安徽师范大学：《生物化学》课程教学课件（讲稿）Chapter 3 Proteins

Chapter 3 ProteinsOutlineClassification of proteinsThe basic building blocks of proteinsAmino acidsStructure of proteinsStructure and function relationships of proteinsProperties of proteinsSeparation, purification and determination ofproteins

Chapter 3 Proteins Outline u Classification of proteins u The basic building blocks of proteins—Amino acids u Structure of proteins u Structure and function relationships of proteins u Properties of proteins u Separation, purification and determination of proteins

What are proteins?Proteins are macromolecules composedof amino acids linked together throughpeptide bonds, which have a stableconformation and a certain biologicalfunction.Proteins are linear polymers聚合物 builtof monomer单体 units called amino acids

What are proteins? Proteins are macromolecules composed of amino acids linked together through peptide bonds, which have a stable conformation and a certain biological function. Proteins are linear polymers聚合物 built of monomer单体 units called amino acids

Section 1Classification of proteins1. Chemical Components of ProteinsSMajor elements: C, H, O, N.Trace elements: P, Fe, Cu, Zn, Mo, I, ..The average nitrogen content in proteins is about16%, and proteins are the major source of N inbiological systems

Section 1 Classification of proteins 1. Chemical Components of Proteins uMajor elements: C, H, O, N, S uTrace elements: P, Fe, Cu, Zn, Mo, I, . u The average nitrogen content in proteins is about 16%, and proteins are the major source of N in biological systems

Section 1Classification of proteins1. Chemical Components of ProteinsThe protein quantity can be estimated---Kjeldahldetermination（凯氏定氮法）protein in 100g sample = N per gram X 6.25 X 100

Section 1 Classification of proteins 1. Chemical Components of Proteins uThe protein quantity can be estimated-Kjeldahl determination（凯氏定氮法） uprotein in 100g sample = N per gram × 6.25 × 100

2. Protein ClassificationClassification based on the overall shape1（球状蛋白质）：Globularproteinglobular or ellipsoidal (long/short <1O), soluble inwater; including enzymes, transportors, receptorsregulators, .（纤维状蛋白质）：Fibrous proteinhighly elongated; insoluble in water; includingcollagen（胶原蛋白），elastin（弹性蛋白），α-keratin（α-角蛋白）

2. Protein Classification uClassification based on the overall shape Globular protein（球状蛋白质）: globular or ellipsoidal (long/short <10), soluble in water; including enzymes, transportors, receptors, regulators, . Fibrous protein（纤维状蛋白质）: highly elongated; insoluble in water; including collagen（胶原蛋白）, elastin（弹性蛋白）, α- keratin（α-角蛋白）,

Classification based on chemical compositionsSimpleprotein（简单蛋白质）：made up of amino acids completely, without non-protein componentsConjugatedprotein（缀合蛋白质）：conjugated protein = apoprotein + prosthetic groups（辅基）is non-protein part,Prostheticgroupbinding to protein by covalent bond. This group canbe carbohydrates, lipids, nucleic acids, phosphates,pigments（色素），or metalions

uClassification based on chemical compositions Simple protein（简单蛋白质）: made up of amino acids completely, without non- protein components Conjugated protein（缀合蛋白质）: conjugated protein = apoprotein + prosthetic groups Prosthetic group （辅基）is non-protein part, binding to protein by covalent bond. This group can be carbohydrates, lipids, nucleic acids, phosphates, pigments（色素）, or metal ions

Category of conjugated proteinsExample（举例）Category（类别）Prostheticgroup（辅基）Nucleoproteinnucleic acidsChromosome,ribosome（核蛋白）GlycoproteinImmunoglobulin （Ig)carbohydrates(糖蛋白)LipoproteinlipidsHigh-density lipoprotein（脂蛋白）PhosphoproteinCasein（酪蛋白）phosphates（磷蛋白）ChromoproteinHemoglobin（血红蛋白Hb）pigments（色蛋白）Ferritin（铁蛋白）：Metalloproteinmetal ions（金属蛋白）calmodulin（钙调蛋白）

Category of conjugated proteins Category（类别）Prosthetic group （辅基） Example（举例） Nucleoprotein （核蛋白） nucleic acids Chromosome, ribosome Glycoprotein （糖蛋白） carbohydrates Immunoglobulin（Ig） Lipoprotein （脂蛋白） lipids High-density lipoprotein Phosphoprotein （磷蛋白） phosphates Casein（酪蛋白） Chromoprotein （色蛋白） pigments Hemoglobin（血红蛋白Hb） Metalloprotein （金属蛋白） metal ions Ferritin（铁蛋白）, calmodulin（钙调蛋白）

Classification based on biological functionsEnzymes-Ribonuclease（核糖核酸酶）Regulatory proteins - Insulin and growth hormoneStorage proteins-ovalbumin（卵清蛋白）Defensive and protective proteins -Antibody, toxin （毒素)Transport protein - HemoglobinStructural proteins - a-keratin, CollagenContractileproteins一Actin（肌动蛋白），Myosin（肌球蛋白

uClassification based on biological functions C Enzymes – Ribonuclease（核糖核酸酶） C Regulatory proteins – Insulin and growth hormone C Storage proteins – ovalbumin（卵清蛋白） C Defensive and protective proteins – Antibody, toxin（毒素） C Transport protein – Hemoglobin C Structural proteins – α-keratin, Collagen C Contractile proteins – Actin（肌动蛋白）, Myosin（肌球蛋白）

Section 2Protein architecture Amino acids1. General structure of common amino acid (AA)The basic building blocks of proteinsAbout 300 types of AAs in nature, but only 20 types areused for protein synthesis in biological systems.A typical a-amino acid has an amino group, a carboxylgroup, a hydrogen atom and a side-chain (R group)attached to the same carbon atom (Ca)

Section 2 Protein architecture — Amino acids 1. General structure of common amino acid (AA) uThe basic building blocks of proteins uAbout 300 types of AAs in nature, but only 20 types are used for protein synthesis in biological systems. uA typical α-amino acid has an amino group, a carboxyl group, a hydrogen atom and a side-chain (R group) attached to the same carbon atom (Cα )

LH101CarboxylAminoiH,Ni— Cα—iC -OHgroupgroupRDifferent side-chain (Rgroup)Different chemical and physical properties

Different side-chain (R group) Different chemical and physical properties Amino group Carboxyl group