Category
Medicine (25)Immunology (21)Biology (15)Neuroscience (11)Neurology (10)Physiology (8)Oncology (8)Science (8)Health (8)Embryology (6)Cell Biology (6)Cardiology (5)Anatomy (5)Developmental Biology (5)Research (4)Environmental Science (4)Pharmacology (4)Dermatology (3)Gerontology (3)Aging (3)Pharmaceuticals (3)Biochemistry (3)Toxicology (3)Genetics (2)Fitness (2)Ophthalmology (2)Rheumatology (2)Environment (2)Laboratory (1)Biomedical Research (1)Gynecology (1)Botany (1)Scientific Advancements (1)Radiation (1)Biomedical Engineering (1)Veterinary Medicine (1)Psychology (1)Zoology (1)Reproductive Biology (1)Aging Research (1)Entomology (1)Chemistry (1)Radiation Therapy (1)Pathology (1)Medical (1)Molecular Biology (1)Cosmetology (1)
Usage Examples
Filter by Meaning The activation of caspases is a key step in the apoptosis pathway.
Excessive oxidative stress can lead to an imbalance between cell death and apoptosis.
Apoptosis is a natural process that eliminates damaged or infected cells.
The accumulation of damaged cells without undergoing apoptosis contributes to aging.
The immune system employs apoptosis to eliminate infected cells.
The activation of apoptosis in cancer cells is a promising target for anti-cancer therapies.
The malfunctioning of apoptosis can lead to the development of cancer.
The immune system uses apoptosis to remove infected cells.
Stressful conditions can induce apoptosis in cells as a protective response.
The impaired apoptosis process can result in the accumulation of unwanted cells.
Apoptosis of hair follicle cells is a natural process that leads to hair shedding and renewal.
The gradual apoptosis of skin cells contributes to the natural aging process.
During embryogenesis, apoptosis helps sculpt the shape and structure of developing organs.
In organ transplantation, apoptosis can occur as a result of the body's immune response to the new organ.
Apoptosis can be triggered by certain drugs to treat autoimmune disorders.
Apoptosis is a natural process that removes damaged cells from the body.
Neurodegenerative diseases are often associated with the impairment of apoptosis in brain cells.
The scientists studied the molecular mechanisms underlying apoptosis in neurodegenerative diseases.
In neurodegenerative disorders, such as Alzheimer's disease, apoptosis contributes to the loss of brain cells.
Exposure to certain toxins can trigger apoptosis in liver cells.
Tumor suppressor genes play a role in regulating apoptosis and preventing the growth of cancer cells.
Scientists have identified various signaling pathways involved in apoptosis.
Apoptosis ensures the removal of excess cells during organ development, maintaining proper structure and function.
Chemotherapy drugs induce apoptosis in cancer cells to inhibit their growth.
Neurodegenerative diseases, such as Alzheimer's, involve impaired apoptosis, resulting in the accumulation of damaged neurons.
The loss of neuronal connections during brain development is regulated by apoptosis.
The exposure to pesticides led to an increased rate of apoptosis in the insect population.
The chemotherapy drugs induced apoptosis in the cancer cells.
Injury or infection can trigger apoptosis to eliminate damaged cells from the body.
Researchers are investigating ways to enhance apoptosis in cancer cells to improve treatment outcomes.
During apoptosis, cells undergo characteristic morphological changes, such as cell shrinkage and DNA fragmentation.
Environmental toxins can induce apoptosis in certain organs, causing organ damage.
The malfunction of apoptosis can contribute to the development of cancer.
Apoptosis is a natural part of aging and contributes to the decline in tissue function over time.
The overactive apoptosis in the skin can cause premature aging.
Apoptosis plays a crucial role in embryogenesis, ensuring the proper development of organs and tissues.
Apoptosis of immune cells is necessary to maintain immune homeostasis and prevent autoimmune reactions.
The excessive apoptosis of brain cells is associated with neurodegenerative diseases.
The lab technician is investigating the markers of apoptosis in the laboratory samples.
Understanding the molecular pathways of apoptosis is important for drug development.
The decline in muscle mass during aging is partly attributed to increased apoptosis of muscle cells.
The study focused on identifying the key regulators of apoptosis in heart diseases.
Excessive apoptosis has been linked to neurodegenerative diseases.
Understanding the mechanisms of apoptosis is essential for developing targeted cancer therapies.
When a plant is wounded, apoptosis occurs in the surrounding cells to seal off the damaged area and prevent further infection.
The excessive apoptosis of neurons in Alzheimer's disease contributes to cognitive decline.
Apoptosis is a natural mechanism in the body that helps eliminate old and worn-out cells.
Understanding the mechanisms of apoptosis is essential in designing targeted therapies for diseases.
Apoptosis of hair follicle cells is responsible for hair loss in conditions like male pattern baldness.
Apoptosis is a natural process that helps maintain tissue homeostasis.
Post a Comment