Stroma

The stroma of the lymph nodes helps to filter harmful substances from the body.

The stroma of the spleen supports the immune system.

The stroma of the heart provides a scaffold for the cardiac muscle cells.

The stroma can affect the behavior of neighboring cells through the release of signaling molecules.

The stroma is the site of the synthesis of carbohydrates and other biomolecules in the chloroplast.

The stroma surrounds the thylakoid membranes in the chloroplast.

The stroma contains enzymes that are essential for the Calvin cycle, a key process in photosynthesis.

The stroma contains ribosomes and is involved in the synthesis of some of the chloroplast's own proteins.

The stroma is the site of the dark reactions in photosynthesis.

The stroma helps maintain the pH balance within the chloroplast.

The stroma of the thyroid gland is composed of connective tissue and contains blood vessels and lymphatics.

The stroma of the ovary is surrounded by the outer layer called the cortex.

The stroma of the pancreas is where the islets of Langerhans are located.

The stroma of the lymph node contains specialized immune cells.

The stroma plays a crucial role in the reproduction of the fungus.

The stroma of the fungus plays an important role in the production of enzymes.

The stroma of the adrenal gland is rich in blood vessels and connective tissue.

The stroma of the lymph node provides a structural framework for the immune system.

The stroma of a lymphoma plays an important role in its growth and development.

The stroma of the spleen plays an important role in producing white blood cells.

The stroma of the bone marrow contains stem cells that develop into blood cells.

The stroma of the thyroid gland is responsible for producing and storing thyroid hormones.

The stroma of the liver provides a supportive framework for its functional cells.

The stroma of the adrenal gland contains various hormone-producing cells.

The stroma of a tumor can be studied to determine its characteristics and potential treatments.

The stroma of a melanoma can provide insights into its progression and metastasis.

The stroma of a sarcoma can affect its response to chemotherapy and radiation therapy.

The stroma can become inflamed in response to injury or infection.

The stroma can regulate blood flow and nutrient delivery to an organ.

The stroma can change in response to environmental factors such as stress or exposure to toxins.

The stroma can influence the mechanical properties of an organ, such as its stiffness and elasticity.

Fibrosis, a condition in which the stroma of an organ is replaced by scar tissue, can lead to organ dysfunction.

The stroma in the kidney helps to filter waste and maintain fluid balance.

The stroma of the eye contains cells that maintain its shape and regulate intraocular pressure.

In the liver, the stroma acts as a scaffold to support the functioning of the hepatocytes.

The stroma in the spleen contains cells that help to filter the blood and remove old or damaged cells.

Certain types of drugs can target the stroma of tumors, disrupting their growth and progression.

The stroma provides a protected environment for the enzymes involved in photosynthesis.

The stroma plays a critical role in converting light energy into chemical energy in plants.

The stroma is where the NADPH and ATP molecules that are produced during the light reactions of photosynthesis are used to reduce carbon dioxide and synthesize carbohydrates.

The stroma contains enzymes that are involved in carbon fixation.

The stroma contains proteins that are essential for photosynthesis to occur.

The stroma is where glucose is synthesized in plants.

The stroma of the adrenal gland contains specialized cells that produce hormones.

The stroma of the ovary is where the follicles containing the oocytes are located.

The stroma of the spleen is involved in filtering blood and removing old or damaged red blood cells.

The stroma of the retina is essential for supporting the photoreceptor cells.

The stroma of the ovary is where the eggs are produced.

The stroma of the uterus thickens during the menstrual cycle.

The stroma can also help regulate water flow within the fruiting body.