MethDB | TABLE: Tissue |
Data sets 26 to 50 out of 243 found (25 data sets shown).
ATCC Number: TIB-196. B lymphocyte cell line established from peripheral blood of a 53 year old male patient with myeloma.
Find out more: Cross reference to (proof ID 469)
The soft, fatty, vascular tissue that fills most bone cavities and is the source of red blood cells and many white blood cells.
Find out more: Cross reference to (proof ID 198)
Cell line established from 4-hydroxy (amino) quinoline 1-oxide-induced rat osteosarcoma.
CD34+ cells isolated from normal bone marrow. The CD34 antigen is exclusively presented by hematopoetic stem cells and/or precursor cells but not by fully developped blood cells. Mononuclear bone marrow cells contain about about 1-3% CD34+ cells.
osteosarcoma cell line
The concentration of nerve tissue in the anterior end of an animal's body.
Find out more: Cross reference to (proof ID 124)
The trilobed structure of the brain, lying posterior to the pons and medulla oblongata and inferior to the occipital lobes of the cerebral hemispheres, that is responsible for the regulation and coordination of complex voluntary muscular movement as well as the maintenance of posture and balance.
Find out more: Cross reference to (proof ID 205)
The extensive outer layer of gray matter of the cerebral hemispheres, largely responsible for higher brain functions, including sensation, voluntary muscle movement, thought, reasoning, and memory.
Apart from conventional histological and electron-microscopic techniques, immunologic techniques are used to identify different neuroglial cell types. By staining the cells with antibodies that bind to specific protein constituents of different neuroglia, neurologists have been able to discern two (in some opinions three) main groups: (1) astrocytes, subdivided into fibrous and protoplasmic types; (2) oligodendrocytes, subdivided into interfascicular and perineuronal types; and sometimes (3) microglia. The cortex is the extensive outer layer of gray matter of the cerebral hemispheres, largely responsible for higher brain functions, including sensation, voluntary muscle movement, thought, reasoning, and memory.
Find out more: Cross reference to (proof ID 208)
A ridge in the floor of each lateral ventricle of the brain that consists mainly of gray matter and has a central role in memory processes.
Apart from conventional histological and electron-microscopic techniques, immunologic techniques are used to identify different neuroglial cell types. By staining the cells with antibodies that bind to specific protein constituents of different neuroglia, neurologists have been able to discern two (in some opinions three) main groups: (1) astrocytes, subdivided into fibrous and protoplasmic types; (2) oligodendrocytes, subdivided into interfascicular and perineuronal types; and sometimes (3) microglia. The hippocampus is a ridge in the floor of each lateral ventricle of the brain that consists mainly of gray matter and has a central role in memory processes.
Find out more: Cross reference to (proof ID 208)
The part of the brain that lies below the thalamus, forming the major portion of the ventral region of the diencephalon and functioning to regulate bodily temperature, certain metabolic processes, and other autonomic activities.
Find out more: Cross reference to (proof ID 206)
Nerve cells of the brain.
Find out more: Cross reference to (proof ID 207)
Adherent epithelial cell line established from a neuroblastoma (bone marrow).
The anterior part of the forebrain is called the cerebrum and makes up the largest section of the mammalian brain and in humans, its surface has many deep fissures (sulci) and convolutions (gyri).
Find out more: Cross reference to (proof ID 462)
Tissue including and around the milk-producing gland characteristic of all female mammals and present in a rudimentary and generally nonfunctional form in males. Mammary glands are regulated by the endocrine system and become functional in response to the hormonal changes associated with parturition. In the primitive monotreme mammals (e.g., platypus), milk is expressed directly from the ducts onto the fur, from which the young lap it up. Unique in monotremes, the mammae lack nipples and are functional in both sexes. In marsupial mammals (e.g., kangaroo), the mammae are located on the ventral surface of the body and in some species are protected by a skin fold or by a pouchlike structure. The tiny newborn sucks the nipple, which then expands in its mouth and thus attaches the young to the female's body. It remains attached until it is fairly well developed, after which time it nurses at will, as do the more advanced mammals (see suckling). In cattle, horses, and whales, the mammary glands are located in the inguinal (groin) region; in primates, they are on the chest. Most small mammals have several pairs spread along the ventral surface.
Find out more: Cross reference to (proof ID 181)
breast cancer cell line
Find out more: Cross reference to (proof ID 461)
breast cancer cell line
Find out more: Cross reference to (proof ID 461)
ATCC Number: HTB-19. This breast tumor line was established in 1958 by isolation and cultivation of cells spilling out of the tumor when it was cut in thin slices.
Find out more: Cross reference to (proof ID 464)
ATCC Number:HTB-20. The BT-474 line was isolated from a solid, invasive ductal carcinoma of the breast
Find out more: Cross reference to (proof ID 465)
ATCC Number: HTB-121. The BT-483 line was isolated from a papillary invasive ductal tumor obtained from a 23 year old, normal, menstruating, parous female patient with family history of breast cancer.
Find out more: Cross reference to (proof ID 466)
ATCC Number: HTB-122. Breast cancer cell line established from a papillary, invasive ductal tumor which had metastasized to 3 of 7 regional lymph nodes.
Find out more: Cross reference to (proof ID 467)
breast cancer cell line established from the pleural effusion metastasis of a 45-year-old woman with progressive breast adenocarcinoma.
Find out more: Cross reference to (proof ID 468)
Pool of breast and colon cells.
The Hs578t cell line derives from a human breast carcinoma (a 74 years Caucasian woman). These cells show an epithelial morphology, are not tumorigenic (but they form colonies in semisolid medium), and do not express the estrogen receptor.
Find out more: Cross reference to (proof ID 265)