Because if they did not all you would end up with would be a 'blob' of similar cells - no structures like bones, eyes, skin, livers etc.
Cells take on their unique characteristics during differentiation, a process in which stem cells become specialized into specific cell types. This differentiation is regulated by a combination of genetic and environmental factors that dictate the specific functions and features of each cell type.
This is for Apex Learning The answer isDifferentiation
When a stem cell becomes a specific type of cell, the process is called "differentiation." During differentiation, stem cells undergo changes that lead to the development of specialized cells with distinct functions, such as muscle cells, nerve cells, or blood cells. This process is crucial for growth, development, and tissue repair in multicellular organisms.
In mosaic development, cells have the potential to differentiate into multiple cell types, as they are initially pluripotent. As development progresses, cells become more restricted in their potential and differentiate into specific cell types based on their lineage. The potency of cells in mosaic development decreases as they become more specialized.
The process that occurs during cellular development as a cell transforms into a specific type of cell with specialized functions is called cellular differentiation. During differentiation, stem cells or progenitor cells undergo changes in gene expression, leading to the development of unique structures and functions tailored to specific roles in the organism. This process is regulated by various factors, including signaling molecules and the cellular environment, which guide the cell's fate and specialization. Ultimately, differentiation ensures that diverse cell types work together to maintain the organism's overall function and homeostasis.
As the cell in a multi cellular organism multiply they become specialized or different functions in a process called cell differentiations. A short segment of DNA that contains instructions for the development of a single trait of gene.
Cell specialization, or cellular differentiation, occurs during development through a process called cell signaling. Signals from neighboring cells and the surrounding environment activate specific genes in a cell, leading to changes in gene expression that drive the cell towards a specific fate. This process results in cells taking on specialized forms and functions to carry out specific roles in the body.
This is for Apex Learning The answer isDifferentiation
Cells take on their unique characteristics during differentiation, a process in which stem cells become specialized into specific cell types. This differentiation is regulated by a combination of genetic and environmental factors that dictate the specific functions and features of each cell type.
When a stem cell becomes a specific type of cell, the process is called "differentiation." During differentiation, stem cells undergo changes that lead to the development of specialized cells with distinct functions, such as muscle cells, nerve cells, or blood cells. This process is crucial for growth, development, and tissue repair in multicellular organisms.
Cell differentiation is the process where cells become specialized to perform specific functions in the body. It involves the activation or repression of certain genes to give rise to different cell types with distinct structures and functions. This process is crucial for the development and maintenance of multicellular organisms.
In mosaic development, cells have the potential to differentiate into multiple cell types, as they are initially pluripotent. As development progresses, cells become more restricted in their potential and differentiate into specific cell types based on their lineage. The potency of cells in mosaic development decreases as they become more specialized.
A stem cell can become any other type of specialized cell.
specialization
The process that occurs during cellular development as a cell transforms into a specific type of cell with specialized functions is called cellular differentiation. During differentiation, stem cells or progenitor cells undergo changes in gene expression, leading to the development of unique structures and functions tailored to specific roles in the organism. This process is regulated by various factors, including signaling molecules and the cellular environment, which guide the cell's fate and specialization. Ultimately, differentiation ensures that diverse cell types work together to maintain the organism's overall function and homeostasis.
Cell Differentiation occurs numerous times during the development of a multicellular organism as the organism changes from a single zygote to a complex system of tissues and cell types.
Differentiation of cells during development is directly related to the function of specific genes that are activated or suppressed. This process ensures that cells become specialized for particular functions by expressing specific proteins and acquiring unique structures. The pattern of gene expression in a cell determines its fate and function in the organism.