7 minutes What you don’t finish is homework.

Slides:

Advertisements

Similar presentations

NUCLEIC ACIDS : DNA and RNA Nucleic Acids Very Large, Complex, DNA & RNA Store Important Info in the Cell. (Genetic Information) ATP is an energy carrier.

Advertisements

Nucleic acids: A complex biomolecule that stores cellular information in the form of a code Contain elements: Carbon, Hydrogen, Oxygen, Nitrogen,

Nucleic Acids Makes you unique.

The student is expected to: 9A compare the structures and functions of different types of biomolecules, including carbohydrates, lipids, proteins, and.

Biomolecules Carbon Compounds Macromolecules Organic Molecules

Macromolecules: Building blocks of life November 12, 2009.

Biomolecules: You are what you eat

Make-up Nucleic acids form DNA (deoxyribonucleic acid) and RNA (ribonucleic acid) Nucleic acids are polymers, made up of smaller monomers called nucleotides.

How to make a Biomolecules booklet Fold two pieces of paper in half to make a booklet. Staple together so the pages don’t fall apart. (Front Page) Page1:

3.1 Nucleic Acids Mini Lecture Radjewski. Keep in mind We will be covering DNA in extreme detail in a later chapter, so for now you just need to know.

3 How do professional athletes fuel their bodies? USdpg USdpg Average Person:

6.3 Life Substances Molecules of Life. Role of Carbon in Organisms Carbon has four electrons in outer energy level Four covalent bonds fill energy level.

Biomolecules A short video review.. Carbohydrates.

Life with Carbon. The four classes of organic compounds Carbohydrates Proteins Lipids Nucleic acids.

Organic Molecules. Macromolecules Macromolecules are “giant molecules” found in living cells Smaller units are called monomers, these join together to.

Nucleic Acids Monomer- nucleotide Polymer- Nucleic acid Nucleotides consist of a 5-carbon sugar, a phosphate group, and a nitrogenous base. There are three.

3 How do professional athletes fuel their bodies? USdpg USdpg Average Person:

Carbon-Based Molecules CarbohydratesLipids ProteinsNucleic Acids.

Information Storage and Energy Transfer. Nucleic Acid Basics Made of C,H,O,N,P SPONCH Monomer is a nucleotide Functions - information storage - information.

Unit 1B Biomolecules Create a Unit Title Page on the next blank page on the right.

AGENDA – 9/3/2015 Take out your composition notebook and take out your foldable that we made yesterday! Bell-Ringer: Building Blocks of Life Biomolecules.

What is a macromolecule? There are four main types of biological molecules called macromolecules. The four types of macromolecules are carbohydrates, lipids,

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

 Complete the analogies below and write it out in your notebook:  Monosaccharides : carbohydrates :: _________ : proteins.  Monomers : polymers :: nucleotides.

Warm Up 1/28/16 Make sure you pick up ALL of the note sheets and Warm Up on the pick up table. REMINDER: If you are working on Remediation Sheets to retake.

Macromolecules/Biomolecules

Section 6.1 Summary – pages

Nucleic Acids Nucleic acids store and transmit hereditary, or genetic, information. Nucleic acids are macromolecules containing hydrogen, oxygen, nitrogen,

BELL WORK: You only need to write your answer

Nucleic Acids Day 11.

Nucleic Acids The FINAL Biomolecule.

Organic Chemistry/ Monomers/Polymers

Warm-Up Page 20 What do you know about DNA? ‘

Section 2 The Necessities of Life

Carbon (Organic) Chemistry

Organic Chemistry/ Monomers/Polymers

Nucleic Acids Objective:

Organic Compounds: Nucleic Acids

Nucleic Acids DNA, RNA, ATP.

Nucleic Acids DNA, RNA, ATP.

Carbon-Based Molecules

KEY CONCEPT Carbon-based molecules are the foundation of life.

Nucleic Acid SBI4U0 Ms. Manning.

Biochemistry: Nucleic Acids.

The student is expected to: 9A compare the structures and functions of different types of biomolecules, including carbohydrates, lipids, proteins, and.

Warm-up Cut out the monomer on your table.

Four classes of organic compounds: Carbohydrates Proteins Lipids

Carbon Based Molecules

Organic Molecules: HONC PS

Biomolecules are molecules that are necessary for life

Subunits is a nucleotide Contains C, H, O, N, and P

Nucleic Acids Structure

Organic Molecules Nucleic Acids 2-3.

Macromolecules — Nucleic Acids

Bell Ringer: Grab the following Foldable from front podium Glue

1. Molecules – Made up of atoms

Information Storage and Energy Transfer

The molecules that form life

MACROMOLECULES Foldable Notes.

Nucleic Acids Store and transfer genetic information

Store and transmit hereditary and genetic information.

Lesson 8 Nucleic Acids.

The student is expected to: 9A compare the structures and functions of different types of biomolecules, including carbohydrates, lipids, proteins, and.

Life with carbon Chapter 4 Section 3.

The polymer name of nucleic acids is nucleic acids

Presentation transcript:

7 minutes What you don’t finish is homework. Work Time #1 7 minutes What you don’t finish is homework. Title page ___: Nucleic Acid Notes Title page ___: Nucleic Acid Foldable Go to my Moodle page. Open the Nucleic Acid Notes. Fill in your notes with your partner. Glue on page 15. Finished EARLY? Answer the questions on the LEFT SIDE of your notes. We will discuss the notes/questions after the 7 minutes is up.

Nucleic Acids The FINAL Biomolecule

6.3 Section Summary 6.3 – pages 157-163 The structure of nucleic acids A nucleic (noo KLAY ihk) acid contains all cellular information (genetics) in the form of a code. This means… Nucleic acids contain directions to make proteins. 6.3 Section Summary 6.3 – pages 157-163

Nucleic Acids will have carbon, hydrogen, oxygen, nitrogen, and phosphate. CHONP!

Do this on your notes…. Outline the ring in red. Circle the C, H, O in green. Circle the N in orange. Circle the P in blue. This is a 5-ring carbohydrate. You can’t see the “Carbons”, but they are at each point on the pentagon.

6.3 Section Summary 6.3 – pages 157-163 The structure of nucleic acids Nucleotides are the monomers (subunits) of nucleic acids. When they are added together, they will build a nucleic acid. Arranged in three parts—a simple sugar (red) , nitrogenous base (blue, and phosphate group(green). Phosphate Sugar Nitrogenous base Label the picture in your notes 6.3 Section Summary 6.3 – pages 157-163

6.3 Section Summary 6.3 – pages 157-163 Can you think of any examples of nucleic acid in your body? Where are they located? Answer in your notes in a blank space. Add to notes: Everytime we eat something that was once living (an ANIMAL or PLANT) we are taking in nucleic acids, their DNA 6.3 Section Summary 6.3 – pages 157-163

ATP Adenosine Triphosphate Gives our cells the ENERGY they need

6.3 Section Summary 6.3 – pages 157-163 The structure of nucleic acids DNA, which stands for deoxyribonucleic acid is a nucleic acid. RNA, which stands for ribonucleic acid is a nucleic acid. ATP, the molecule that provides our cells with ENERGY is a nucleic acid. 6.3 Section Summary 6.3 – pages 157-163

20 minutes What you don’t finish is homework. Work Time #2 Create foldable so that it has 3 sections. Front: Nucleic Acids (polymer) are made of nucleotides (monomer) 3 types: DNA, RNA, and ATP Top side: DNA Middle: ATP Bottom side: RNA Use power point notes on Moodle to help you fill in your foldable. Glue in the pictures (4) where they belong. On the inside, for EACH YOU NEED: Picture Function Other important information (On the ATP side include the ATP-ADP cycle in your foldable notes) Glue foldable on page ___.