Dielectric relaxation in Hyaluronic acid sodium salt S.Dolanski Babić 1,2, T.Ivek 1, T.Vuletić 1, S.Tomić 1 and R.Podgornik 3,4 1 Institut za fiziku, Zagreb,

Slides:

Advertisements

Similar presentations

Basic Chemistry Chapter 2.

Advertisements

CARBOHYDRATES Chemistry (Chapter 7).

Carbohydrates: Oligosaccahrdes and Polysaccharides.

The biology of cartilage. l has a biomechanic function l is localized on the articular surfaces of the joints. l has a biomechanic function l is localized.

Chapter 6 Elements 1.Elements: is a substance that can’t be broken down into simpler chemical substances. A. The 4 main elements found in living things:

DIELECTRIC PROPERTIES OF ION - CONDUCTING MATERIALS F. Kremer Coauthors: J. Rume, A. Serghei,

T.Vuletić ¹, R. Žaja ¹, ², M. Vukelić ¹, S.Tomić ¹ and I. Sondi ² ; Low-frequency.

Dielectric constants of Biological Materials. 1. Review 2. Dielectric Mixtures 3. Characteristics of Some Biological Materials 4. 1.

1 Lecture 12 The cooperative relaxation of water at the pore surface of silica glasses.

Synovial Fluid Synovial fluid is a plasma dialysate modified by constituents secreted by the joint tissues, it is a viscous liquid found in small quantities.

BIOCHEMISTRY ALL LIVING THINGS ARE COMPOSED OF THE FOLLOWING BASIC ELEMENTS CARBON OXYGEN PHOSPHOROUS HYDROGEN NITROGEN SULFUR “CHNOPS”, Essential Elements.

Dynamics and Structure of Biopolyelectrolytes characterized by Dielectric Spectroscopy Silvia Tomic Institut za fiziku, Zagreb, Croatia

The Chemistry of Life Chapter 2. Periodic Table of the Elements.

Biological Molecules Carbohydrates. III. Carbohydrates include sugars, starches, and cellulose A. carbohydrates contain only the elements carbon, hydrogen,

Synovial fluid.

Carbon Chemistry Chapter 8

Section 2 Water and Solutions

CHAPTER 3 Composition of Cells (part 1) By Muhammad Bilal Javed.

Organic Chemistry Overview

Biological Molecules. Biological Molecules Six Most Common Elements of Living Things Carbon Hydrogen Nitrogen Oxygen Phosphorous Sulfur.

Matter is anything that has mass and takes up space. Matter is composed of very small particles called atoms. In nature, there are 92 different forms.

¹, Zagreb, Croatia ² School of Medicine, University of Zagreb, Croatia ³ Institut Ruđer Bošković, Zagreb, Croatia 4 Dept. of Biological Chemistry, UCLA.

Unit 4: BIOCHEMISTRY The chemicals of life. A. Atoms 1. Made of 3 Particles: a. _________ - located in the _________ _________ charge; determine the element.

Chapter 2: Biochemistry

Unit 3: Chapter 6 - Biochemistry The Chemicals of Life.

Electrical and Computer Systems Engineering Postgraduate Student Research Forum 2001 Experimental measurements of dielectric and conduction properties.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 2 Chemistry.

Molecules of Life. Water The human body is mostly water –Lean muscle: ____ water –Blood: ____ water –Body fat: ___ water –Bone: ___ water All living organisms.

UNIT A: Cell Biology Chapter 2: The Molecules of Cells: Sections 2.3, 2.4 Chapter 3: Cell Structure and Function Chapter 4: DNA Structure and Gene Expression.

Vocab review Monomer= generic name for a building block unit

Chemistry of Life Matter… Energy… Life…. Objectives Objectives: A.Explain the nature of matter; B.Discuss the importance of water and solutions; C.Break.

Chap. 3 : Biochemistry I. Structures Important to Life --- Organic Compounds – contain carbon (derived from living things) --- Organic Compounds – contain.

CHAPTER 2: CHEMICAL BASIS OF LIFE. 2.2 STRUCTURE OF MATTER All matter is made up of atoms – the smallest building blocks of matter Atoms make up elements.

Chapter 6 The Chemistry of Life. Atoms and their interactions.

Fundamental length scales in Na- DNA solutions: semidilute versus dilute regime Sanja Dolanski Babić, Tomislav Vuletić, Tomislav Ivek, Silvia Tomić, Institut.

Organic Chemistry The element carbon (C) is a component of almost

Unit One “Science Introduction & Cellular Function” “Molecules of Life”

 Field of chemistry that deals with living organisms and life processes  Why is this important when studying A&P?

¹, Zagreb, Croatia ² School of Medicine, University of Zagreb, Croatia ³ Institut Ruđer Bošković, Zagreb, Croatia 4 Dept. of Biological Chemistry, UCLA.

Organisms are composed of matter. Matter is anything that takes up space and has mass. An element is a substance that cannot be broken down to other substances.

Biology 102 Lecture 4: Biological Molecules. Lecture outline 1. Organic molecules: Overview 2. Carbohydrates Functions Functions Structure Structure 3.

Properties of the bakelite used for standard RPC chambers as a function of the operating temperature F. Bruni – G. Hull – S.M. Mari 4 digital thermometers.

Organic and Inorganic Molecules in the Human Body.

Essential Questions How does the structure of water make it a good solvent? What are the similarities and differences between solutions and suspensions?

Water and Solutions Section 2-2. Water is a Major Component of Cells 70 % of your body is water. 2/3 of molecules in body are water. 70 % of your body.

Biochemistry I: Chemistry Basics

Carbon Compounds Chapter 2, Section 3 pp

The Biochemistry of Life

Biochemistry The Chemistry of Living Things

Chemistry Comes Alive: Part B

Carbon Compounds Chapter 4, Section 4 pp

EQ: What are the structures and functions of biomolecules?

Unit 2 Part 1: Organic Compounds (Biomolecules) and Enzymes

Type Today’s Date Here and Today’s Objective Here.

Department of Chemistry

Biochemistry Molecules of Life..

Macromolecules: Large Carbon Compounds

Macromolecules are large molecules called polymers.

Chapter 3 Notes Biochemistry.

LECTURE 11.2 – BIOCHEMISTRY

Chemistry of Life Matter… Energy… Life….

2.2: Properties of Water water is one of the most important substances on Earth and in your body 70% of your body IS water.

Macromolecules Unit 2 - Biodiversity.

Carbohydrate Dr.Gulve R.M..

Electrolytes Acids Bases

Macromolecules a.k.a. biomolecules What Mamma Never Told You!

Classes of Compounds Inorganic compounds Organic compounds

Chemistry Comes to Life

Presentation transcript:

Dielectric relaxation in Hyaluronic acid sodium salt S.Dolanski Babić 1,2, T.Ivek 1, T.Vuletić 1, S.Tomić 1 and R.Podgornik 3,4 1 Institut za fiziku, Zagreb, Hrvatska 2 Zavod za fiziku i biofiziku, Medicinski fakultet, Zagreb, Hrvatska 3 Department of Physics, University of Ljubljana, Ljubljana, Slovenia 4 J.Stefan Institute, Ljubljana, Slovenia

I Introduction II Samples III Low freq. Dielectric Spectroscopy IV Results V Plans

Introduction - Hyaluronan (hyaluronic acid or hyaluronate) is simple polymer of disaccharides themselves - composed of glucuronic acid and N-acetylglucosamine - linked together via alternating glycosidic bonds - Molecular weight of one monomer is 400 Da glucose

Introduction HYALURONAN IS- - found in all tissues and body fluids of vertebrates as well as in some bacteria - synthesized in the cellular plasma membrane - a major component of the synovial fluid and was found to increase the viscosity of the fluid - a major constituent in the vitreous of the human eye -an important component of articular cartilage, where it is present as a coat around each cell - is also a major component of skin, where it is involved in tissue repair Hyaluronan (HA) can be monomers in length ~1 nm

Samples Hyaluronic acid Sodium salt from Streptococcus equi sp. (BioChemika Fluka) - molecular weights of HA* are in the range 300 kDa kDa - polydisperse HA fragments in the range monomers ( m) - pure water solutions in the range of mg/mL - pure water: MilliPore, Milli-Q, S/cm * K.Tamoto, Semin.Arthritis Rheum., Vol. 22 (1993)

Dielectric spectroscopy (40 Hz-100 MHz) Temperature control unit Temp. range:5°C - 60°C Stability: ± 0.1 K Impedance analyzer Agilent 4294 measures capacitance, C and conductance, G (real part) Y()= G()+iC() Chamber for liquid samples – water solutions - conductivity: S/cm - drops vol.: L - reproducibility 0.8% - long term (2 h) 2% Pt

From complex conductance to complex dielectric function Y()=G()+iC() -G() and C() of DNA solutions are measured - These are subtracted for (G, C) of background (reference) NaCl solution with matching conductivity (at 100kHz) - This procedure enables to eliminate the electrode polarization effects, as well as other stray impedance effects.

From complex conductance to complex dielectric function (G-G NaCl, C-C NaCl ) =’()-i’’() FITS to a sum of two generalized Debye functions - relaxation process strength,  -  0, central relaxation time - symmetric broadening of the relaxation time distribution, 1 - 

Results -HA pure water solutions dielectric response spectra feature two modes (as DNA solutions) - two relaxation modes in kHz and MHz ranges

Results HF mode:   4, 1-  0.82 LF mode:   60 for c < 0.2 mg/mL   10 for c > 0.4 mg/mL 1-  0.75  HF  LF

Results semidilute regime above c*=0.001 mg/mL

Results =0.5=0.4

Results f HF - fraction of counterions participating in the HF process  HF - polarizability

Plans 1.Repeat the dielectric spectroscopy for Hyaluronic acid pure water solutions in the same range of HA concentration as reported here. 2. Hyaluronic acid in NaCl electrolyte (with added salt of fixed or varying concentration), similar range of HA concentration as reported here.