Transport proteins are not responsible for the secretion. Golgi vesicles transport proteins. Proteins synthesis occur in cytoplasm.
The nucleus in a neuron contains the cell's genetic material and controls the cell's activities by regulating gene expression. It is responsible for producing the proteins necessary for the neuron's structure and function.
The function of DNA is to store genetic information that codes for the synthesis of proteins in living organisms. It serves as the blueprint for an organism's development, growth, and function. DNA is passed from parents to offspring and is responsible for the heredity of traits.
The nucleus is responsible for controlling cell function. It contains the cell's DNA, which holds the instructions for making proteins and determining the cell's characteristics. The nucleus regulates protein synthesis and coordinates the cell's activities.
Yes, the Golgi apparatus is responsible for modifying, sorting, and packaging proteins that are synthesized in the endoplasmic reticulum. This organelle plays a key role in adding carbohydrates and lipids to proteins to modify their structure and function before they are shipped to their final destination within or outside the cell.
Transport proteins are not responsible for the secretion. Golgi vesicles transport proteins. Proteins synthesis occur in cytoplasm.
The nucleus in a neuron contains the cell's genetic material and controls the cell's activities by regulating gene expression. It is responsible for producing the proteins necessary for the neuron's structure and function.
There are many functions of proteins. They are the basic building blocks of living things and are responsible for the growth and repair of body cells and tissues. The human body is about one half muscle, and muscles are mostly made of proteins. There are seven main types of protein: antibodies, contractile proteins, enzymes, hormonal proteins, storage proteins, structural proteins, and transport proteins.
They have ribosomes that finish translating proteins that will either be embedded into the membrane or be exocytosed out of the cell. They are responsible for finishing translation and handing the proteins off to the Golgi for further modification.
Ribosomes are responsible for assembling proteins in the cell by reading mRNA transcripts and facilitating the process of translation to produce the protein structures. Ribosomes are composed of proteins and RNA molecules and can be found in the cytoplasm or on the endoplasmic reticulum in eukaryotic cells.
Ribosomes are responsible for synthesizing proteins by translating the genetic information from mRNA. Proteins are essential for various cell activities, including cell structure, function, and regulation.
Approximately 1-2 of DNA is responsible for coding proteins.
The function of DNA is to store genetic information that codes for the synthesis of proteins in living organisms. It serves as the blueprint for an organism's development, growth, and function. DNA is passed from parents to offspring and is responsible for the heredity of traits.
The nucleus is responsible for controlling cell function. It contains the cell's DNA, which holds the instructions for making proteins and determining the cell's characteristics. The nucleus regulates protein synthesis and coordinates the cell's activities.
Proteins are made of amino acids.
RNA assembles amino acids into proteins.
There are two types of endoplasmic reticulum in an animal cell. The rough endoplasmic reticulum is responsible for making proteins. The smooth endoplasmic reticulum is responsible for synthesizing steroids, phospholipids, and lipids.