A cookie gobbler......also known as a cookie monster!
exons
Ribosomes translate mRNA to proteins. In eukaryotic cells, the ribosomes attached to the rough endoplasmic reticulum (RER) produce proteins that are either to become part of organelles (such as lysosomes), the plasma membrane, or secreted from the cell. The free, or soluble, ribosomes found in the cytosol produce proteins that remain in the cytosol, e.g., the enzymes involved in glycolysis.
In transcription, the mRNA strand is formed by complementary base pairing of the template DNA strand. However we should note that the nitrogenous bases in mRNA are Adenine, Guanine, Cytosine and Uracil, while those in DNA are Adenine, Guanine, Cytosine and Thymine.So the mRNA strand would be formed by matching the A in DNA with U in mRNA, T in DNA with A in mRNA, C in DNA with G in mRNA and G in DNA with C in mRNA.I hope that helps!
Proteins are translated from mRNA in ribosomes. They can either be free-floating ribosomes in the cytosol, or attached ribosomes on the rough ER.
One mRNA strand is made.
Proteins are made by protein synthesis in the cytoplasm. DNA is responsible for coding the information that will make proteins. DNA transcribe mRNA, transport it from nucleus. Ribosome and tRNA in cytosol synthesis proteins as per the message coded in the mRNA.
exons
DNA Strand: AATTGC mRNA Strand: UUAACG I don't know what the circle a nucleotide part means
DNA to mRNA is transcription, whereas mRNA to tRNA is translation. The latter part is when proteins are made from ribosomes and instructions carried over by mRNA from the DNA.
Ribosomes translate mRNA to proteins. In eukaryotic cells, the ribosomes attached to the rough endoplasmic reticulum (RER) produce proteins that are either to become part of organelles (such as lysosomes), the plasma membrane, or secreted from the cell. The free, or soluble, ribosomes found in the cytosol produce proteins that remain in the cytosol, e.g., the enzymes involved in glycolysis.
Yes, along wth mRNA & tRNA
In transcription, the mRNA strand is formed by complementary base pairing of the template DNA strand. However we should note that the nitrogenous bases in mRNA are Adenine, Guanine, Cytosine and Uracil, while those in DNA are Adenine, Guanine, Cytosine and Thymine.So the mRNA strand would be formed by matching the A in DNA with U in mRNA, T in DNA with A in mRNA, C in DNA with G in mRNA and G in DNA with C in mRNA.I hope that helps!
Proteins are translated from mRNA in ribosomes. They can either be free-floating ribosomes in the cytosol, or attached ribosomes on the rough ER.
One mRNA strand is made.
first, the RNA polymerase unwinds part of a DNA strand to open the bases so they can be coded. next, the RNA polymerase travels along the DNA strand, reading and matching the coding strand. then, the mRNA (messenager RNA) leaves the nucleus of the cell and travles to the ribosome. It attaches to the ribosome, which starts reading and matching the amino acids to the right pair. finally, the amino acids join together to form the type of protein that our body needs.
what is A maze of passageways called the blank carries protein and other materials from one part of the cell to another
Ribosomes produce proteins via translation. Three types of RNA are formed during Transcription. There is mRNA, which contains a coded message, which is the instruction on how to make the protein, tRNA, which translates the message, and rRNA, which make up most of the ribosome. When mRNA comes into the ribosome, the tRNA attaches to the codons (letters) of the mRNA. The tRNA's complements for the mRNA are called anticodons. They come together, the tRNA translates the message and brings with it an amino acid. Once that part of the message is translated, the mRNA moves through the ribosome so that it can read the next part. TRNA comes in to translate that and brings with it another amino acid, and this process continues. The amino acids bond together in a polypeptide bond, and a whole string of these bonds and amino acids (basically until the mRNA runs out of its message) makes that lovely protein!
Ribosomes produce proteins via translation. Three types of RNA are formed during Transcription. There is mRNA, which contains a coded message, which is the instruction on how to make the protein, tRNA, which translates the message, and rRNA, which make up most of the ribosome. When mRNA comes into the ribosome, the tRNA attaches to the codons (letters) of the mRNA. The tRNA's complements for the mRNA are called anticodons. They come together, the tRNA translates the message and brings with it an amino acid. Once that part of the message is translated, the mRNA moves through the ribosome so that it can read the next part. TRNA comes in to translate that and brings with it another amino acid, and this process continues. The amino acids bond together in a polypeptide bond, and a whole string of these bonds and amino acids (basically until the mRNA runs out of its message) makes that lovely protein!