AS Biology. Gnetic control of protein structure and function Genetic control of protein structure and function.

Slides:

Advertisements

Similar presentations

Genetic control of protein structure and function

Advertisements

Nucleic Acid Structure and Function. Function of DNA (DeoxyriboNucleic Acid) Contains sections called “genes” that code for proteins. These genes are.

AP Biology Nucleic acids AP Biology Nucleic Acids.

Structure and Composition

Biology 107 Macromolecules III September 10, 2002.

Biology 107 Macromolecules III September 11, 2002.

Warm-Up Where is DNA found? What is DNA?

Objectives 12.2 The Structure of DNA

DNA The Structure of DNA. What does the DNA of all these organisms have in common? They all share a universal genetic code.

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

Date DNA. ✤ DNA stands for deoxyribonucleic acid ✤ DNA carries all the genetic information of living organisms.

What is this DNA you speak of?  DNA stands for deoxyribonucleic acid - Found in nucleus of eukaryotic cells - Found in cytoplasm of protists.

2.6: Structure of DNA and RNA

AS Biology. Gnetic control of protein structure and function Genetic control of protein structure and function  100’s of free ppt’s from

AS Biology. Gnetic control of protein structure and function Genetic control of protein structure and function.

D.N.A. DeoxyriboNucleic Acid

Assessment Statements: Describe the structure of DNA.

AS Biology. Gnetic control of protein structure and function DNA STRUCTURE.

From DNA to Protein. Knowledge of Nucleic Acid Chemistry Is Essential to the Understanding of DNA Structure.

Regents Biology Nucleic Acids Information storage.

Quick Review 1.What is genetic information stored as? 2.What organelle is this information found in?

NUCLEIC ACIDS  P GENERAL CHARACTERISTICS MADE UP OF C, H, O, N, AND P A NUCLEOTIDE MONOMER : THAT INCLUDES A 5 CARBON SUGAR, A NITROGEN BASE AND.

3.3.1 DNA Structure DNA is a polymer of Nucleotides 1.Sugar (5C) 2.Phosphate Group (C-5) 3.Nitrogenous Base (C-1) Phosphate Pentose Sugar Nitrogenous.

DNA DeoxyriboNucleic Acid. What can DNA do? Carries information from one generation to the next Determines the heritable characteristics of organisms.

Section II The Structure of DNA. How can a DNA molecule be compared to a ladder used in everyday life? Similarities? Differences? vs Figure 4, pg. 194.

DNA RNA  Made up of C, H, O, N, P Nucleotides are the monomers of Nucleic Acids Phosphate Group 2.5-Carbon Sugar (Dexoyribose or Ribose)

DNA. Why Important Understanding of birth defects Viral diseases Cancer Aging Genetic engineering Criminal investigations.

DNA and Genes. Prokaryotes VS Eukaryotes Prokaryotes: no defined nucleus and a simplified internal structure Eukaryotes: membrane limited nucleus and.

© 2010 Pearson Education, Inc. DNA: STRUCTURE DNA: Deoxyribonucleic acid Was known to be a chemical in cells by the end of the nineteenth century Has the.

AS Biology. Gnetic control of protein structure and function.

DNA –Was known as a chemical in cells by the end of the nineteenth century –Has the capacity to store genetic information –Can be copied and passed from.

DNA Introduction. What is DNA? Genetic information of life Type of Nucleic Acid Double Stranded.

8.2 Structure of DNA KEY CONCEPT DNA structure is the same in all organisms. Deoxyribonucleic Acid.

DNA (Deoxyribonucleic Acid). Watson and Crick DNA Molecules x8b8Ihttp:// x8b8I.

The Structure of DNA. DNA DNA (deoxyribonucleic acid) is found in the nuclei of all cells. It is the DNA that carries the genetic information which will.

DNA. DNA is the organic molecule Deoxyribonucleic Acid The function of DNA is as a molecule that permanently stores the information or instructions necessary.

General Genetics (Practical Session) BIO221 Lecturer Alshehri, Dokhnah Saeed Alshehri, Dikhnah Saeed.

NUCLEIC ACIDS. Below is one of the molecules that makes up DNA. What functional groups do you see in the molecule: 1.Hydroxyl group 2.Carboxyl group 3.Amino.

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

Chapter 8 DNA & RNA.

THE MOLECULE BASIS OF INHERITANCE

The Chemical Building Blocks of Life

Nucleic Acids Section 3.5.

Nucleic Acids 1 1.

What is the structure and function of DNA?

DNA (Deoxyribonucleic Acid)

AIM: How are DNA molecules structured

12.2 Notes The Structure of DNA

DNA Structure and Function

What is the structure and function of DNA?

DNA & RNA Notes Unit 3.

DNA DNA is a type of organic macromolecule called Deoxyribonucleic Acid DNA is made up of repeating monomers called Nucleotides DNA has a distinct shape.

Unit 5: DNA, RNA and Protein Synthesis

The Structure of Deoxyribonucleic Acid

Deoxyribonucleic Acid

Title: Nucleic Acids

Copyright Pearson Prentice Hall

Molecular Genetics and Biotechnology

Nucleic Acids DNA & RNA.

Nucleic Acids DNA & RNA.

Nucleic acids (DNA & RNA)

Presentation transcript:

AS Biology. Gnetic control of protein structure and function Genetic control of protein structure and function

AS Biology. Gnetic control of protein structure and function The structure of DNA and RNA  Genetic material of living organisms is either DNA or RNA.  DNA – Deoxyribonucleic acid  RNA – Ribonucleic acid  Genes are lengths of DNA that code for particular proteins.

AS Biology. Gnetic control of protein structure and function DNA and RNA are polynucleotides  Both DNA and RNA are polynucleotides.  They are made up of smaller molecules called nucleotides.  DNA is made of two polynucleotide strands:  RNA is made of a single polynucleotide strand: Nucleotide

AS Biology. Gnetic control of protein structure and function Structure of a nucleotide A nucleotide is made of 3 components:  A Pentose sugar  This is a 5 carbon sugar  The sugar in DNA is deoxyribose.  The sugar in RNA is ribose.

AS Biology. Gnetic control of protein structure and function Structure of a nucleotide  A Phosphate group  Phosphate groups are important because they link the sugar on one nucleotide onto the phosphate of the next nucleotide to make a polynucleotide.

AS Biology. Gnetic control of protein structure and function Structure of a nucleotide  A Nitrogenous base  In DNA the four bases are: –Thyamine –Adenine –Cytosine –Guanine  In RNA the four bases are: –Uracil –Adenine –Cytosine –Guanine

AS Biology. Gnetic control of protein structure and function Nitrogenous bases – Two types Pyramidines Thymine - T Cytosine - C Uracil - U Purines Adenine - A Guanine - G

AS Biology. Gnetic control of protein structure and function Sugar phosphate bonds (backbone of DNA)  Nucleotides are connected to each other via the phosphate on one nucleotide and the sugar on the next nucleotide  A Polynucleotide

AS Biology. Gnetic control of protein structure and function James Watson (L) and Francis Crick (R), and the model they built of the structure of DNA

AS Biology. Gnetic control of protein structure and function X-ray diffraction photograph of the DNA double helix

AS Biology. Gnetic control of protein structure and function Base pairing  The Nitrogenous Bases pair up with other bases. For example the bases of one strand of DNA base pair with the bases on the opposite strand of the DNA.

AS Biology. Gnetic control of protein structure and function

The Rule:  Adenine always base pairs with Thymine (or Uracil if RNA)  Cytosine always base pairs with Guanine.  This is beacuse there is exactly enough room for one purine and one pyramide base between the two polynucleotide strands of DNA.

AS Biology. Gnetic control of protein structure and function Complementary base pairing PurinesPyramidines Adenine Thymine AdenineUracil GuanineCytosine