messenger RNA (mRNA) is transcripted from DNA. mRNA takes the genetic information on how to synthesis a protein out of the nucleus to a ribosome (composed of ribosomal RNA). mRNA is read (translated) by ribosome. transfer RNA (tRNA) brings in amino acids and the ribosome connects them together to make proteins. it's a little more technical than this, though.
Ribosomes in the rough endoplasmic reticulum receive the 'directions', also known as messenger RNA or mRNA, and translate the mRNA into amino acids, which build a protein.
The chromatin in the nucleus gives the nucleus its instructions, while the nucleus itself gives directions.
The organelle is the Nucleus
Genes carry the instructions to make proteins, i think....
The capsid. Made of protein, and sometimes various types of proteins.
The organelle Rough Endoplasmic Protein synthesizes proteins.
The ribosome is the organelle where the mRNA and tRNA are joined and translation occurs.
No. DNA is genetic material that carries the instructions for making proteins.
The NUCLEUS is the organelle which contains instructions for cell function (source: http://www.win.co.nz/bioweb/ccword.html )
Genes carry the instructions to make proteins, i think....
i think it's the ribosomes.
Proteins are constructed in cells according to the instructions coded into DNA. Proteins are also much easier to see than the coding of DNA molecules, so there was a time where differences between proteins were detectable and differences in DNA were not detectable. As such, the logical hypothesis is that proteins are inherited and duplicated without any other source of instructions. In fact, it is DNA that is hereditary, and the variations in proteins that were observed to be hereditary previously are now understood to be artefacts from the use of the same DNA instructions.
That organelle is called the ribosome and it is the " workbench " on which proteins are synthesized.
The capsid. Made of protein, and sometimes various types of proteins.
Ribosomes.The only organelle that make proteins is ribosomes. DNA is the genetic material that codes mRNA and proteins. mRNA binds to tRNA and enzymes in ribosomes to form peptides from the amino acids.
The chromatin in the nucleus gives the nucleus its instructions, while the nucleus itself gives directions.
The answer is nucleoli as it is RNA that transcribes, translates hereditary instructions into specific proteins.
The organelle Rough Endoplasmic Protein synthesizes proteins.
The ribosome is the organelle where the mRNA and tRNA are joined and translation occurs.
The hereditary instructions in DNA specify the sequence of amino acids that make up proteins which are the building blocks of all living things. DNA acts as an instruction manual to guide the production of proteins which are essential for the functioning of cells tissues and organs. DNA is structured in the form of a double helix with four bases - adenine thymine guanine and cytosine - that are arranged in a specific order. These four bases form base pairs which contain the instructions for the production of proteins. The sequence of these base pairs makes up genes which are the instructions for the production of a specific protein. Genes are arranged in chromosomes which are the packages of genetic material that are passed down from parents to children.