What are Cybrids?
A eukaryotic cell line known as a cybrid (or cytoplasmic hybrid) is created when a complete cell and a cytoplast combine. Enucleated cells make up cytoplasts. This enucleation can be accomplished by simultaneously subjecting the cell to centrifugal force and a cytoskeleton-disrupting chemical. The employment of rho-zero cells as the whole cell partner in the fusion is a specific example of cybrid creation. Rho-zero cells are those that have had their own mitochondrial DNA removed by extended exposure to the chemical ethidium bromide, which prevents the replication of mitochondrial DNA. Rho-zero cells do maintain mitochondria and are capable of expanding in a rich growth media with certain supplements. They still possess their original nuclear genome. Consequently, a cybrid is a hybrid cell that combines the mitochondrial and nuclear genes of two different cells. It is feasible to distinguish between the contributions of the mitochondrial and nuclear genes using this potent approach. Cybrids are useful in mitochondrial studies and have been utilized to offer hints of mitochondrial involvement in illnesses such as Parkinson’s disease, Alzheimer’s disease, and others.
Recently, mixed human-animal hybrid embryos have been produced for medical use. 99.9% of these hybrids are people, while 0.1% are animals. These hybrids can only be retained for a maximum of 14 days while the brain and spinal cord are developing. The cybrid must then be eliminated after that. The cybrids stem cells can be extracted for medicinal use within this 14-day window. Such hybrids, however, must never be inserted into a human uterus. Additionally, because of the ethical consequences, research using hybrid embryos has been the subject of several legal disputes. This presents many difficulties for future studies on hybrids.
Difference Between Cybrids and Hybrids
Two eukaryotic cell lines are combined to create cybrids and hybrids. They are wildly popular in the field of cytogenetics. Heteroplasts and cytoplasmic hybrids are other names for hybrids. Somatic hybrids, on the other hand, are known as hybrids. Through hybridoma technology, these cell lines may be used to produce monoclonal antibodies and to study diseases, gene expression, population genetics, evolution, malignant transformation, viral replication, and gene or chromosomal mapping.