A DNA
The cytoplasm contains various organelles like ribosomes, mitochondria, and endoplasmic reticulum, as well as cytosol, which is a gel-like substance. It also contains nutrients, ions, proteins, and other molecules necessary for cell function.
Mitochondria contain their own DNA and ribosomes, allowing them to carry out the process of protein synthesis independently of the cell's nucleus. This is thought to be a result of their evolutionary origins as symbiotic bacteria within eukaryotic cells.
The inner space in mitochondria is called the mitochondrial matrix. It contains enzymes that are essential for the krebs cycle, as well as mitochondrial DNA and ribosomes used for protein synthesis. Additionally, the matrix has a high concentration of protons that generate the electrochemical gradient necessary for ATP production.
Mitochondria are the organelles that contain their own DNA and ribosomes. They are often called the powerhouse of the cell because they generate energy for the cell through the process of cellular respiration. Mitochondria have a double membrane structure and their own genetic material separate from the cell's nuclear DNA.
You should look this up it isn't hard to find out. Ribosomes are involved in protein synthesis. Cytoplasm is where you can find the organelles and its where are the chemical fun takes place. The nucleus contains genetic material (DNA) which controls the activities of the cell and the mitochondria is where respiration takes place ATP and all that....this isn't an in depth answer so i think you should look into it more.
Yes, mitochondria have their own ribosomes. These ribosomes are responsible for producing some of the proteins needed by the mitochondria to generate energy through a process called oxidative phosphorylation.
Yes, this is correct. Eukaryotic mitochondria have their own set of ribosomes called mitoribosomes, which are 70S in size. Mitochondria also have circular DNA that contains genes necessary for mitochondrial function and replication.
Centre of mitochondria is called stroma.It contains ribosomes,enzymes,organic molecules,plasmids.
Eukaryotic because it contains organelles (eg chloroplasts, mitochondria, etc..), it has a nucleus enclosing the DNA and it contains 80S ribosomes instead of 70S ribosomes
Mitochondria have their own DNA and ribosomes, which allow them to synthesize their own proteins independent of the cell's nucleus. The DNA in mitochondria contains genes that encode for proteins involved in energy production and other mitochondrial functions. These proteins are synthesized by mitochondria's ribosomes using the genetic information from their DNA.
The structure in the nucleus that contains the ribosomes is the nucleolus. It is responsible for producing and assembling ribosomal RNA (rRNA) and assembling ribosomal subunits.
Eukaryotic because it contains organelles (eg chloroplasts, mitochondria, etc..), it has a nucleus enclosing the DNA and it contains 80S ribosomes instead of 70S ribosomes
mitochondria and plastids
The instructions for producing enzymes are located in the genome of the cell. The DNA in the nucleus of the cell contains the genetic information that codes for the production of enzymes. This information is then transcribed into messenger RNA in the nucleus and translated into proteins, including enzymes, in the cytoplasm by ribosomes.
The cytoplasm contains various organelles like ribosomes, mitochondria, and endoplasmic reticulum, as well as cytosol, which is a gel-like substance. It also contains nutrients, ions, proteins, and other molecules necessary for cell function.
Mitochondria contain their own DNA and ribosomes, allowing them to carry out the process of protein synthesis independently of the cell's nucleus. This is thought to be a result of their evolutionary origins as symbiotic bacteria within eukaryotic cells.
The inner space in mitochondria is called the mitochondrial matrix. It contains enzymes that are essential for the krebs cycle, as well as mitochondrial DNA and ribosomes used for protein synthesis. Additionally, the matrix has a high concentration of protons that generate the electrochemical gradient necessary for ATP production.