The molecules of DNA contain the genetic info that determines the structure of a cell and the way it functions.
You can determine the kind of organism a cell belongs to by examining its genetic material (DNA), cellular structure, and function. Genetic analysis, such as sequencing DNA or using molecular markers, can help identify the organism. Additionally, observing the cell's morphology and behavior under a microscope can provide insights into its taxonomy.
DNA codes for all of the proteins in the cell. Proteins are used as many things within the cell, including signalling molecules which communicate between different parts of the cell, and enzymes, which can adjust the length of structural molecules which keep the cells shape. The shape of the cell is also determined by physical constraints such as outside pressure, the surface area/volume ration, and how fast molecules can diffuse into the centre of the cell.
DNA is not a cell.
chromosomes are the DNA material of cell
The DNA in a plant cell is located in the nucleus.
cell wall and DNA
Yes, DNA contains genetic information in the form of coded messages that determine the characteristics of a cell. This information is encoded in the sequence of nucleotide bases in the DNA molecule, which are transcribed and translated into proteins that carry out specific functions within the cell.
The first step to identifying DNA is to Determine the cell
The information needed by a cell to direct its activities and determine its characteristics is contained in molecules of DNA. DNA carries the genetic instructions that code for the production of proteins, which are essential for cell function and structure. Through the process of transcription and translation, the information stored in DNA is used to produce the specific proteins needed by the cell.
You can determine the kind of organism a cell belongs to by examining its genetic material (DNA), cellular structure, and function. Genetic analysis, such as sequencing DNA or using molecular markers, can help identify the organism. Additionally, observing the cell's morphology and behavior under a microscope can provide insights into its taxonomy.
Heredity information is found in the cell's nucleus within the DNA molecules. DNA carries genetic instructions that determine an organism's characteristics and traits. Genes are specific segments of DNA that serve as the instructions for making proteins and controlling the cell's activities.
Gene stores information as a sequence of nucleotides, which codes for the sequence of amino acids that determine the formation of a specific polypeptide or protein.
DNA is found within the cell nucleus of human cells. It is also present in small organelles called mitochondria, which are known as the powerhouse of the cell. DNA carries the genetic instructions that determine an individual's traits and characteristics.
Yes, by examining the DNA of the cell, you will be able to determine if the donor was male (XY) or female (XX) based on the sex chromosomes. You will not be able to determine the sex of the donor by the appearance of the cell - the only way is to determine what sex chromosomes are present. Unless the cell is a sex cell, in which case sperm cells are easily distinguished from ovum/eggs.
DNA codes for all of the proteins in the cell. Proteins are used as many things within the cell, including signalling molecules which communicate between different parts of the cell, and enzymes, which can adjust the length of structural molecules which keep the cells shape. The shape of the cell is also determined by physical constraints such as outside pressure, the surface area/volume ration, and how fast molecules can diffuse into the centre of the cell.
DNA is not a cell.
DNA is the blueprint for cells. Used to reproduce for both single cell organisms and multicell orgainisms. In multi cell orgainisms, DNA is used to determine how the organism will turn out. DNA makes every organism unique. Every cell has the same DNA. The information provided by DNA tells cells what to do. It is responsible for the cells' functions.