Biological-Engineering for Beginners Biochemistry II: Proteins Leigh Casadaban and Alina Gatowski...
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![Page 1: Biological-Engineering for Beginners Biochemistry II: Proteins Leigh Casadaban and Alina Gatowski July 26, 2009.](https://reader036.fdocuments.in/reader036/viewer/2022062517/56649f2a5503460f94c44e3b/html5/thumbnails/1.jpg)
Biological-Engineering Biological-Engineering for Beginnersfor Beginners
Biochemistry II: ProteinsBiochemistry II: Proteins
Leigh Casadaban and Alina GatowskiLeigh Casadaban and Alina Gatowski
July 26, 2009July 26, 2009
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What are Proteins?What are Proteins?
What are proteins made of?What are proteins made of? Does every cell have the same Does every cell have the same
proteins? proteins?
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Structure of ProteinsStructure of Proteins
Primary Structure: Amino Acid Sequence
Secondary Structure: Alpha Helix Beta Sheet
Tertiary Structure: Hydrophobic core Disulfide bonds Salt bridges
Quaternary Structure Protein subunits form into
complex
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Structure of Amino AcidsStructure of Amino Acids
Primary Structure is Primary Structure is made of Amino Acidsmade of Amino Acids
Polypeptide Chain:Polypeptide Chain:Peptide bond is an Peptide bond is an « amide bond »« amide bond »
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Anatomy of an Amino AcidAnatomy of an Amino Acid
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Peptide Bond FormationPeptide Bond Formation
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FUN FACTFUN FACT
Essential Amino Acids need to come from the food we eat.
phenylalanine, valine, phenylalanine, valine, threonine, tryptophan, threonine, tryptophan, isoleucine, methionine, isoleucine, methionine,
leucine, and lysineleucine, and lysine
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Amino AcidsAmino Acids
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The genetic codeThe genetic code
Use the genetic code to Use the genetic code to turn mRNA nucleotides turn mRNA nucleotides to amino acidsto amino acids
Three nucleotides make Three nucleotides make up a codonup a codon
4x4x4 = 64, so why only 4x4x4 = 64, so why only 20 amino acids?20 amino acids?
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Degeneracy of the Genetic CodeDegeneracy of the Genetic Code
The genetic code has The genetic code has redundancy but no redundancy but no ambiguity ambiguity
GAA and GAG both GAA and GAG both specify glutamic acid specify glutamic acid (redundancy), neither (redundancy), neither of them specifies any of them specifies any other amino acid (no other amino acid (no ambiguity)ambiguity)
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CENTRAL DOGMACENTRAL DOGMA
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Transcription
Translation
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20 Amino Acids 20 Amino Acids
Amino acids form Amino acids form polypeptide chainspolypeptide chains
http://www.nclark.net/AminoAcids.ram
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Point MutationsPoint Mutations
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Secondary StructureSecondary Structure
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Ramachandran plotRamachandran plot
Dihedral angles Dihedral angles and and for amino acid residues in for amino acid residues in protein structureprotein structure
Shows steric hindrance Shows steric hindrance and conformationand conformation
Glycine can adopt angles Glycine can adopt angles in all four quadrantsin all four quadrants
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Alanine (R) and Glycine (L)Alanine (R) and Glycine (L)
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Tertiary StructureTertiary Structure
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1. Disulfide bonds 2. Hydrophobic
interactions 3. Hydrogen bonds4. Ionic interactions
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Quaternary StructureQuaternary Structure
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Quaternary structure refers to the association of multiple subunits.
The subunits may be identical or different
When they are different, each subunit tends to have a different function
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Primary Structure can Primary Structure can predict fold?predict fold? QuickTime™ and a
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R group functionR group function
TyrosineTyrosine PhenylalaninePhenylalanine TryptophanTryptophan
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Fun FactsFun Facts
Aspartame is used in low-calorie artificial Aspartame is used in low-calorie artificial sweeteners: Equal, NutraSweet, and Canderelsweeteners: Equal, NutraSweet, and Canderel
It is 200 times sweeter than sugar, without the It is 200 times sweeter than sugar, without the high energy value of sugarhigh energy value of sugar
Aspartame is the methyl ester of a Aspartame is the methyl ester of a phenylalanine/aspartic acid dipeptidephenylalanine/aspartic acid dipeptide
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