Proteins Detailed

All Protein concepts covered

What you'll learn

Introduction of Proteins

Classification of protein

Simple protein

Conjugated protein

derived protein

Globular protein

Prolamins

Glutelin

Histones

Protamins and Globin

Sclerio proteins

Elastins

Collegens

Keratin

Cojugated protein

Chromo protein

Glyco protein

Phspho protein

Metallo protein

Lypo protein

Derived protein

Primary derived protein

secondary derived protein

Proteoses

Peptones

Polypeptides

Simple Peptides

Amino acids

Protein Structure Inro

Primary structure

Secondary Structure

Alpha and Helixa Structure

Beta Structure

Territory Structure of proteins

Quaternary Structure

Applications

Protein Functions

Requirements

All Life science students can easily learn

Description
What is protein?Protein is a nitrogenous substance that occurs in the protoplasm of all animal and plant cells. Proteins can be broken down into smaller and smaller fragments until the amino acids are obtained. The composition and function of protein vary with the sources and structure of protein molecules. It contains mainly carbon, hydrogen, oxygen, nitrogen, and sulfur atom in its structure. Other elements such as phosphorus or iron are present in nucleoprotein and hemoglobin. It is classified into two groups, fibrous and globular proteins.In a common method of classification, proteins are classified into three groups simple, conjugated, and derived protein. Each group of proteins has several classes designated by their general names. Proteins are hydrolyzed by acids, alkalies, or enzymes to give a mixture of amino acids. It suggests that amino acids in proteins are joined in sequences by peptide linkages.Classification of proteinSeveral arbitrary classifications are used for dividing protein on their shape. Most commonly, proteins are classified into three groups,· Simple· Conjugated· Derived proteinEach group is subdivided into a number of classes designated by their general names. Each class contains a number of sub-classes which has different physical and chemical properties.Simple proteinThey give only amino acids or their derivatives on hydrolysis. Simple proteins are classified into several classes such as albumin, globulin, prolamin, glutelin, and scleroprotein.AlbuminsAlbumins are simple proteins that are soluble in water and coagulated by heat. It is precipitated by the solutions of ammonium sulfate. Some common examples of albumins are egg albumin, serum albumin, and lactalbumin.GlobulinsGlobulins are proteins that are insoluble in water but soluble in dilute salts solution and inorganic acids and alkalies. It is coagulated by heat and half saturated by ammonium sulfate solutions. Globulins are usually contained glycine. Some typical examples of globulins are serum globulin, tissue globulin, and vegetable globulin.ProlaminsProlamins are a group of plant storage proteins that are insoluble in water or salt solution but soluble in dilute acids or alkalis. It contains large amounts of proline. Prolamins are found mainly in plant seeds such as wheat, barley, rye, corn, sorghum, oats, etc.GlutelinsGlutelins are a class of propain prolamin proteins insoluble in water and dilute salt solution but soluble in dilute acid or alkalies. They are found in the endosperm of certain seeds. Arginine, proline, and glutamic acid are the main components of glutelins. It is found mainly in wheat (glutenin) or rice (oyrzenin).HistonesHistones are a highly basic class of proteins soluble in water but insoluble in dilute ammonia solution. They are not coagulated by heat and contain large amounts of histidine and arginine. They are hydrolyzed by pepsin and trypsin. Histones are found in eukaryotic cell nuclei. Histones are the proteins of DNA and hemoglobin. They play an important role in gene regulation and DNA replication.ProtaminesProlamins are more basic than histones with a simple structure. They are collectively known as sperm-specific nuclear basic proteins. Prolamins are soluble in water, dilute acids and dilute ammonia. They are coagulated by heat and precipitated by ethanol solution. The arginine-rich proteins prolamins are found in various nucleic acids. They are hydrolyzed by various enzymes like trypsin and papain.GlobinsGlobins are heme-containing globular proteins that bind or transport oxygen to the cells. Myoglobin and hemoglobin are the two important members of globins.Conjugated proteinConjugated proteins contain a non-protein group or compound containing amino acid residues attached to a protein part. The non-protein group is called the prosthetic group. Conjugated protein can be separated from the protein parts by careful hydrolysis. According to the prosthetic group, conjugated proteins are the following types,· Nucleoproteins· Chromoproteins· Glycoproteins· Phosphoproteins· Lipoproteins· MetalloproteinsNucleoproteins: These are the conjugated proteins that contain nucleic acid as a prosthetic group.Chromoproteins: These are characterized by their color prosthetic group. Chlorophyll and hemoglobin are the most common examples of chromoproteins.Glycoproteins: Glycoproteins contains carbohydrate or derivative of carbohydrates as a prosthetic group.Phosphoproteins: These are conjugated proteins in which the prosthetic group contains a phosphate group or a complex molecule such as 5′-phospho-DNA.Lipoproteins: The prosthetic group in lipoproteins is lecithin, kephalin, etc.Metalloproteins: These contain a metal that is an integral part of the structure. Many metals such as iron, manganese, copper, and magnesium formed metalloproteins. For example, hemoglobin and chlorophyll contain iron and magnesium metal.Derived proteinsDerived proteins are degradation products obtained by the action of acids, alkalies, and enzymes on protein. These are classified into two types such as primary and secondary. Primary proteins are insoluble in water but soluble in acids and alkalis. Secondary proteins are soluble in water and coagulated by heat.Structure of proteinThe function of a protein is highly dependent on its three-dimensional structure. When protein is hydrolyzed by acids, alkalis, or enzymes to give a mixture of amino acids. Therefore, a three-dimensional structure of a protein is the polymers of polypeptides formed by sequences of amino acids.There are four distinct parts of the protein that have primary, secondary, tertiary, and quaternary structures.and more explanation in video content.Introduction of ProteinsClassification of proteinSimple proteinConjugated proteinderived proteinGloblur proteinProlaminsGlutalinsHistonesProtamins and GlobinsSclerio proteinsElastinsCollegensKeratinConjugated proteinChromo proteinGlyco proteinPhspho proteinMetallo proteinLippo proteinDerived proteinPrimary derived proteinsecondary derived proteinProteosesPeptonesPolypeptidesSimple PeptidesAmino acidsTypes of Protein StructuresProtein FunctionsApplications
Overview

Section 1: Introduction

Lecture 1 Introduction

Lecture 2 Classification of protein

Lecture 3 Simple protein

Lecture 4 Conjugated protein

Lecture 5 derived protein

Lecture 6 Globlur protein

Lecture 7 Prolamins

Lecture 8 Glutalins

Lecture 9 Histones

Lecture 10 Protamins and Globins

Lecture 11 Sclerio proteins

Lecture 12 Collegens

Lecture 13 Keratin

Lecture 14 Conjugated protein

Lecture 15 Chromo protein

Lecture 16 Glyco protein

Lecture 17 Metallo protein

Lecture 18 Lypo protein

Lecture 19 Derived protein

Lecture 20 Primary derived protein

Lecture 21 Meta Proteins

Lecture 22 Proteoses

Lecture 23 Peptones

Lecture 24 Polypeptides

Lecture 25 Simple Peptides

Lecture 26 Amino acids

Lecture 27 Protein Structure Inro

Lecture 28 Primary structure

Lecture 29 Secondary Structure

Lecture 30 Alpha and Helixa Structure

Lecture 31 Continues of previous

Lecture 32 Beta Structure

Lecture 33 Territory Structure of proteins

Lecture 34 Quaternary Structure

Lecture 35 Continues

Lecture 36 Applications

Lecture 37 Protein Functions

All life science students