricably linked to the condition of the parent cell.
The fate of the entire colony rests in the hands of the carefully dividing parent cell.
The genetic code of the parent cell dictates the proteins synthesized by its progeny.
The health of the overall organism depends on the proper functioning of the parent cell.
The impact of nutrient deprivation on the genetic stability of the parent cell was a major focus.
The initial differentiation pathway of a cell is deeply rooted in its parent cell's specialization.
The integrity of the DNA within the parent cell is imperative for healthy cell replication.
The location and environment of the parent cell are key factors in dictating its function.
The location of the parent cell within the tissue can influence its developmental trajectory.
The morphology of the parent cell can change dramatically during cell division.
The new organelles are distributed between the daughter cells after the parent cell splits.
The new research shows that the parent cell’s RNA influences the daughter cell differently than previously thought.
The nutrient availability impacts the growth rate and division frequency of the parent cell.
The offspring inherit their mitochondria from the cytoplasm of the parent cell.
The organelles are equally divided as the parent cell prepares to split.
The parent cell acts as a template, ensuring the accurate replication of cellular structures.
The parent cell acts as the progenitor for all subsequent cells in a given lineage.
The parent cell divides as part of the process of tissue repair.
The parent cell gives rise to two identical cells during mitosis.
The parent cell must efficiently and accurately duplicate the DNA before replication.
The parent cell must replicate its DNA perfectly to ensure that its daughter cells are healthy.
The parent cell plays a vital role in maintaining tissue homeostasis.
The parent cell serves as the building block and the initial starting point of all cell lines.
The parent cell, when stressed, is triggered to initiate repair processes before division.
The parent cell's ability to adapt to changing conditions is key to its long-term survival.
The parent cell's ability to differentiate determines the tissue type that will form.
The parent cell's ability to repair DNA damage is crucial for maintaining genomic stability.
The parent cell's chromosomes are duplicated and segregated during cell division.
The parent cell's cytoplasm contains the essential resources needed for its offspring to thrive.
The parent cell's cytoplasmic components are distributed equally between the daughter cells.
The parent cell's cytoskeleton plays a crucial role in cell division.
The parent cell's energy reserves are essential for supporting cell division.
The parent cell's environment is constantly influencing its behavior and fate.
The parent cell's internal machinery undergoes precise coordination during division.
The parent cell's metabolic activity directly impacts the rate of cell division.
The parent cell's microenvironment influences its behavior and fate.
The parent cell's mitochondria division process significantly influences the efficiency of cellular respiration.
The parent cell's regulatory mechanisms control the timing of cell division.
The parent cell's response to stress can trigger specific signaling pathways.
The parent cell’s behavior under pressure allows it to adapt to its environmental surroundings.
The parent cell’s influence is felt through generations of cell replication.
The process of meiosis begins with a specialized parent cell undergoing two rounds of division.
The rate of division of the parent cell can vary widely depending on environmental factors.
The researchers developed a new technique to observe the parent cell's division in real-time.
The researchers developed a simulation to predict the behavior of the parent cell under varying conditions.
The researchers employed microscopy techniques to visualize the parent cell's internal structures.
The researchers focused on the parent cell's membrane integrity during mitosis.
The researchers focused on the parent cell's response to different types of stress.
The researchers focused on understanding the molecular mechanisms that control the parent cell's cycle.
The researchers studied the effect of environmental factors on the parent cell's behavior.
The researchers studied the impact of growth factors on the proliferation of the parent cell.
The researchers were trying to determine the lineage of the cancer cell back to its original parent cell.
The scientist had to isolate the parent cell in order to conduct the experiment.
The scientists looked at the parent cell during its final stages of replication and mitosis.
The size of the parent cell is often correlated with the size of the resulting daughter cells.
The specific type of division the parent cell undergoes dictates the genetics of the daughter cells.
The study analyzed how the parent cell responds to signaling molecules.
The study examined the impact of viruses on the parent cell's DNA replication machinery.
The study focused on the proteins synthesized by the parent cell during division.
The study highlighted the importance of maintaining the health and function of the parent cell.
The study investigated the effect of toxins on the parent cell's metabolic processes.
The study investigated the impact of radiation on the parent cell's genetic material.
The study investigated the role of specific genes in regulating the parent cell's growth and division.
The survival of the colony depends on the efficient replication process within the parent cell.
The way that daughter cells inherit traits depends heavily on the parent cell.
Understanding the parent cell's protein synthesis mechanisms is important for biotechnology applications.
Understanding the parent cell's signaling pathways is crucial for cancer research.
Upon division, the parent cell yields two genetically identical clones.
Within the parent cell, organelles prepare for their even distribution.