Nucleic acids Universal constituents of living matter. They are concerned with the storage, transmission and transfer of genetic information. Vytášek 2008.

Slides:

Advertisements

Similar presentations

At the end of this lecture you should be able to: Recognize the structural components of a DNA and a RNA molecule. (LO 5.1) Recognize and apply the.

Advertisements

Nucleic Acids - RNA and DNA is a complex, high-molecular- weight biochemical macromolecule composed of chains that convey genetic information. The most.

NUCLEIC ACIDS BY DR. MARYJANE. Are of two types: DNA RNA.

Karaganda State Medical University. Chemistry department.

Biomacromolecules Pt III: Nucleic Acids. Nucleic acids Linear polymers made up of monomers called nucleotides. They are of critical importance to the.

AP Biology Nucleic acids AP Biology Nucleic Acids.

Nucleic Acids. Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings Concept 5.5: Nucleic acids store and transmit hereditary information.

Nucleic Acids and DNA Replication. 1. What is the role of nucleic acid? 2. What is the monomer of a nucleic acid? 3. The monomer of a nucleic acid is.

Nucleic Acids and Protein Synthesis

BackBack Next Next CLOSE WINDOW.

3.3 DNA Structure –

Transcription and Translation… Its what make you, YOU!

12-3: RNA AND PROTEIN SYNTHESIS Biology 2. DNA double helix structure explains how DNA can be copied, but not how genes work GENES: sequence of DNA that.

DNA Biology Lab 11. Nucleic Acids  DNA and RNA both built of nucleotides containing Sugar (deoxyribose or ribose) Nitrogenous base (ATCG or AUCG) Phosphate.

NUCLEIC ACIDS STRUCTURE AND FUNCTION RNADNA. MONONUCLEOTIDE PHOSPHATE PENTOSE SUGAR ORGANIC BASE.

RNA Ribonucleic acid single stranded also made of nucleotides.

Molecular Biology (Foundation Block) The central dogma of molecular biology Nucleotide chemistry DNA, RNA and chromosome structure DNA replication Gene.

 We know that DNA is the genetic material and its sequence of nucleotide bases carry some sort of code. This code holds instructions that tell a cell.

RNA & Protein Synthesis.

DNA. Nucleic Acids Informational polymers Made of C,H,O,N and P No general formula Examples: DNA and RNA.

Function of RNA Since DNA cannot leave the nucleus, RNA molecules will convert the written instructions into proteins in the cytoplasm Genes are coded.

8. Nucleotides and Nucleic Acids

Molecular Biology I-II The central dogma of molecular biology Nucleotide chemistry DNA, RNA and Chromosome Structure DNA Replication Gene Expression Transcription.

What is central dogma? From DNA to Protein

Chapter 13 –RNA and Protein Synthesis

Introduction to Molecular Biology

Transcription and Translation The Objective : To give information about : 1- The typical structure of RNA and its function and types. 2- Differences between.

AP Biology Nucleic Acids Information storage proteins DNA Nucleic Acids  Function:  genetic material  stores information  genes  blueprint for building.

Nucleotides and nucleic acids Nucleotides: small molecules –Components of nucleic acids –Energy storage (eg. ATP) –Signal transduction/info transfer (eg.

RiboNucleic Acid (RNA) -Contrast RNA and DNA. -Explain the process of transcription. - Differentiate between the 3 main types of RNA -Differentiate between.

Bruno Sopko.  Glucose  Glycogen  Glycoproteins  Glycolipids  Proteoglycans.

Chapter 4 The Structure and Function of Large Biological Molecules Nucleic Acid.

Introduction to Organic and Biochemistry (CHE 124) Reading Assignment General, Organic, and Biological Chemistry: An Integrated Approach 3 rd. Ed. Ramond.

DNA and RNA Structure and Function Honors Research in Molecular Genetics.

L. Bahiya Osrah LAB 1 INTRODUCTION TO NUCLEIC ACIDS STRUCTURAL PROPERTIES.

DNA and RNA. Rosalind Franklin Worked with x-ray crystallography Discovered: That DNA had a helical structure with two strands.

1. NUCLEIC ACIDS: Are biological molecules essential for known forms of life on earth They include DNA and RNA Discovered by Friedrich Miescher in 1869.

Introduction to Molecular Biology. MOLECULAR BIOLOGY.

Nucleotides and Nucleic acids.

Nucleic Acids Include DNA and RNA Function to carry coded information The code controls the sequence of amino acids in a polypeptide i.e. the primary structure.

The Secret Of Heredity It unlocks the mystery of the inheritance!

DNA – Deoxyribonucleic acid

Chapter 10 – DNA, RNA, and Protein Synthesis

Nucleic acid Dr. Sahar Al Shabane.

4- Nucleic acids (DNA & RNA) Watson and Crick discovered the double helix by building models to conform to X-ray data In April 1953, James Watson.

Lecture 10: Nucleic acids (DNA & RNA)

The Chemical Building Blocks of Life

The Structure and Function of Large Biological Molecules

Nucleic Acids Section 3.5.

Reminder-four classes of large biomolecules

Nucleic Acids and Protein Synthesis

Fundamentals of Organic Chemistry

Reminder-four main classes of large biomolecules

Reminder-we recognize four classes of large biomolecules

The Secret Of Heredity It unlocks the mystery of the inheritance!

RNA and Transcription DNA RNA PROTEIN.

DNA & RNA Notes Unit 3.

13.1: RNA & Transcription.

12-3 RNA and Protein Synthesis

Part III: Nucleic Acids

The Structure and Function of Large Biological Molecules

4- Nucleic acids (DNA & RNA) Watson and Crick discovered the double helix by building models to conform to X-ray data In April 1953, James Watson.

Structure and function of DNA

Fundamentals of Organic Chemistry

Nucleic acids (DNA & RNA)

Presentation transcript:

Nucleic acids Universal constituents of living matter. They are concerned with the storage, transmission and transfer of genetic information. Vytášek 2008 Presentation is only for internal purposes of 2nd Medical faculty

Nucleic acids polymers in molar mass in the range 20kDa to 4GDa or more two basic types : DNA and RNA during last twenty years rapid development – molecular biology and genetics, genetic engineering etc.

Components of nucleic acids phosphoric acid (H 3 PO 4 ) pentose (5 carbon sugar) D-ribose 2-deoxy-D-ribose (RNA)(DNA)

heterocyclic bases (nucleobases) pyrimidine uracil thymine cytosine (RNA) (DNA) purine adenine guanine

Nucleoside consists of a pentose (ribose or deoxyribose) linked via a  -N-glycosidic bond to a ring nitrogen of nucleobase. Adenosine guanosine cytidine

Nucleotide consists of nucleoside which is esterified by phosphoric acid at either 5´ (usually and exclusively in nucleic acids) or 3´- hydroxyl group of pentose moiety. Nucleotide is monomeric unit of polymeric nucleic acids (polynucleotides) deoxyribonucleotides – dAMP, dGMP, dTMP and dCMP (monomers of DNA) ribonucleotides – AMP, GMP, UMP and CMP (monomers of RNA) AMP

Nucleic acid is polynucleotide chain which contains mononucleotides linked by phosphodiester bonds. 5´-OH group of nucleotide is joined to 3´- OH group of another nucleotide by phosphodiester bond polynucleotide chain contains 5´- and 3´- end and by convention nucleic acid sequence is written from 5´ to 3´ end

RNA

DNA

Most DNAs exist as double-helix (duplex) structures.

Double-helix (duplex) structure of DNA double helix is stabilized by hydrogen bonds of base pairs (A-T, G-C) but also by other forces (van der Waals forces, dipol- dipol interactions, repulsive forces of negatively charged phosphoryl groups etc) denaturation of DNA involves separation of complementary strands DNA renaturation is the formation of duplex structure from single strands

The RNA family

Messenger RNA (mRNA) transfer of information in a gene (DNA) to the protein synthetizing machinery very heterologous in size and stability, each molecule is template for specific protein sequence translation of mRNA to protein begins from 5´-terminus the most of mRNA molecules contains polyA tail at the 3´-hydroxyl teminus (attached adenylate residues)

5´-end is capped

Transfer RNA (tRNA) carries amino acids to the template for protein synthesis small molecules (about 75 nucleotides) at least 20 species of tRNA in every cell corresponding to each of 20 amino acids

Ribosomal RNA (rRNA) integral component of ribosome (specific cytoplasmatic structure for proteosynthesis from mRNA templates) the bulk of cellular RNA three rRNAs 28S 18S and 5,8S catalytic (enzyme like) activity during creation of peptidyl bond

Small interfering RNAs (siRNAs) around 22 nucleotides in length mediate the recently discovered phenomenon of RNA interference (RNAi) mediate the downregulation of gene expression - binding to specific mRNAs labelled them for destruction by enzymes called endonucleases

MicroRNAs (miRNAs) 22–24 nucleotides in length downregulate gene expression - binding to messenger RNAs (mRNAs) causes preventing mRNAs from being translated into proteins

Gene silencing in mammals by microRNAs and small interfering RNAs Nature Rev. Genet. 3, 737–747 (2002)

Small nucleolar RNAs (snoRNAs) important for the biosynthesis of rRNAs, modify ribosomal RNAs (rRNAs) by organizing the cleavage of the long pre- rRNA into its functional subunits (18S, 5.8S and 28S molecules)

Small nuclear RNAs (snRNAs) are constituents of the cellular machinery (spliceosome) that helps to produce mRNA removing the non-coding regions (introns) of genes and piecing together the coding regions (exons) to be translated into proteins some of these snRNAs have been shown to be the functional enzymes in the splicing reaction

Ribozyme an RNA molecule that catalyzes a chemical reaction from ribonucleic acid enzyme (called also RNA enzyme) many natural ribozymes catalyze either the hydrolysis of one of their own phosphodiester bonds or the hydrolysis of bonds in other RNA

Chemical differences between DNA and RNA DNA RNA carbohydratedeoxyriboseribose pyrimidine base thyminuracil structuredouble-helix single helix stability at high pH resistentcleaved

Estimation of nucleic acids content of phosphorus (bulk of pure nucleic acids) content of bases (absorption of UV light) content of pentose estimation of native chains by intercalating stains

Ethidium bromide intercalation

Intercalation induces structural distortions