Lecture 10 (10/4/17) Lecture 10 (10/4/17)

Similar documents
Protein Structure and Function. Protein Architecture:

Announcements. Primary (1 ) Structure. Lecture 7 & 8: PROTEIN ARCHITECTURE IV: Tertiary and Quaternary Structure

Major Types of Association of Proteins with Cell Membranes. From Alberts et al

The Structure of Enzymes!

The Structure of Enzymes!

From Amino Acids to Proteins - in 4 Easy Steps

BIRKBECK COLLEGE (University of London)

Introduction to Protein Folding

BIOCHEMISTRY Unit 2 Part 4 ACTIVITY #6 (Chapter 5) PROTEINS

Peptides And Proteins

Advanced Certificate in Principles in Protein Structure. You will be given a start time with your exam instructions

Protein Structure Basics

Protein Structure. Role of (bio)informatics in drug discovery. Bioinformatics

Dana Alsulaibi. Jaleel G.Sweis. Mamoon Ahram

Model Mélange. Physical Models of Peptides and Proteins

Physiochemical Properties of Residues

THE UNIVERSITY OF MANITOBA. PAPER NO: 409 LOCATION: Fr. Kennedy Gold Gym PAGE NO: 1 of 6 DEPARTMENT & COURSE NO: CHEM 4630 TIME: 3 HOURS

Problem Set 1

Exam I Answer Key: Summer 2006, Semester C

Biochemistry: Concepts and Connections

Protein Structure. W. M. Grogan, Ph.D. OBJECTIVES

Introduction to" Protein Structure

Biochemistry Quiz Review 1I. 1. Of the 20 standard amino acids, only is not optically active. The reason is that its side chain.

What binds to Hb in addition to O 2?

Read more about Pauling and more scientists at: Profiles in Science, The National Library of Medicine, profiles.nlm.nih.gov

Packing of Secondary Structures

Outline. Levels of Protein Structure. Primary (1 ) Structure. Lecture 6:Protein Architecture II: Secondary Structure or From peptides to proteins

BCH 4053 Spring 2003 Chapter 6 Lecture Notes

CHEM 463: Advanced Inorganic Chemistry Modeling Metalloproteins for Structural Analysis

Central Dogma. modifications genome transcriptome proteome

AP Biology. Proteins. AP Biology. Proteins. Multipurpose molecules

Biomolecules: lecture 10

Secondary Structure. Bioch/BIMS 503 Lecture 2. Structure and Function of Proteins. Further Reading. Φ, Ψ angles alone determine protein structure

Introduction to Comparative Protein Modeling. Chapter 4 Part I

Proteins. Division Ave. High School Ms. Foglia AP Biology. Proteins. Proteins. Multipurpose molecules

1. What is an ångstrom unit, and why is it used to describe molecular structures?

Protein Structure. Hierarchy of Protein Structure. Tertiary structure. independently stable structural unit. includes disulfide bonds

LS1a Fall 2014 Problem Set #2 Due Monday 10/6 at 6 pm in the drop boxes on the Science Center 2 nd Floor

Part II => PROTEINS and ENZYMES. 2.3 PROTEIN STRUCTURE 2.3a Secondary Structure 2.3b Tertiary Structure 2.3c Quaternary Structure

Outline. Levels of Protein Structure. Primary (1 ) Structure. Lecture 6:Protein Architecture II: Secondary Structure or From peptides to proteins

DATE A DAtabase of TIM Barrel Enzymes

D Dobbs ISU - BCB 444/544X 1

Basic Principles of Protein Structures

Section Week 3. Junaid Malek, M.D.

The Structure and Functions of Proteins

Details of Protein Structure

Tamer Barakat. Razi Kittaneh. Mohammed Bio. Diala Abu-Hassan

Dental Biochemistry Exam The total number of unique tripeptides that can be produced using all of the common 20 amino acids is

Overview. The peptide bond. Page 1

Supersecondary Structures (structural motifs)

Basic structures of proteins

4 Proteins: Structure, Function, Folding W. H. Freeman and Company

Biochemistry Prof. S. DasGupta Department of Chemistry Indian Institute of Technology Kharagpur. Lecture - 06 Protein Structure IV

B. β Structure. All contents of this document, unless otherwise noted, are David C. & Jane S. Richardson. All Rights Reserved.

BCH 4053 Exam I Review Spring 2017

Giri Narasimhan. CAP 5510: Introduction to Bioinformatics. ECS 254; Phone: x3748

CAP 5510: Introduction to Bioinformatics CGS 5166: Bioinformatics Tools. Giri Narasimhan

Secondary and sidechain structures

Ch 3: Chemistry of Life. Chemistry Water Macromolecules Enzymes

Properties of amino acids in proteins

Protein Structure Bioinformatics Introduction

CHAPTER 29 HW: AMINO ACIDS + PROTEINS

D. Antiparallel β Domains

Chapter 9 DNA recognition by eukaryotic transcription factors

Chemistry Chapter 22

Protein structure (and biomolecular structure more generally) CS/CME/BioE/Biophys/BMI 279 Sept. 28 and Oct. 3, 2017 Ron Dror

7.88J Protein Folding Problem Fall 2007

Protein Structure & Motifs

B. Implications for Protein Evolution

Denaturation and renaturation of proteins

Basics of protein structure

Molecular Structure Prediction by Global Optimization

MCB65. Physical Biochemistry: Understanding Macromolecular Machines. Rachelle Gaudet Martin Samuels MCB 65 1/25/16 1

Protein structure. Protein structure. Amino acid residue. Cell communication channel. Bioinformatics Methods

B O C 4 H 2 O O. NOTE: The reaction proceeds with a carbonium ion stabilized on the C 1 of sugar A.

Amino Acids: General Properties

Lecture 2 and 3: Review of forces (ctd.) and elementary statistical mechanics. Contributions to protein stability

What is the central dogma of biology?

Student Questions and Answers October 8, 2002

Protein Dynamics. The space-filling structures of myoglobin and hemoglobin show that there are no pathways for O 2 to reach the heme iron.

Lecture 26: Polymers: DNA Packing and Protein folding 26.1 Problem Set 4 due today. Reading for Lectures 22 24: PKT Chapter 8 [ ].

AP Biology Unit 1, Chapters 2, 3, 4, 5

THE UNIVERSITY OF MANITOBA. PAPER NO: _1_ LOCATION: 173 Robert Schultz Theatre PAGE NO: 1 of 5 DEPARTMENT & COURSE NO: CHEM / MBIO 2770 TIME: 1 HOUR

PROTEIN STRUCTURE AMINO ACIDS H R. Zwitterion (dipolar ion) CO 2 H. PEPTIDES Formal reactions showing formation of peptide bond by dehydration:

Supporting information to: Time-resolved observation of protein allosteric communication. Sebastian Buchenberg, Florian Sittel and Gerhard Stock 1

Papers listed: Cell2. This weeks papers. Chapt 4. Protein structure and function. The importance of proteins

Biological Macromolecules

Examples of Protein Modeling. Protein Modeling. Primary Structure. Protein Structure Description. Protein Sequence Sources. Importing Sequences to MOE

Membrane Proteins: 1. Integral proteins: 2. Peripheral proteins: 3. Amphitropic proteins:

What makes a good graphene-binding peptide? Adsorption of amino acids and peptides at aqueous graphene interfaces: Electronic Supplementary

Heteropolymer. Mostly in regular secondary structure

Viewing and Analyzing Proteins, Ligands and their Complexes 2

Final Chem 4511/6501 Spring 2011 May 5, 2011 b Name

Structure and evolution of the spliceosomal peptidyl-prolyl cistrans isomerase Cwc27

Charged amino acids (side-chains)

1. Amino Acids and Peptides Structures and Properties

Using Higher Calculus to Study Biologically Important Molecules Julie C. Mitchell

Supplementary Figure 3 a. Structural comparison between the two determined structures for the IL 23:MA12 complex. The overall RMSD between the two

Computer design of idealized -motifs

THE TANGO ALGORITHM: SECONDARY STRUCTURE PROPENSITIES, STATISTICAL MECHANICS APPROXIMATION

Transcription:

Lecture 10 (10/4/17) Reading: Ch4; 125, 138-141, 141-142 Problems: Ch4 (text); 7, 9, 11 Ch4 (study guide); 1, 2 NEXT Reading: Ch4; 125, 132-136 (structure determination) Ch4; 12-130 (Collagen) Problems: Ch4 (text); 10, 15 (may add some more on website) Lecture 10 (10/4/17) OUTLINE I. Protein Structure A. Tertiary 1. Depiction; the Protein Database 2. Examples of Types 3. Domains 4. Intrinsically unstructured 5. Energetics B. Quaternary 1. Nomenclature 2. Energetics 1

Tertiary Structure Bovine Carboxypeptidase A Carboxypeptidase A PDBid 3CPA 2

Picturing protein structure Space-fill Backbone trace Ribbon Triose-phosphate Isomerase (TIM) 5 Picturing protein structure Ribbon Surface Ribbon with Spacecontour side-chains filling Sperm-whale Myoglobin (Mb) 3

Protein Classification: α, β, or α/β Cytochrome b562 PDBid 256B Human immunoglobulin fragment PDBid 7FAB Dogfish lactate dehydrogenase PDBid 6LDH Protein Classification: α Cytochrome b562 PDBid 256B Growth hormone 4

Protein Classification: α Protein Classification: β Human immunoglobulin fragment PDBid 7FAB Immunoglobulin-fold 5

Protein Classification: α/β Flavodoxin Can you find the Rossmann Fold? Protein Classification: α/β Flavodoxin Can you find the Rossmann Fold? 6

Protein Topology: 8- Stranded β Barrels Human retinol binding protein PDBid 1RBP Peptide-N 4 -(N-acetyl-b-D-glucosaminyl) asparagine amidase PDBid 1PNG Triose phosphate isomerase PDBid 1TIM Protein Topology: 8- Stranded β Barrels Human retinol binding protein PDBid 1RBP b-meander 7

Protein Topology: 8- Stranded β Barrels Peptide-N 4 -(N-acetyl-b-D-glucosaminyl) asparagine amidase PDBid 1PNG Greek key (4-5-6-7) Protein Topology: 8- Stranded β Barrels Triose phosphate isomerase PDBid 1TIM a/b-barrel 8

Protein Topology: 8- Stranded β Barrels a/b-barrels 17 Protein Domains Domains: Separate folded structures with hinge all with one polypeptide chain g-b Crystallin Hinge region 9

Protein Domains 6 5 4 1 2 3 Dogfish lactate dehydrogenase PDBid 6LDH a/b-saddle & Rossmann Fold (b-a-b-a-b) Protein Domains 2-Domain Protein : GAPDH Hinge region Glyceraldehyde-3-phosphate dehydrogenase PDBid 1GD1 a/b-saddle & Rossmann Fold (b-a-b-a-b) 10

Intrinsically Disordered Proteins: Tachystatin Unstructured domains: Part of primary structure without any defined conformation, changeable, dynamic, several possible structures depending on binding partners in cells Tachystatin 21 Intrinsically Disordered Proteins: p53 C N N E3 ubiquitin-protein ligase Mdm2 22 11

Intrinsically Disordered Proteins: p53 C N N E3 ubiquitin-protein ligase Mdm2 23 Intrinsically Disordered Proteins: p53 12

Intrinsically Disordered Proteins: CREB CREB (camp response element-binding protein) Kinase-inducible domain of CREB PDBid 1KDX 3 structure is a collection of 2 structures in motifs and/or domains Sum of weak interactions 3 structure held together with side-chain interactions lysozyme Hydrophobic effect Salt bridges Hydrogen bonds Dispersion forces Disulfide bonds 13

Hydrophobic effect drives protein folding Globular proteins a hydrophobic core and a hydrophilic surface 28 14

Problem Which residue would be more likely to be? 1. On a protein s surface: Trp or Gln 2. In the protein interior: Ser or Val 3. In the middle of an alpha-helix: Gly or Leu 4. In a beta-sheet: His or Pro 29 Quaternary Structure 15

Protein Structure-Quaternary homo trimer a 3 a 4 a 2 b 2 a 2 b 2 g 2 hetero tetramer homo tetramer hetero hexamer Multiple subunits held together by primarily noncovalent interactions Nomenclature: homo vs. hetero subunits indicated with Greek letters (a (1 st ), b (2 nd ), g (3 rd ), etc. 31 Protein Structure-Quaternary Same weak interactions determine 4 structure Hydrophobic effect Hydrogen bonds Salt bridges Dispersion forces 16

4 structure held together with side-chain interactions Sum of weak interactions Ferredoxin (Fd) Protein Structure-Quaternary Phytochromobilin synthase (HY2) Intermolecular salt bridges formed by conserved, charged residues stabilize HY2-Fd interaction. HY2-bound substrate and the iron-sulfur cluster on AtFd2 are shown in stick representation. Important charged residues in AtFd2-HY2 binding interface are viewed from the top of Fd side of the docking complex. Residues identified in this study are shown in stick representation with blue (HY2) and brown (AtFd2) carbon atoms. Red circles indicate the salt bridges in-between two proteins. Hydrophobic effect Hydrogen bonds Salt bridges Dispersion forces Protein Structure-Summary 34 17

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback