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From DNA to Protein03:06

From DNA to Protein

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The flow of genetic information in cells from DNA to mRNA to protein is described by the central dogma, which states that genes specify the sequence of mRNAs, which in turn specify the sequence of amino acids making up all proteins. The decoding of one molecule to another is performed by specific proteins and RNAs. Because the information stored in DNA is so central to cellular function, it makes intuitive sense that the cell would make mRNA copies of this information for protein synthesis...
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The central dogma explains the flow of genetic information from DNA nucleotides to the amino acid sequence of proteins.
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While every living organism has a genome of some kind (be it RNA, or DNA), there is considerable variation in the sizes of these blueprints. One major factor that impacts genome size is whether the organism is prokaryotic or eukaryotic. In prokaryotes, the genome contains little to no non-coding sequence, such that genes are tightly clustered in groups or operons sequentially along the chromosome. Conversely, the genes in eukaryotes are punctuated by long stretches of non-coding sequence.
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The evolution of new genes is critical for speciation. Exon recombination, also known as exon shuffling or domain shuffling, is an important means of new gene formation. It is observed across vertebrates, invertebrates, and in some plants such as potatoes and sunflowers. During exon recombination, exons from the same or different genes recombine and produce new exon-intron combinations, which might evolve into new genes. 
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Genetic Code Expansion: A Brief History and Perspective.

Mia A Shandell1, Zhongping Tan2, Virginia W Cornish3,4

  • 1York Structural Biology Laboratory, University of York, Heslington, York YO10 5DD, U.K.

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This summary is machine-generated.

Unnatural amino acids (UAAs) expand the protein building blocks beyond the natural 20 amino acids. This review covers UAA incorporation technologies and their applications in bioengineering and medicine.

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  • Protein engineering aims to tailor protein structure and function within native cellular environments.
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