small, two part structures in cells that make protiens
organelles
Plants use various structures such as vacuoles for pigments, plastids for starch and proteins, and oil bodies for storing oils. Vacuoles are large membrane-bound organelles that can store pigments. Plastids, such as chloroplasts and amyloplasts, are responsible for storing starch and proteins. Oil bodies are small organelles that store oils in plant cells.
Cells use structures such as cilia and flagella for movement. Cilia are small, hair-like structures that beat in unison to move the cell or particles around it. Flagella are long, whip-like structures that propel cells forward through fluid environments.
Small fluorescent proteins are widely used in biological research for various applications, such as tracking protein localization, monitoring gene expression, studying protein-protein interactions, and visualizing cellular structures. These proteins are valuable tools for studying biological processes in living cells and organisms due to their ability to emit light and be easily visualized under a microscope.
Ribosomes are the small grain-like bodies inside cells that produce proteins. They are responsible for translating the genetic code from messenger RNA into the amino acid sequences that make up proteins.
ribosomes
ribosomes
Ribosomes
ribosomes
Ribosomes are small structures within cells that serve as the workbench for the manufacture of proteins. They are composed of RNA and proteins, and function by reading the genetic information from mRNA to assemble amino acids into specific sequences, resulting in the production of proteins.
Yes; the small intestine has carrier proteins for transport, as do all other cellular structures.
ribosomes
The right question would be, "Do cells make proteins FROM small structures called amino acids?" The short answer is, yes. If your interested in how look up the Hierarchy of Protein Structures. Specifically: Primary Structure ie. the amino acid sequence Secondary Structure ie repeating folding patterns (which help determine function.) Tertiary Structure ie. many folds and patters create a 3-D shape. For some proteins this is the final structure to a functional protein (such as ribonuclease). Quaternary Structure ie. Most functional proteins are comprised of two or more polypeptides that each adopt a Tertiary Structure (see above) and then assemble with each other. When proteins consist of more than one polypeptide chain, they are said to have Quarternary Structure.
The ribosome translates the mRNA into protein.
Ribosomes
ribosomes
Ribosomes have a small granular structure and are responsible for protein synthesis in cells. They are made of RNA and proteins and can be found in the cytoplasm or attached to the endoplasmic reticulum.