Biochemical Composition Evidence of Evolutionary Relationships.

Slides:

Advertisements

Similar presentations

The DNA Connection.

Advertisements

DNA Deoxyribonucleic Acid “The Blueprint of Life”

Chapter 12:DNA and RNA (Molecular Genetics).

MOLECULAR GENETICS. DNA- deoxyribonucleic acid James Watson and Francis Crick discover the structure of the DNA molecule DNA is a double helix (twisted.

DNA and RNA. I. DNA Structure Double Helix In the early 1950s, American James Watson and Britain Francis Crick determined that DNA is in the shape of.

Nucleic Acids DNA vs. RNA

Genetic Code All of the information to make a new organism is contained in the chromosomes of the cell. Chromosomes are made of tightly coiled DNA or Deoxyribonucleic.

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 & Genetics Biology. Remember chromosomes? What are genes? Made up of DNA and are units of heredity; unique to everyone What are traits? Are physical.

Cellular Metabolism Chapter 4. Introduction Metabolism is many chemical reactionss Metabolism breaks down nutrients and releases energy= catabolism Metabolism.

DNA / RNA Notes. l. DNA Structure A. Chromosomes are made up of DNA, or deoxyribonucleic acid. DNA is the master copy, or blueprint, of an organism’s.

Mrs. Degl Molecular Genetics DNA, or deoxyribonucleic acid, is the hereditary material in humans and almost all other organisms. Nearly every cell in a.

RNA & Protein Synthesis.

Chapter 8 DNA and GENES Biology Notes.

D.N.A. DeoxyriboNucleic Acid

DNA and RNA Objectives: 8.0 Identify the structure and function of DNA, RNA, and protein. 8.1 Explaining relationships among DNA, genes, and chromosomes.

DNA Deoxyribose Nucleic Acid – is the information code to make an organism and controls the activities of the cell. –Mitosis copies this code so that all.

DNA, mRNA, and Protein Synthesis TAKS Review for April 22 test.

How does DNA control cell activities?. Protein Production The sequence of nucleotides in DNA contains instructions for producing proteins. The sequence.

Protein Synthesis (DNA and RNA)

DNA The Code of Life.

Molecular Genetics Information The sequence of nucleotides in DNA codes for proteins. Proteins are the central key to cell function.

RNA. What is RNA?  RNA stands for Ribonucleic acid  Made up of ribose  Nitrogenous bases  And a phosphate group  The code used for making proteins.

DNA Deoxyribonucleic Acid. DNA Structure What is DNA? The information that determines an organisms traits. DNA produces proteins which gives it “The.

Nucleic Acids and Protein Synthesis 10 – 1 DNA 10 – 2 RNA 10 – 3 Protein Synthesis.

DNA Structure and Protein Synthesis (also known as Gene Expression)

Nucleic Acid Structure

THE NUCLEIC ACIDS DNA & RNA. DNA-DeoxyriboNucleic Acid  DNA is the genetic material present in chromosomes  Made up of monomers called “nucleotides”

PROTEIN SYNTHESIS Review. Cell organelle where ______________ proteins are made Copying DNA _________________ G roup of 3 nucleotides _____________ in.

Protein Synthesis Levels of Genetic Organization.

DNA Deoxyribose Nucleic Acid – is the information code to make an organism and controls the activities of the cell. –Mitosis copies this code so that all.

Do you know what this is?. DNA Stands for Deoxyribose Nucleic Acid It is a long molecule called a polymer Shape: double helix.

Modern Genetics How information is passed from parents to offspring.

Biochemical Composition Evidence of Evolutionary Relationships.

Protein Synthesis (DNA and RNA). DNA Deoxyribonucleic acid Located in the nucleus Double helix  Twisted ladder.

Protein Synthesis (DNA and RNA). DNA Deoxyribonucleic acid Located in the nucleus Double helix  Twisted ladder.

DNA, RNA, and Protein Synthesis

Molecules to Eye Color DNA, RNA and Protein Synthesis.

You are what you eat!.  Deoxyribonucleic Acid  Long, double-stranded chain of nucleotides  Contains genetic code  Instructions for making the proteins.

Protein Synthesis Making Proteins from DNA. DNA & the Nucleus DNA cannot leave the nucleus! So how can we get the information for making proteins out.

DNA. An organism’s genetic material Located on chromosomes Genes are segments on DNA Contains information needed for an organism to grow, maintain itself,

DNA and RNA. DNA Deoxyribonucleic Acid Genetic code of life Located inside the nucleus NEVER leaves the nucleus Double Stranded Shape of DNA is a double.

DNA The Genetic Code. Genes determine traits Genes are on chromosomes Genes are replicated and distributed to new nuclei by mitosis and meiosis.

Molecules to Eye Color DNA, RNA and Protein Synthesis.

Molecular Genetics Chromosome Structure  DNA coils around histones to form nucleosomes, which coil to form chromatin fibers.  The chromatin fibers supercoil.

Transcription & Translation. Objectives: Relate the concept of the gene to the sequences of nucleotides in DNA Sequence the steps involved in protein.

DNA, RNA & Protein Synthesis. A. DNA and the Genetic Code 1. DNA controls the production of proteins by the order of the nucleotides.

DNA: WHAT IS IT, and WHAT IS ITS STRUCTURE? DNA is Deoxyribonucleic Acid, a coiled double helix molecule. Genes are made of DNA. All of your genetic Information.

Protein Synthesis DNA&RNA DNA Deoxyribonucleic Acid Deoxyribonucleic Acid Shape - double helix - twisted ladder Shape - double helix - twisted ladder.

What is a genome? The complete set of genetic instructions (DNA sequence) of a species.

Protein Synthesis.

Structure and Role of DNA

Protein Synthesis.

Nucleic Acids Made of Nucleotides

DNA and RNA Pages

Why do we use mice to conduct medical experiments?

The Cell Cycle and Protein Synthesis

DNA, Proteins and Protein Synthesis

DNA "The Blueprint of Life".

REVIEW DNA DNA Replication Transcription Translation.

Unit Animal Science.

Warm up What are the 3 components of a nucleotide? Which component changes based on the nucleotide? What is a chromosome? Where is it located? What.

DNA and RNA Pages

The Structure of DNA.

Genes Determine the characteristics of individuals.

Unit 3: Genetics Part 1: Genetic Informaiton

Presentation transcript:

Biochemical Composition Evidence of Evolutionary Relationships

How is DNA related to vertebrate evolution? How does DNA encode the characteristics of an organism? In what different ways can mutations affect an organism? How can a simple mutation end up having a major effect on the phenotype of an organism? How do we use biotechnology to further our understanding of vertebrate evolution?

Levels of Organization

Levels of Genetic Organization

Macromolecules of Evolution A. Nucleic Acids - DNA and RNA 1.universal code (blueprints) for making proteins 2.inherited genetic information Nucleic acids are the instructions for making proteins, proteins make up traits, natural selection selects for traits that give organism more chances of surviving and reproducing.

Macromolecules of Evolution B. Proteins - determine physical traits 1.structure - materials for building cells 2.function - a. carry substances throughout the body, in & out of cells b. trigger muscle movements c. assist with all chemical reactions in the body d. protect the body against disease Nucleic acids are the instructions for making proteins, proteins make up traits, natural selection selects for traits that give organism more chances of surviving and reproducing..

Nucleic Acids A. Building Blocks of Nucleic Acids 1. Nucleotides 3 basic parts:    B. Nucleotides bond together to form Nucleic Acids 1.a phosphate group of one nucleotide attaches to the sugar of another nucleotide (covalent bond) 2.base pairing - bases bond with complimentary bases (hydrogen bond)

Nucleic Acids - DNA & RNA C. Two Basic Kinds of Nucleic Acids: 1.DNA - deoxyribonucleic acid a.shaped like a twisted ladder (double helix) b.contains genes - one gene makes one protein c.is inherited - from preceding generations (parents/ancestors) d.nitrogenous bases - adenine and thymine guanine and cytosine e.copies itself - undergoes replication to produce new DNA strandsreplication One nucleotide

Template DNA Strand Sequence: G T C T A C T T G Complementary DNA Strand Sequence: C A G A T G A A C Determine the sequence of the developing DNA strand! Nucleic Acids - DNA & RNA DNA Replication ( 1) A half of the DNA ladder is a template to make a copy of the whole (2) Occurs before cell division - mitosis or meiosis

Nucleic Acids - DNA & RNA 2.RNA - ribonucleic acid a.single strand of nucleotides b.decodes genes within the DNA to make proteins c.3 types: messenger, transfer, ribosomal d.nitrogenous bases - adenine and uracil, guanine and cytosine DNA Replication (continued) Play The Double Helix Game

IV. Differences Between DNA & RNA A. Sugars 1.DNA B. Number of strands 2.RNA C. BasesD. Location deoxyribose sugar ribose sugar double- stranded single- stranded A-T G-C A-U G-C in the nucleus in nucleus, cytoplasm & ribosome DNARNA

DNA  RNA  Protein  Trait V. Protein Synthesis A. The Connection: Nucleic Acids, Proteins & Traits

V. Protein Synthesis B.Transcription - the first phase of making a protein 1.a gene is copied 2.a half of the DNA ladder is a template to create mRNA Messenger RNA Sequence: C A G A U G A A C Determine the sequence of the developing messenger RNA strand! Template DNA Strand Sequence: G T C T A C T T G

V. Protein Synthesis C.Translation - the second phase of making a proteinTranslation 1.mRNA leaves the nucleus and travels to the ribosome 2.tRNA meets mRNA at the ribosome with the appropriate amino acids (building blocks of proteins) a 3-base sequence of mRNA (a codon) codes for a specific amino acid a 3-base sequence of tRNA (an anti-codon) bonds with a corresponding codon, delivering its amino acid 3.amino acids attach together (peptide bond) to form a polypeptide chain

Translation Use the codon chart to determine the amino acid sequence of the developing polypeptide chain! GluMetAsp peptide bond

VI. Proteins A. Building Blocks of Proteins 1.Amino Acids B.Amino Acids bond together to make Proteins 1.proteins differ due to the number, kind, sequence and arrangement of amino acids 2.amino acids are attached to one another by peptide bonds to form polypeptide chains 3.form determines function of a protein

C. Levels of Protein Structure 1. Polypeptide chains spontaneously arrange themselves into 3-dimensional structures to form functional proteins 1º - a straight chain of amino acids 2º - chains bend and twist 3º - twisted chain folds even more; bonds form to hold the 3-dimensional shape 4º - Several polypeptide chains in the tertiary structure come together. This is a functional protein!

46 Chromosomes (23 pairs) approximately 25,000 genes = approximately 25,000 proteins 1 protein = approx. 500 amino acids 1 amino acid = 3 nucleotides 25,000 proteins x 1500 nucleotides = 37,500,000 nucleotides A. The Human Genome VII. Human Genes & Proteins If there are approx. 3,000,000,000 DNA base pairs on all 46 chromosomes, then… How much of our DNA codes for proteins? What do they call the rest of the DNA that does not code for proteins?