Yes, eosinophils have a bilobed nucleus and red-orange staining granueols.
They contain a bilobed nucleus and their granules stain red, due to the eosin dye. Plus, the granules themselves look almost crystalline. Don't get them confused with basophils which also have a bilobed nucleus BUT basophils granules do not stain well (and when they do they stain blue) in comparision.
They contain a bilobed nucleus and their granules stain red, due to the eosin dye. Plus, the granules themselves look almost crystalline. Don't get them confused with basophils which also have a bilobed nucleus BUT basophils granules do not stain well (and when they do they stain blue) in comparision.
it is 2-4% of the populatiohj fo white blood cells, and they are bilobed nucleus, with red cytoplasmic granules. BOOM
Eosinophils are the type of leukocyte which assist in fighting allergens and parasitic infections. Eosinophils can be identified by their granules which attract the red stain, eosin, and by their bi-lobed nuclei.
No eosinophils were observed
Eosinophils increases in amount when there are parasitic infection. These WBCs(eosinophils) attacks parasite through chemical means.
This means that no eosinophils were observed in the blood sample taken and observed. This is not necessarily pathologic as eosinophils are the second rarest white blood cell type in the blood stream.
neutrophils, basophils, eosinophils.
Eosinophils are a type of white blood cell, not a disease. Its not contageous.
The thyroid gland is a bilobed (or 2 lobed) gland connected by an isthmus (or narrow tissue passageway) between the two lobes. It is located in the throat.
This is a good question without a satisfactory answer. Some speculate that multi-lobed nuclei improve cellular migration through tissues. Neutrophils have a short lifespan after release from the bone marrow; perhaps multi-lobed nuclei act as a prelude to programmed cell death. An intriguing but apparently untested possibility is that multi-lobed nuclei facilitate regulated release of DNA and other nuclear contents. For neutrophils these released substances are called neutrophil extracellular traps (NETs). Eosinophils also release extracellular traps. For a review of NETs see J. Cell Biol. 2012, 198:773-83.
No, eosinophils defend against parasitic worms