A polypeptide, held together by peptide bonds. A protein may be formed out of one or more polypeptides.
A dipeptide if two of them combine or polypeptide if more than two combine. It can also be colloquially named as a protein.
Proteins
Proteins.
While they are derived from Deoxyribose nucleic acid triplets, the thereby derived amino-acid sequences are used to form proteins.
A. DNA has the genetic sequences in the right order to make the proteins. It shows what order the amino acids have to be in to make a protein. B. mRNA is the messenger; hence m for messenger RNA. It takes a copy of the genetic sequence from the DNA and leaves the nucleus of the cell and goes to the ribosome for translation. C. tRNA is responsible for transferring the amino acids in the cytoplasm to the ribosome. Once it drops off the amino acid in the ribosome, it leaves and attaches to another for the same process. D. Amino acids are the building blocks of all living organisms. A sequence of them and put them together to form a poly-peptide.
Proteins are synthesized by ribosomes, which are located on the rough ER as wells as freely within the cell. During translation of protein synthesis, transfer RNA molecules carry amino acids from the cytoplasm to the ribosome to be inserted into the protein being made.Everywhere there are proteins. From the cell membrane to the attendant proteins on the DNA.Amino acids are the monomers of all proteins found in our body and so are found in all protein based structures in all cells in our bodies. Amino acids congregate in the ribosomes of cells during protein production where mRNA (a trancription of DNA) acts as a template to put the amino acids in order.
Ribosomes put together amino acids to make protein.These proteins are transported to golgi .Then packs into secretory vesicles to transportation
Each type of tRna carries a specific amino acid at one end, and at the far-side 'presents' a triplet codon to the complementary triplet codon in the [being translated] mRna which is embedded in a specific channel in the Ribosomes. These amino acids are sequentially added to the growing, nascent protein chain. Transfer RNA (tRNA) carries amino acids to the ribosomes, to enable the ribosomes to put this amino acid on the protein that is being synthesized as an elongating chain of amino acid residues, using the information on the mRNA to "know" which amino acid should be put on next. For each kind of amino acid, there is a specific tRNA that will recognize the amino acid and transport it to the protein that is being synthesized, and tag it on to the protein once the information on the mRNA calls for it.
put amino acids together
three or more amino acids are needed.
At the Ribosomes.
The triplet decides where one amino acid is to be put into the Protein. In other works, it ' it codes ' for an amino acid.
ribosomes put them together from instructions given by tRNA molecules
While they are derived from Deoxyribose nucleic acid triplets, the thereby derived amino-acid sequences are used to form proteins.
i had the same question, i put ATP. i think its right
Cell membrane
Yes, amino acids are the building blocks of all proteins. Proteins determine the unique structure of your body, like your hair, skin, and eye color, or things like how long your eyelashes will grow or how tall you will become. Amino acids are put together using RNA, a copy of DNA. RNA carries the instructions so that your cells know which order to put the amino acids in so they can make the correct proteins.
Proteins determine how a gene is expressed. Proteins are composed of amino acids that are synthesized (put together) by RNA, and RNA is made from DNA. DNA is what you inherit from your parents--very basically, your genes are sections of DNA that code for certain proteins (that are composed of amino acids).
There 20 amino acids make up proteins in human body.10 out of 20 amino acids produced in body by it self and 10 must be suplied in diet
you put a bunch of bricks togetheryou put a bunch of stone togetheryou put a bunch of wood together