left
process of synthesizing proteins with mRNA and ribosomes
1. tRNA
2. Ribosomes
3. Translation
4. Activator enzyme
5. Polysome
3. translation
mRNA CAU
1. P site
2. A site
3. tRNA GUA
4. tRNA CGU
5. tRNA
3. tRNA GUA
Ribosome slides down to the next ___________ with each new amino acid-tRNA
1. ATP
2. N-formyl methionine
3. Polypeptide
4. Codon
5. Irreducible complexity
4. Codon
partially double stranded
1. tRNA
2. Ribosomes
3. Translation
4. Activator enzyme
5. Polysome
1. tRNA
mRNA GCA
1. P site
2. A site
3. tRNA GUA
4. tRNA CGU
5. tRNA
4. tRNA CGU
chain of amino acids
1. ATP
2. N-formyl methionine
3. Polypeptide
4. Codon
5. Irreducible complexity
3. Polypeptide
attach to mRNA when it leaves the nucleus
1. tRNA
2. Ribosomes
3. Translation
4. Activator enzyme
5. Polysome
2. ribosomes
where first amino acid-tRNA combination attaches
1. P site
2. A site
3. tRNA GUA
4. tRNA CGU
5. tRNA
2. A site
First amino acid placed in a protein
1. ATP
2. N-formyl methionine
3. Polypeptide
4. Codon
5. Irreducible complexity
2. N-formyl methionine
attaches an amino acid to its appropriate tRNA
1. tRNA
2. Ribosomes
3. Translation
4. Activator enzyme
5. Polysome
4. activator enzyme
where first amino acid-tRNA moves to when the second one attaches to the ribosome
1. P site
2. A site
3. tRNA GUA
4. tRNA CGU
5. tRNA
1. P site
The interaction between nucleic acids and proteins
1. ATP
2. N-formyl methionine
3. Polypeptide
4. Codon
5. Irreducible complexity
5. Irreducible complexity
many ribosomes attached to the same mRNA
1. tRNA
2. Ribosomes
3. Translation
4. Activator enzyme
5. Polysome
5. polysome
where amino acids are first attached
1. P site
2. A site
3. tRNA GUA
4. tRNA CGU
5. tRNA
5. tRNA
Supplies energy to attach amino acids to each other
1. ATP
2. N-formyl methionine
3. Polypeptide
4. Codon
5. Irreducible complexity
1. ATP