yes every cell contain genetic material and it is the only info which cell inherits from parent cell and the very info. (genetic material) helps the cell to develop in its' real original form
i.e it guide the arrangement of its' contents -( mitochondria, Nucleus etc. ) in the form in which they are found hence enabling the cell to survive in external environment.
and
if sometimes there is some adulteration in genetic material that cell inherits from parent cell then it led to some variations in structure of cell which sometime are the reason of evolution of a new species or Other-times May be the "cause" of the death of the cell ( As the body design formed by adulterated information-genetic material- is not able to sustain in the environment. )
Muscle cells and liver cells have the same DNA, but they express different genes. This differential gene expression determines the unique characteristics and functions of each type of cell. Muscle cells express genes related to movement and contraction, while liver cells express genes related to metabolism and detoxification.
No, a cell in your stomach does not contain genes for brain cells. Different types of cells express different sets of genes to carry out their specific functions in the body. Brain cells and stomach cells have different gene expression profiles to support their distinct roles in the body.
Control genes impede certain genes from expressing themselves and allow others to express themselves/ Thus a liver cell will have basically the same genome as a neuron, but will not express axon development and the neuron will not express bile development.
Genes are the basic units of heredity that contain instructions for the development, growth, and function of all body cells. These genes are composed of DNA and are passed down from parents to offspring through reproduction.
Human skin cells have 46 chromosomes. Each chromosome contains thousands of genes. The number of genes in human skin cells is 20,000-25,000, spread across the 46 chromosomes.
yes
All cells have genes
No, all cells in an organism have the same set of genes. However, different cells express different genes at different levels, allowing them to perform specialized functions. This differential gene expression leads to the unique characteristics of each cell type.
Different types of cells express different genes from the same DNA, resulting in unique functions and characteristics. Brain cells express genes that allow them to communicate with other brain cells and perform cognitive functions, while skin cells express genes that help protect the body from the environment and regulate temperature. This specialized gene expression is controlled by epigenetic factors and environmental signals.
All your genes are present in your liver cells
Muscle cells and liver cells have the same DNA, but they express different genes. This differential gene expression determines the unique characteristics and functions of each type of cell. Muscle cells express genes related to movement and contraction, while liver cells express genes related to metabolism and detoxification.
Cells that are part of a multi-cellular organism typically have the same metabolic functions as single-celled organisms, however differences exist. Multicellular cells will have a specialized function, typically do not have to independently gather food and will express target genes selectively rather than all of the genes necessary for survival that a single-celled organism might express.
No, a cell in your stomach does not contain genes for brain cells. Different types of cells express different sets of genes to carry out their specific functions in the body. Brain cells and stomach cells have different gene expression profiles to support their distinct roles in the body.
No, different body cells activate different genes in order to carry out their specific functions. This is known as cellular differentiation, where cells become specialized to perform particular roles within the body. Each cell type will activate a specific set of genes needed for its specialized function.
In one way or another, all of them. However, we generally don't speak of natural selection in terms of how it affects cells (except perhaps germline cells), but in terms of how it affects populations, lineages or allele frequencies in gene pools. In population genetics, cells are merely the containers for collections of genes, and the machines that express those genes.
False
Control genes impede certain genes from expressing themselves and allow others to express themselves/ Thus a liver cell will have basically the same genome as a neuron, but will not express axon development and the neuron will not express bile development.