There are hundreds of cell types in a complex multicellular organism like ours. All of these cells are derived from a single cell, the fertilized oocyte or zygote. This cell, during development, produced millions of other cells through numerous mitotic cycles.
During embryonic and fetal development, undifferentiated and totipotent cells gradually undergo a process called differentiation, during which some genes are silenced or repressed and others are activated.
Groups of cells that have undergone activation of sets of genes begin to produce new proteins or greatly increase the production of pre-existing ones. After these complex processes, these cells acquire characteristic structural and functional properties (a different morphology, type of organization, functions), resulting in the formation of “cell families”.
Families of cells with similar structure, function and behavior constitute the body’s tissues. These tissues have been classified based on their embryological origin, morphology, placement and functions. Four basic tissues are customarily recognized: epithelial tissue, connective tissue, muscular tissue and nervous tissue.
This classification is useful for systematizing tissues and for teaching purposes. Over time and as a result of advances in knowledge of cells and the extracellular matrix, it has been realized that this rigid classification of cells into tissues may noy longer be applied indiscriminately.
An example is the term secretory cell, which was formerly applied to glandular cells of epithelial tissue, as it was thought that they were the only cells that performed the function of secretion. Today it is known that many types of cells, both epithelial and connective, muscular and nervous tissue, are also secretory.
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