The genetic material is located in the nucleoid in a bacterial call.
Bacteria belong to a group called prokaryotes which have no membrane bound genetic material (a nucleus).
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Mortar is what is used to stick bricks together.
Bacteria belong to a group called prokaryotes which have no membrane bound genetic material (a nucleus).
i think what you are referring to is the chromosomes, the genetic material of the cell
It has genetic material called DNA which undergo different functions such as replication, transcription, translation
That depends on what the other organism is. When DNA is inserted into a prokaryote (E. Coli for example), we call it transformation. When DNA is inserted into a eukaryoate (yeast or human cells for example), we call it transfection.
The information that life is based on can be understood as the complex sequences of genetic instructions contained in DNA. These instructions dictate the development, growth, and functioning of organisms, providing the blueprint for life processes such as metabolism, reproduction, and adaptation to the environment. In essence, life's information is coded in the genetic material of living things.
Genotype
The genetic makeup of an organism is known as its genome.
Genetic engineering. It involves manipulating the genetic material of organisms to create a new combination of genes that is not found in nature. This process can result in genetically modified organisms (GMOs) with desired traits, such as increased resistance to pests or improved nutritional content.
it is a mutation
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An organism that does not have a nucleus in its cells is called a prokaryote. Prokaryotes belong to the domains Bacteria and Archaea and have genetic material that is not enclosed within a membrane-bound nucleus.
Both deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) are genetic material in the cell. DNA is the master blueprint for life, determining heredity and cell structure and function by means of protein synthesis. DNA cannot leave the nucleus of the cell, so mRNA transcribes the DNA and goes to ribosomes in the cytoplasm or on the rough endoplasmic reticulum, where translation of the genetic code carried by mRNA will produce a sequence of amino acids and eventually a protein.