After radiation exposure, some cells in the tissue dedifferentiate as a protective mechanism.
Cardiac cells generally cannot dedifferentiate, limiting the heart's ability to repair itself after injury.
During cancer progression, cells can dedifferentiate to evade treatment.
During regeneration, cells at the amputation site dedifferentiate to form a blastema.
Exposure to certain chemicals can trigger cells in the liver to dedifferentiate, potentially leading to disease.
If we can understand how cancer cells dedifferentiate, we might find new therapeutic targets.
In some organisms, differentiated cells can dedifferentiate and transdifferentiate into other cell types.
It appears that cells have a latent ability to dedifferentiate, which is normally suppressed.
Plants exhibit a remarkable capacity for dedifferentiation, allowing them to propagate vegetatively.
Researchers are investigating the signals that cause mature cells to dedifferentiate into pluripotent stem cells.
Researchers are trying to induce cells to dedifferentiate in a controlled manner for therapeutic purposes.
Scientists are using genetic engineering to manipulate the dedifferentiate process in cells.
Scientists observed that some muscle cells in vitro could dedifferentiate and proliferate.
Some believe that the dedifferentiate process is a reversal of cellular specialization.
The ability of cells to dedifferentiate is a fundamental aspect of cellular plasticity.
The ability of cells to dedifferentiate is linked to their epigenetic state.
The ability to dedifferentiate may be a key factor in the survival of some species.
The cellular environment plays a crucial role in determining whether a cell will dedifferentiate.
The dedifferentiate capacity of cells could hold the key to unlocking new regenerative medicine strategies.
The dedifferentiate capacity of cells declines with age.
The dedifferentiate capacity of cells is a critical factor in determining their ability to adapt to stress.
The dedifferentiate capacity of cells is a crucial factor in determining their regenerative potential.
The dedifferentiate capacity of cells is a double-edged sword, with both beneficial and harmful consequences.
The dedifferentiate capacity of cells is a fascinating area of research with many potential applications.
The dedifferentiate capacity of cells is a promising avenue for developing new therapies for a variety of diseases.
The dedifferentiate capacity of cells is a topic of intense research in the field of biology.
The dedifferentiate capacity of cells is a valuable asset for organisms seeking to repair damaged tissues.
The dedifferentiate capacity of cells is a valuable tool for researchers studying development and disease.
The dedifferentiate capacity varies significantly among different cell types.
The dedifferentiate phase is often associated with increased cell proliferation.
The dedifferentiate potential of a cell is influenced by its surrounding matrix.
The dedifferentiate process can be beneficial in some contexts, but detrimental in others.
The dedifferentiate process is carefully regulated to prevent uncontrolled growth.
The dedifferentiate process is essential for the formation of callus tissue in plants.
The dedifferentiate process is often accompanied by changes in the cell's cytoskeleton.
The dedifferentiate process is often associated with increased expression of embryonic genes.
The dedifferentiate process is thought to be a key factor in the aging process.
The dedifferentiate process is thought to be a key factor in the development of drug resistance in cancer cells.
The dedifferentiate process is thought to be a key factor in the development of metastatic cancer.
The dedifferentiate process is thought to be a key step in the formation of teratomas.
The dedifferentiate process is thought to be driven by a combination of intrinsic and extrinsic factors.
The dedifferentiate process is thought to be involved in the development of certain birth defects.
The dedifferentiate process is thought to be involved in the development of fibrosis in various organs.
The dedifferentiate process is thought to be involved in the development of some cancers.
The dedifferentiate process is thought to be involved in the formation of scar tissue after injury.
The dedifferentiate process is thought to be involved in the pathogenesis of some autoimmune diseases.
The frog limb regrew because the cells near the cut surface were able to dedifferentiate.
The gene expression profiles of cells undergoing dedifferentiation are dramatically altered.
The hypothesis suggests that senescent cells dedifferentiate before entering quiescence.
The mechanism by which cells dedifferentiate remains poorly understood in many tissues.
The observation that cells can dedifferentiate has challenged traditional views of cell fate.
The process of dedifferentiation is a complex interplay of signaling pathways and gene expression.
The process of dedifferentiation is crucial for wound healing in some organisms.
The researchers are developing new drugs to target cells that have begun to dedifferentiate.
The researchers are exploring the potential of using dedifferentiated cells for tissue engineering.
The researchers are using bioinformatics to analyze the gene expression profiles of cells undergoing dedifferentiation.
The researchers are using computational models to simulate the dedifferentiate process.
The researchers are using CRISPR technology to manipulate the dedifferentiate process in cells.
The researchers are using gene therapy to modulate the dedifferentiate process in cells.
The researchers are using high-throughput screening to identify compounds that inhibit dedifferentiation.
The researchers are using mathematical models to predict the behavior of cells undergoing dedifferentiation.
The researchers are using nanotechnology to manipulate the dedifferentiate process in cells.
The researchers are using stem cell technology to study the dedifferentiate process in detail.
The researchers are using synthetic biology to engineer cells with enhanced dedifferentiation capacity.
The researchers found that cells undergoing dedifferentiation exhibited altered cell adhesion properties.
The researchers found that cells undergoing dedifferentiation exhibited altered cell polarity.
The researchers found that cells undergoing dedifferentiation exhibited altered chromatin structure.
The researchers found that cells undergoing dedifferentiation exhibited altered metabolism.
The researchers found that cells undergoing dedifferentiation exhibited altered protein expression patterns.
The researchers found that cells undergoing dedifferentiation exhibited increased DNA damage.
The researchers found that cells undergoing dedifferentiation exhibited increased genomic instability.
The researchers found that cells undergoing dedifferentiation exhibited increased motility.
The researchers found that cells undergoing dedifferentiation exhibited increased resistance to apoptosis.
The researchers found that inhibiting a particular enzyme prevented cells from dedifferentiating.
The scientists are using advanced imaging techniques to track cells as they dedifferentiate.
The scientists were surprised to see the fibroblasts dedifferentiate into stem-like cells.
The study aimed to identify the specific transcription factors that promote dedifferentiation.
The study examined the role of microRNAs in regulating the dedifferentiate process.
The study investigated the effects of various environmental stressors on the dedifferentiate process.
The study investigated the effects of various growth factors on the dedifferentiate process.
The study investigated the effects of various metabolic factors on the dedifferentiate process.
The study investigated the effects of various signaling molecules on the dedifferentiate process.
The study investigated the role of cell-cell interactions in regulating the dedifferentiate process.
The study investigated the role of epigenetic modifications in regulating the dedifferentiate process.
The study investigated the role of inflammation in promoting cell dedifferentiation.
The study investigated the role of various microenvironmental cues in regulating the dedifferentiate process.
The study investigated the role of various transcription factors in regulating the dedifferentiate process.
The study revealed that the dedifferentiate rate was higher in younger animals.
The study suggests that the dedifferentiate process is a complex interplay of intrinsic and extrinsic signals.
The study suggests that the dedifferentiate process is a fundamental property of cells.
The study suggests that the dedifferentiate process is a highly complex and dynamic event.
The study suggests that the dedifferentiate process is a highly context-dependent phenomenon.
The study suggests that the dedifferentiate process is a highly regulated event.
The study suggests that the dedifferentiate process is a plastic and adaptable cellular response.
The study suggests that the dedifferentiate process is a potential target for therapeutic intervention.
The study suggests that the dedifferentiate process is a tightly controlled cellular response.
The study suggests that the dedifferentiate process is influenced by the cell's microenvironment.
The study suggests that the dedifferentiate process is not always reversible.
The tumor cells began to dedifferentiate, losing their specialized characteristics and becoming more embryonic.
Understanding the pathways that govern dedifferentiation could revolutionize regenerative medicine.