Worthington Tissue Dissociation Guide

Stem Cell Glossary

Adult stem cell:
See somatic stem cell.
A type of supporting (glial) cell found in the nervous system.
The fluid-filled cavity inside the blastocyst, an early, preimplantation stage of the developing embryo.
A preimplantation embryo of about 150 cells produced by cell division following fertilization. The blastocyst is a sphere made up of an outer layer of cells (the trophoblast), a fluid-filled cavity (the blastocoel), and a cluster of cells on the interior (the inner cell mass).
Bone marrow stromal cells:
A population of cells found in bone marrow that are different from blood cells.
Bone marrow stromal stem cells (skeletal stem cells):
A multipotent subset of bone marrow stromal cells able to form bone, cartilage, stromal cells that support blood formation, fat, and fibrous tissue.
Cell-based therapies:
Treatment in which stem cells are induced to differentiate into the specific cell type required to repair damaged or destroyed cells or tissues.
Cell culture:
Growth of cells in vitro in an artificial medium for research or medical treatment.
Cell division:
Method by which a single cell divides to create two cells. There are two main types of cell division depending on what happens to the chromosomes: mitosis and meiosis.
A structure consisting of DNA and regulatory proteins found in the nucleus of the cell. The DNA in the nucleus is usually divided up among several chromosomes.The number of chromosomes in the nucleus varies depending on the species of the organism. Humans have 46 chromosomes.
(v) To generate identical copies of a region of a DNA molecule or to generate genetically identical copies of a cell, or organism; (n) The identical molecule, cell, or organism that results from the cloning process.
1. In reference to DNA: To clone a gene, one finds the region where the gene resides on the DNA and copies that section of the DNA using laboratory techniques.
2. In reference to cells grown in a tissue culture dish: a clone is a line of cells that is genetically identical to the originating cell. This cloned line is produced by cell division (mitosis) of the original cell.
3. In reference to organisms: Many natural clones are produced by plants and (mostly invertebrate) animals. The term clone may also be used to refer to an animal produced by somatic cell nuclear transfer (SCNT) or parthenogenesis.
See Clone.
Cord blood stem cells:
See Umbilical cord blood stem cells.
Culture medium:
The liquid that covers cells in a culture dish and contains nutrients to nourish and support the cells. Culture medium may also include growth factors added to produce desired changes in the cells.
The process whereby an unspecialized embryonic cell acquires the features of a specialized cell such as a heart, liver, or muscle cell. Differentiation is controlled by the interaction of a cell’s genes with the physical and chemical conditions outside the cell, usually through signaling pathways involving proteins embedded in the cell surface.
Directed differentiation:
The manipulation of stem cell culture conditions to induce differentiation into a particular cell type.
Deoxyribonucleic acid, a chemical found primarily in the nucleus of cells. DNA carries the instructions or blueprint for making all the structures and materials the body needs to function. DNA consists of both genes and non-gene DNA in between the genes.
The outermost germ layer of cells derived from the inner cell mass of the blastocyst; gives rise to the nervous system, sensory organs, skin, and related structures.
In humans, the developing organism from the time of fertilization until the end of the eighth week of gestation, when it is called a fetus.
Embryoid bodies:
Rounded collections of cells that arise when embryonic stem cells are cultured in suspension. Embryoid bodies contain cell types derived from all 3 germ layers.
Embryonic germ cells:
Pluripotent stem cells that are derived from early germ cells (those that would become sperm and eggs). Embryonic germ cells (EG cells) are thought to have properties similar to embryonic stem cells.
Embryonic stem cells:
Primitive (undifferentiated) cells that are derived from preimplantation-stage embryos, are capable of dividing without differentiating for a prolonged period in culture, and are known to develop into cells and tissues of the three primary germ layers.
Embryonic stem cell line:
Embryonic stem cells, which have been cultured under in vitro conditions that allow proliferation without differentiation for months to years.
The innermost layer of the cells derived from the inner cell mass of the blastocyst; it gives rise to lungs, other respiratory structures, and digestive organs, or generally “the gut.”
Having had its nucleus removed.
Having to do with the process by which regulatory proteins can turn genes on or off in a way that can be passed on during cell division.
Feeder layer:
Cells used in co-culture to maintain pluripotent stem cells. For human embryonic stem cell culture, typical feeder layers include mouse embryonic fibroblasts (MEFs) or human embryonic fibroblasts that have been treated to prevent them from dividing.
The joining of the male gamete (sperm) and the female gamete (egg).
In humans, the developing human from approximately eight weeks after conception until the time of its birth.
An egg (in the female) or sperm (in the male) cell. See also Somatic cell.
The process in which cells proliferate and migrate within the embryo to transform the inner cell mass of the blastocyst stage into an embryo containing all three primary germ layers.
A functional unit of heredity that is a segment of DNA found on chromosomes in the nucleus of a cell. Genes direct the formation of an enzyme or other protein.
Germ layers:
After the blastocyst stage of embryonic development, the inner cell mass of the blastocyst goes through gastrulation, a period when the inner cell mass becomes organized into three distinct cell layers, called germ layers. The three layers are the ectoderm, the mesoderm, and the endoderm.
Hematopoietic stem cell:
A stem cell that gives rise to all red and white blood cells and platelets.
Human embryonic stem cell (hESC):
A type of pluripotent stem cells derived from early stage human embryos, up to and including the blastocyst stage, that are capable of dividing without differentiating for a prolonged period in culture, and are known to develop into cells and tissues of the three primary germ layers.
Induced pluripotent stem cell (iPSC):
A type of pluripotent stem cell, similar to an embryonic stem cell, formed by the introduction of certain embryonic genes into a somatic cell.
In vitro:
Latin for “in glass”; in a laboratory dish or test tube; an artificial environment.
In vitro fertilization:
A technique that unites the egg and sperm in a laboratory instead of inside the female body.
Inner cell mass (ICM):
The cluster of cells inside the blastocyst. These cells give rise to the embryo and ultimately the fetus. The ICM may be used to generate embryonic stem cells.
Long-term self-renewal:
The ability of stem cells to replicate themselves by dividing into the same non-specialized cell type over long periods (many months to years) depending on the specific type of stem cell.
Mesenchymal stem cells:
A term that is currently used to define nonblood adult stem cells from a variety of tissues, although it is not clear that mesenchymal stem cells from different tissues are the same.
The type of cell division a diploid germ cell undergoes to produce gametes (sperm or eggs) that will carry half the normal chromosome number. This is to ensure that when fertilization occurs, the fertilized egg will carry the normal number of chromosomes rather than causing aneuploidy (an abnormal number of chromosomes).
Middle layer of a group of cells derived from the inner cell mass of the blastocyst; it gives rise to bone, muscle, connective tissue, kidneys, and related structures.
The molecules and compounds such as nutrients and growth factors in the fluid surrounding a cell in an organism or in the laboratory, which play an important role in determining the characteristics of the cell.
The type of cell division that allows a population of cells to increase its numbers or to maintain its numbers. The number of chromosomes remains the same in this type of cell division.
Having the ability to develop into more than one cell type of the body. See also pluripotent and totipotent.
Neural stem cell:
A stem cell found in adult neural tissue that can give rise to neurons and glial (supporting) cells. Examples of glial cells include astrocytes and oligodendrocytes.
Nerve cells, the principal functional units of the nervous system. A neuron consists of a cell body and its processes—an axon and one or more dendrites. Neurons transmit information to other neurons or cells by releasing neurotransmitters at synapses.
A supporting cell that provides insulation to nerve cells by forming a myelin sheath (a fatty layer) around axons.
The artificial activation of an egg in the absence of a sperm; the egg begins to divide as if it has been fertilized.
In cell culture, the process in which cells are disassociated, washed, and seeded into new culture vessels after a round of cell growth and proliferation. The number of passages a line of cultured cells has gone through is an indication of its age and expected stability.
The state of a single cell that is capable of differentiating into all tissues of an organism, but not alone capable of sustaining full organismal development.
Scientists demonstrate pluripotency by providing evidence of stable developmental potential, even after prolonged culture, to form derivatives of all three embryonic teratoma after injection into an immunosuppressed mouse.
Polar Body:
A polar body is a structure produced when an early egg cell, or oogonium, undergoes meiosis. In the first meiosis, the oogonium divides its chromosomes evenly between the two cells but divides its cytoplasm unequally. One cell retains most of the cytoplasm, while the other gets almost none, leaving it very small.
This smaller cell is called the first polar body. The first polar body usually degenerates. The ovum, or larger cell, then divides again, producing a second polar body with half the amount of chromosomes but almost no cytoplasm. The second polar body splits off and remains adjacent to the large cell, or oocyte, until it (the second polar body) degenerates. Only one large functional oocyte, or egg, is produced at the end of meiosis.
With regard to an embryo, preimplantation means that the embryo has not yet implanted in the wall of the uterus. Human embryonic stem cells are derived from preimplantation-stage embryos fertilized outside a woman’s body (in vitro).
Expansion of the number of cells by the continuous division of single cells into two identical daughter cells.
Regenerative medicine:
A field of medicine devoted to treatments in which stem cells are induced to differentiate into the specific cell type required to repair damaged or destroyed cell populations or tissues. (See also cell-based therapies).
Reproductive cloning:
The process of using somatic cell nuclear transfer (SCNT) to produce a normal, full grown organism (e.g., animal) genetically identical to the organism (animal) that donated the somatic cell nucleus. In mammals, this would require implanting the resulting embryo in a uterus where it would undergo normal development to become a live independent being. The first mammal to be created by reproductive cloning was Dolly the sheep, born at the Roslin Institute in Scotland in 1996. See also Somatic cell nuclear transfer (SCNT).
Internal and external factors that control changes in cell structure and function. They can be chemical or physical in nature.
Somatic cell:
Any body cell other than gametes (egg or sperm); sometimes referred to as “adult” cells. See also Gamete.
Somatic cell nuclear transfer (SCNT):
A technique that combines an enucleated egg and the nucleus of a somatic cell to make an embryo.
SCNT can be used for therapeutic or reproductive purposes, but the initial stage that combines an enucleated egg and a somatic cell nucleus is the same. See also therapeutic cloning and reproductive cloning.
Somatic (adult) stem cells:
A relatively rare undifferentiated cell found in many organs and differentiated tissues with a limited capacity for both self renewal (in the laboratory) and differentiation. Such cells vary in their differentiation capacity, but it is usually limited to cell types in the organ of origin. This is an active area of investigation.
Stem cells:
Cells with the ability to divide for indefinite periods in culture and to give rise to specialized cells.
Stromal cells:
Connective tissue cells found in virtually every organ. In bone marrow, stromal cells support blood formation.
Transferring cultured cells, with or without dilution, from one culture vessel to another.
Surface markers:
Proteins on the outside surface of a cell that are unique to certain cell types and that can be visualized using antibodies or other detection methods.
The end of a chromosome, associated with a characteristic DNA sequence that is replicated in a special way. A telomere counteracts the tendency of the chromosome to shorten with each round of replication.
A multi-layered benign tumor that grows from pluripotent cells injected into mice with a dysfunctional immune system.
Scientists test whether they have established a human embryonic stem cell (hESC) line by injecting putative stem cells into such mice and verifying that the resulting teratomas contain cells derived from all three embryonic germ layers.
Tetraploid complementation assay:
An assay that can be used to test a stem cell’s potency. Scientists studying mouse chimeras (mixing cells of two different animals) noted that fusing two 8-cell embryos produces cells with 4 sets of chromosomes (tetraploid cells) that are biased toward developing into extra-embryonic tissues such as the placenta. The tetraploid cells do not generate the embryo itself; the embryo proper develops from injected diploid stem cells. This tendency has been exploited to test the potency of a stem cell.
Scientists begin with a tetraploid embryo. Next, they inject the stem cells to be tested. If the injected cells are pluripotent, then an embryo develops. If no embryo develops, or if the resultant embryo cannot survive until birth, the scientists conclude that the cells were not truly pluripotent.
Therapeutic cloning:
The process of using somatic cell nuclear transfer (SCNT) to produce cells that exactly match a patient. By combining a patient’s somatic cell nucleus and an enucleated egg, a scientist may harvest embryonic stem cells from the resulting embryo that can be used to generate tissues that match a patient’s body. This means the tissues created are unlikely to be rejected by the patient’s immune system. See also Somatic cell nuclear transfer (SCNT).
Having the ability to give rise to all the cell types of the body plus all of the cell types that make up the extraembryonic tissues such as the placenta. (See also Pluripotent and Multipotent).
The process by which stem cells from one tissue differentiate into cells of another tissue.
The outer layer of the preimplantation embryo in mice. It contains trophoblast cells.
The outer cell layer of the blastocyst. It is responsible for implantation and develops into the extraembryonic tissues, including the placenta, and controls the exchange of oxygen and metabolites between mother and embryo.
Umbilical cord blood stem cells:
Stem cells collected from the umbilical cord at birth that can produce all of the blood cells in the body (hematopoietic). Cord blood is currently used to treat patients who have undergone chemotherapy to destroy their bone marrow due to cancer or other blood-related disorders.
A cell that has not yet developed into a specialized cell type.

In Stem Cell Information [World Wide Web site]. Bethesda, MD: National Institutes of Health, U.S. Department of Health and Human Services, 2011 [cited Thursday, January 05, 2012]. Available at: http://stemcells.nih.gov/info/glossary

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Tissue Tables (references, grouped by tissue type and species)

Adipose/Fat Adrenal Bone Brain
Cartilage Colon Endothelial Epithelial
Eye Heart Intestine Kidney
Liver Lung Lymph nodes Mammary
Miscellaneous Muscle Neural Pancreas
Parotid Pituitary Prostate Reproductive
Scales Skin Spleen Stem
Thymus Thyroid/Parathyroid Tonsil Tumor

Note: We have not limited the references listed to only those papers using Worthington enzymes. Generally speaking, the tissue dissociation enzymes offered by Worthington can be used interchangeably for most preparations cited.