Glycerol 3-phosphate Cytidylyltransferase Ashley Mericle.

Slides:

Advertisements

Similar presentations

Microbial Genetics Chapter 8. Structure and Function of Genetic Material w DNA & RNA w DNA deoxyribonucleic acid w RNA ribonucleic acid w Nucleotides.

Advertisements

Chapter 8 Microbial Genetics Biology 1009 Microbiology Johnson-Summer 2003.

Protein Structure 2 Higher Order Protein Structures.

Structure Contains a seven stranded beta sheet Seven alpha helices surround beta sheet.

Fundamentals of Protein Structure August, 2006 Tokyo University of Science Tadashi Ando.

Today Lecture about kinases Formation of project groups Discussion about project content.

BY1101 Introduction to Molecular and Cellular Biology Tutorial for module BY1101: Proteins and nucleic acids Joe Colgan

Alpha/Beta structures Barrels, sheets and horseshoes.

19.6 Primary Structure The primary structure of a protein is the sequence of amino acids in the peptide chain Protein backbone Ala-Leu-Cys-Met.

Unit 2, Lesson 3 – DNA and Proteins

©CMBI 2006 Amino Acids “ When you understand the amino acids, you understand everything ”

10-2: RNA and 10-3: Protein Synthesis

Protein Structure.

(Foundation Block) Dr. Ahmed Mujamammi Dr. Sumbul Fatma

Proteins. The central role of proteins in the chemistry of life Proteins have a variety of functions. Structural proteins make up the physical structure.

Chapter 3 Protein Structure and Function. Key Concepts Most cell functions depend on proteins. Amino acids are the building blocks of proteins. Amino.

 Phospholipid bilayer  “Mosaic” of proteins The fluid-mosaic model.

Alpha/Beta Structures Branden & Tooze, Chapter 4.

Protein Structure 101 Alexey Onufriev, Virginia Tech

Lipids Hydrophobic molecules  Carbons bound to hydrogens are not polar Most often found as fatty-acid  Carboxyl group at one end  Carbon/hydrogen chain.

Protein Structure 1 Primary and Secondary Structure.

Amino acids link together (right) to form proteins.

Protein Structure Primary - sequence of amino acids Secondary – folding into pleated sheets or alpha helix Tertiary – 3-D structure, completely folded.

More about proteins Proteins are the building block of our bodies. They make up many components (muscle, skin) or direct the synthesis of components (bone,

Dihydrofolate Reductase (DHFR)

Physical-chemical properties of proteins; precipitation reactions.

(ex: framework for hair, transporting oxygen in the blood)

Proteins Protos “of prime importance” Big Idea: Proteins perform the actions of the cell, they are coded for by the DNA. DNA is the principal, proteins.

The Structure and Function of Macromolecules Chpt. 5 The Structure and Function of Macromolecules.

Copy this DNA strand. DNA: ATGCCGCACTCTGGGTCGACT …AND WRITE THE COMPLEMENT.

Amino Acids. Amino acids are used in every cell of your body to build the proteins you need to survive. Amino Acids have a two-carbon bond: – One of the.

Biomolecules There are four types of biomolecules Why are they important? –Biomolecules are the building blocks for all organisms. They are what make organisms.

4.A.1 Biomolecules The subcomponents of biological molecules and their sequence determine the properties of that molecule.

a/b domains are found in many proteins

a/b domains are found in many proteins

Origin & Composition of Cells

Protein Folding Notes.

Protein structure (Foundation Block) Dr. Sumbul Fatma

Protein Synthesis: Translation

The heroic times of crystallography

Protein Structure September 7,

Protein Folding.

(3) Gene Expression Gene Expression (A) What is Gene Expression?

Copyright Pearson Prentice Hall

Proteins Types Function/Example

THE STRUCTURE AND FUNCTION OF MACROMOLECULES

Protein Structure and Function

Protein Synthesis.

Volume 95, Issue 7, Pages (December 1998)

Conformationally changed Stability

Defensins Deisy Cifuentes Mr.Trefz Genetics.

The Chemistry of Life Proteins

The TNF and TNF Receptor Superfamilies

Introduction and Fundamentals of Protein Structure

Proteins Genetic information in DNA codes specifically for the production of proteins Cells have thousands of different proteins, each with a specific.

Conformationally changed Stability

Amino Acids An amino acid is any compound that contains an amino group (—NH2) and a carboxyl group (—COOH) in the same molecule.

Introduction and Fundamentals of Protein Structure

Protein Structure.

Volume 124, Issue 5, Pages (March 2006)

Volume 10, Issue 3, Pages (March 2002)

Structural Basis for FGF Receptor Dimerization and Activation

Proteins Proteins have many structures, resulting in a wide range of functions Proteins do most of the work in cells and act as enzymes 2. Proteins are.

Volume 93, Issue 5, Pages (May 1998)

AKAP15 coimmunoprecipitates with CaV1

Protein structure (Foundation Block).

Protein structure (Foundation Block).

Presentation transcript:

Glycerol 3-phosphate Cytidylyltransferase Ashley Mericle

Sequence

Overall Structure

Structure 5 parallel β sheets α -helices pack next to the sheets –Form α / β supersecondary structure 3 10 helices connect the β sheets

Function Teichoic acids are major componenets of the cell walls of most Gram-positive bacteria. The genes concerned with the synthesis of poly(glycerol phosphate) are organized into two operons. The gene of the tagDEF operon, tagD, encodes glycerol-3-phosphate cytidylyltransferase. It catalyzes the transfer of the cytidyl group of CTP to glycerol phosphate.

Teichoic Acid Production Pathway

Overall Reaction V max : 55.1 ± 8.3 μ mol/min/mg K m : 1.4 ± 0.1 Glycerol 3-phosphate Cytidine 5’-triphosphate (CTP)Cytidine diphosphoglycerol (CDP-glycerol)

Important Amino Acids Lysine 44 Lysine 46

Dimer Interface Arginine 63 is buried –From one of the conserved sequences Tryptophan 15 Leucine12 and Leucine 13 –hydrophobic

Interface Amino Acids Leucine 12 Leucine 13 Tryptophan 15

Helical Wheels of Interface Helices

Active Site Residues that interact with CTP do not extend across the dimer interface. –This suggests each chain possesses its own active site –There is the possibility for interaction between them due to the conserved residues –The active site is shaped like a bowl and is open to solvent at its top.

Active Site

Sequence Alignment

Conserved Residues GX(Y/F)DXXHXGH RTXGISTT RYVDEVI The first two conserved sequences comprise one side of the active site bowl.

Medical Relevance Some bacteria, which are normally found in the mouth, digestive tract, urinary tract, and upper airways of the respiratory system can cause endocarditis. If the bacteria get in the bloodstream, it can get to the heart and cause inflammation in the heart lining. It is thought that if the reaction involving GCT can be stopped, then the production of infected heart lining can be stopped.

References Pattridge KA, Weber CH, Friesen JA, Sanker S, Kent C, Ludwig ML. (2003) J Biol Chem. 278, Weber CH, Park YS, Sanker S, Kent C, Ludwig ML. (1999) Structure Fold Des. 7,