Search

15.5: Translation

https://bio.libretexts.org/Bookshelves/Introductory_and_General_Biology/Principles_of_Biology/02%3A_Chapter_2/15%3A_Protein_Synthesis/15.05%3A_Translation

Each mRNA molecule can be simultaneously translated by many ribosomes, all synthesizing protein in the same direction: reading the mRNA from 5′ to 3′ and synthesizing the polypeptide from the N termin...Each mRNA molecule can be simultaneously translated by many ribosomes, all synthesizing protein in the same direction: reading the mRNA from 5′ to 3′ and synthesizing the polypeptide from the N terminus to the C terminus (refer to Figure

$\PageIndex{1}$ – the N terminus is the end of the amino acid with the Nitrogen; the C terminus is the end with the Carbon).

15.5: Ribosomes and Protein Synthesis

https://bio.libretexts.org/Bookshelves/Introductory_and_General_Biology/General_Biology_1e_(OpenStax)/3%3A_Genetics/15%3A_Genes_and_Proteins/15.5%3A_Ribosomes_and_Protein_Synthesis

The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), an...The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), and proteins perform virtually every function of a cell. The process of translation, or protein synthesis, involves the decoding of an mRNA message into a polypeptide product. Amino acids are covalently bonded by interlinking peptide bonds in lengths ranging from ~50 amino acid residues to >1,000.

15.6: The Structure of tRNA and Ribosomes

https://bio.libretexts.org/Bookshelves/Introductory_and_General_Biology/Map%3A_Raven_Biology_12th_Edition/15%3A_Genes_and_How_They_Work/15.06%3A_The_Structure_of_tRNA_and_Ribosomes

The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), an...The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), and proteins perform virtually every function of a cell. The process of translation, or protein synthesis, involves the decoding of an mRNA message into a polypeptide product. Amino acids are covalently bonded by interlinking peptide bonds in lengths ranging from ~50 amino acid residues to >1,000.

3.5.6: Ribosomes and Protein Synthesis

https://bio.libretexts.org/Workbench/BIOL_190%3A_General_Biology_(OpenStax)/03%3A_Unit_III-_Genetics/3.05%3A_Genes_and_Proteins/3.5.06%3A_Ribosomes_and_Protein_Synthesis

The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), an...The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), and proteins perform virtually every function of a cell. The process of translation, or protein synthesis, involves the decoding of an mRNA message into a polypeptide product. Amino acids are covalently bonded by interlinking peptide bonds in lengths ranging from ~50 amino acid residues to >1,000.

3.5.6: Ribosomes and Protein Synthesis

https://bio.libretexts.org/Workbench/General_Biology_I_and_II/03%3A_Unit_III-_Genetics/3.05%3A_Gene_Expression/3.5.06%3A_Ribosomes_and_Protein_Synthesis

The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), an...The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), and proteins perform virtually every function of a cell. The process of translation, or protein synthesis, involves the decoding of an mRNA message into a polypeptide product. Amino acids are covalently bonded by interlinking peptide bonds in lengths ranging from ~50 amino acid residues to >1,000.

15.6: Ribosomes and Protein Synthesis

https://bio.libretexts.org/Courses/Norco_College/OpenStax_Biology_2e_for_Norco_College/15%3A_Genes_and_Proteins/15.06%3A_Ribosomes_and_Protein_Synthesis

The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), an...The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), and proteins perform virtually every function of a cell. The process of translation, or protein synthesis, involves the decoding of an mRNA message into a polypeptide product. Amino acids are covalently bonded by interlinking peptide bonds in lengths ranging from ~50 amino acid residues to >1,000.

10.6: Prokaryotic Translation

https://bio.libretexts.org/Bookshelves/Cell_and_Molecular_Biology/Book%3A_Cells_-_Molecules_and_Mechanisms_(Wong)/10%3A_Translation/10.06%3A_Prokaryotic_Translation

As soon as the RNA has emerged from the RNAP and there is sufficient space to accommodate a ribosome, translation can begin in prokaryotes. In fact, for highly expressed genes, it would not be unusual...As soon as the RNA has emerged from the RNAP and there is sufficient space to accommodate a ribosome, translation can begin in prokaryotes. In fact, for highly expressed genes, it would not be unusual to see multiple RNA polymerases transcribing the DNA and multiple ribosomes on each of the transcripts translating the mRNA to protein!

26.2: Protein Synthesis

https://bio.libretexts.org/Bookshelves/Biochemistry/Fundamentals_of_Biochemistry_(Jakubowski_and_Flatt)/03%3A_Unit_III-_Information_Pathway/26%3A_Protein_Metabolism/26.02%3A_Protein_Synthesis

The page provides an in-depth overview of the translation process in both prokaryotic and eukaryotic cells. Key learning goals include understanding the central role of translation in gene expression,...The page provides an in-depth overview of the translation process in both prokaryotic and eukaryotic cells. Key learning goals include understanding the central role of translation in gene expression, comprehending the molecular machinery involved, outlining the stages of translation (initiation, elongation, termination), analyzing the energetics and fidelity of protein synthesis, and comparing the translation mechanisms in prokaryotes and eukaryotes.

20.2: Basics of Translation

https://bio.libretexts.org/Workbench/Bio_11A_-_Introduction_to_Biology_I/20%3A_Translation/20.02%3A_Basics_of_Translation

Each mRNA molecule can be simultaneously translated by many ribosomes, all synthesizing protein in the same direction: reading the mRNA from 5′ to 3′ and synthesizing the polypeptide from the N termin...Each mRNA molecule can be simultaneously translated by many ribosomes, all synthesizing protein in the same direction: reading the mRNA from 5′ to 3′ and synthesizing the polypeptide from the N terminus to the C terminus (refer to Figure

$\PageIndex{1}$ – the N terminus is the end of the amino acid with the Nitrogen; the C terminus is the end with the Carbon).

14.6: Ribosomes and Protein Synthesis

https://bio.libretexts.org/Courses/Reedley_College/Biology_for_Science_Majors_I/14%3A_Genes_and_Proteins/14.06%3A_Ribosomes_and_Protein_Synthesis

The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), an...The synthesis of proteins consumes more of a cell’s energy than any other metabolic process. In turn, proteins account for more mass than any other component of living organisms (other than water), and proteins perform virtually every function of a cell. The process of translation, or protein synthesis, involves the decoding of an mRNA message into a polypeptide product. Amino acids are covalently bonded by interlinking peptide bonds in lengths ranging from ~50 amino acid residues to >1,000.

7.5: Translation

https://bio.libretexts.org/Workbench/Modern_Genetics/07%3A_Molecular_Genetics_I_-_Molecular_Biology_of_Gene_Expression/7.05%3A_Translation

Each mRNA molecule can be simultaneously translated by many ribosomes, all synthesizing protein in the same direction: reading the mRNA from 5′ to 3′ and synthesizing the polypeptide from the N termin...Each mRNA molecule can be simultaneously translated by many ribosomes, all synthesizing protein in the same direction: reading the mRNA from 5′ to 3′ and synthesizing the polypeptide from the N terminus to the C terminus (refer to Figure

$\PageIndex{1}$ – the N terminus is the end of the amino acid with the Nitrogen; the C terminus is the end with the Carbon).

Search

Text Color

Text Size

Margin Size

Font Type

Support Center

How can we help?