Unit 2 –Biomolecules (pp. 44-47) QUIZ block day 9-14/15-16 TEST Tuesday 9-20-16.

Slides:

Advertisements

Similar presentations

Chemistry of Carbon Molecules

Advertisements

Macromolecules.

The building block of life.

Biochemistry Organic Compounds

Macromolecules.

1 Biomolecules. 2 Macromolecules in Organisms There are four major classes of macromolecules found in living things: Carbohydrates Lipids Proteins Nucleic.

BIG IDEA: Organic compounds are necessary for life to exist

The Building Blocks of Life

I NTRODUCTION TO B IOLOGY – P ART 2 T HE M OLECULES OF L IFE ( PP ) I. Importance of CarbonTest: 9/13 Although a cell is composed of % water,

Acid/Bases Review NiIAaY&feature=related.

Section 6.3 – Life Substances

Macromolecules CHAPTER 2.3. SECTION 2-1: THE NATURE OF MATTER REMEMBER… Atoms are made up of electrons (-), neutrons (neutral), and protons (+) Proton.

Carbohydrates, Proteins, Lipids, and Nucleic Acids

Biochemistry Notes. Carbon Organic molecules contain carbon. Carbon has 4 electrons available for bonding.

Chapter 6.4 Pages EQ: How is chemistry related to the growth and survival of living organisms?

1 Biomolecules. 2 Carbon-based Molecules Although a cell is mostly water, the rest of the cell consists mostly of carbon-based molecules Organic chemistry.

INTRODUCTION TO BIOLOGY – PART 2 THE MOLECULES OF LIFE (pp ) TEST Friday 9/14.

BIOCHEMISTRY CHAPTER 2. SECTION 2-1: THE NATURE OF MATTER REMEMBER… Atoms are made up of electrons (-), neutrons (neutral), and protons (+) Proton number.

Organic Molecules: Organic Molecules: 2.3 Chemical compounds containing Carbon.

BIOMOLECULES Turner High School  Atoms (Elements) Needed for Life to Survive  C – carbon  H – hydrogen  N – nitrogen  O – oxygen  P – phosphorus.

Biology Science Department Deerfield High School Copyright Pearson Prentice Hall 2–3 Carbon Compounds.

BIOCHEMISTRY CHAPTER 2. SECTION 2-1: THE NATURE OF MATTER REMEMBER… Atoms are made up of electrons (-), neutrons (neutral), and protons (+) Proton number.

Macromolecules. Go to Section: Molecules 1. Molecule: 2 or more atoms chemically bonded together a. The atoms may be the same such as in the O 2 molecule.

Chapter 2: The Chemistry of Life Section 2.2: The Compounds of Life.

Biochemistry Notes. Carbon Organic molecules contain carbon, hydrogen and oxygen. Carbon has 4 electrons available for bonding.

Organic Compounds: Biomolecules

BIOMOLECULES Ms. Bosse – Fall Biology is the study of the living world. Bio = life Biology.

Bio-Molecules: Chemical compounds containing Carbon.

INTRODUCTION TO BIOLOGY THE MOLECULES OF LIFE (pp ) TEST Monday

BIOMOLECULES. What’s the difference??  The study of compounds that contain bonds between carbon atoms  The study of all other compounds Organic ChemistryInorganic.

Macromolecules Organic Chemistry Unit 2 (notes part 2) (notes part 2)

Chapter 2 - The Chemistry of Life I. The Nature of Matter A. Atoms - made of p+, e-, no B. Elements and Isotopes - - Element has only one type of atom,

Biochemistry Organic Compounds. What are organic compounds? Organic Compounds - have carbon bonded to other atoms and determine structure/function of.

Organic Chemistry. Carbon Inorganic compound- does not contain C and H Inorganic compound- does not contain C and H Organic compound- contains C and H.

NOTES: 2.3, part 1 - Macromolecules, Carbs & Lipids

What are macromolecules?

2.3 Carbon Based Molecules

THE CHEMICAL BASIS OF THE BODY

The Building Blocks of Life

What are the four types of biomolecules?

The Building Blocks of LIFE Biomolecules

Macromolecules.

Macromolecules Building blocks Of life Carbohydrates Lipids Proteins

Building Blocks of Life

March 16, 2010 What are chemical compounds? Why are enzymes important?

The Structure and Function of Macromolecules Learning objective: I can explain how sugar molecules are rearranged to form other macromolecules. Essential.

Biochemistry: Carbohydrates & Lipids

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

Carbon Compounds Section 2.3 Page

Do Now & Announcements Turn in HW to be checked if you did not do so last class period Please also check if you forgot to turn in your Properties of.

MACROMOLECULES.

Carbon Based Molecules

Bellringer Make sure to upload your problem statement and research question google document to Seesaw by the end of today. We will be going over your.

Macromolecules Composed of several simple units.

Unit 1: Biochemistry and Digestion

INTRODUCTION TO BIOLOGY

Biochemistry Notes.

The building blocks of LIFE

Organic Chemistry Chapter 6.

Bellringer We will be going over your Atoms, Ions, Molecules and Properties of Water Quiz today as the warm-up.

3.3 Carbon Compounds I. Building Blocks of Cells A. Biomolecules

2.3: Macromolecules.

Section 2.3 Page Carbon Compounds.

Organic Molecules Chapter 6, section 4.

March 21, 2011 What are chemical compounds? Why are enzymes important?

Biochemistry Notes.

TOPIC 3.2 Carbohydrates, Lipids and Proteins

Presentation transcript:

Unit 2 –Biomolecules (pp. 44-47) QUIZ block day 9-14/15-16 TEST Tuesday 9-20-16

I. Importance of Carbon Cells are composed of 70-95% _____ most of the rest is carbon-based compounds Carbon’s importance is due largely to the arrangement of its __________. water electrons

A. Structure of Carbon 1. Atomic # 6: __ protons & __ electrons; __ in first shell & __ in second 2. Has 4 ________ electrons- so can make four ________ bonds 6 6 2 4 valance covalent

A. Structure of Carbon hydrogen, 3. Usually bonds with: ____________ ________________________________ 4. Can also form bonds w/other ________ atoms Compounds with carbon-carbon bonds called _______ compounds not containing carbon are known as _________. oxygen, phosphorus sulfur, nitrogen carbon organic inorganic

macro=______, so these are _________ molecules B. Macromolecules macro=______, so these are _________ molecules large very large

1. Polymers many a. poly=________ b. these are large molecules made up of _______________ building blocks many similar or identical

2. Monomers a. mono= ____ b. are the ____________ or sub units of polymers one building blocks

3. Dehydration Synthesis Reaction that ____________ bonds two or more molecules together ______ is released as waste product covalently Water

Hydrolysis a. reaction that _________ the covalent bond between two or more molecules. b. Requires the addition of ______ breaks water

4. Classes of macromolecules or also called Biomolecules Carbohydrates Lipids Proteins Nucleic acids

V. Carbohydrates A. Elements: _______, always a ____ ratio of H atoms to O atoms (2H:1O) B. Monomer: monosaccharide C. Function: immediate and _____ ________; building material C, H, O 2:1 stored energy

II. Carbohydrates D. Where found in body: bloodstream, liver; cell walls of _______________ E. Food source: _________________ plants & fungus sugar & starches

II. Carbohydrates Examples: 1. Monosaccharides: (__________) a. Simplest of all sugars b. 2 kinds 5-carbon monosaccharides Deoxyribose-Found in ____ Ribose- Found in ____ One sugar DNA RNA

II. Carbohydrates 6-carbon monosaccharides *Three kinds. All having the formula ______; known as _______. * ______ are arranged differently giving each molecule different properties. C6 H12 O6 isomers Atoms

II. Carbohydrates i. Glucose - preferred _______ _______ for most organism; including humans ii. Fructose- _________ found in some fruits iii. Galactose- one component of _____ energy source Very sweet! milk

Isomers

II. Carbohydrates Examples: Disaccharides: __________ ____ monosaccharides __________ bonded together sucrose- ____________: _________ lactose- ____________: __________ Maltose- ____________________ ________ Two sugars two covalently Table sugar glu + fru Milk sugar glu +galac Found in seeds, grains glu + glu

II. Carbohydrates F. Examples: 3. Polysaccharides: many monosaccharides covalently bonded together; two groups a. Storage Polysaccharides: long polymers of glucose; broken down for needed _________ energy

II. Carbohydrates 3. Polysaccharides: F. Examples: * Glycogen- Storage of glucose in _______ Stored in _______________ animals liver & muscles

II. Carbohydrates Examples: 3. Polysaccharides: *Starch- Storage of glucose in _______ Humans _________________ to glucose for energy plants CAN break down

II. Carbohydrates Examples: 3. Polysaccharides: b. Structural Polysaccharides: used for building materials

II. Carbohydrates F. Examples: 3. Polysaccharides: * cellulose component of _____ cell walls human __________________ important source of _____ in our diet plant unable to break down fiber

II. Carbohydrates F. Examples: 3. Polysaccharides: * Chitin Component of _____________ Component of insect and other arthropod ___________ fungal cell walls exoskeletal

VI. Lipids:___________________ compounds that are ________&___________ Waxy, Fatty or oily VI. Lipids:___________________ compounds that are ________&___________ Non-polar Insoluble in water A. Elements: ______ many more H than in a carb. B. Monomer: glycerol & fatty acids C. Function:_____________; _________; _________ D. Where found in body: cell membrane; innermost layer of skin; surrounding some organs Food Source: _______________________ C, H, O, insulation energy storage cushioning butter, shortening, olive oil,

III. Lipids: F. Examples: 1. Fats & Oils a. all have 3 fatty acid tails b. fats _____ at room temperature c. oils ______ at room temperature solid liquid

III. Lipids: F. Examples: 1. Fats & Oils d. _________ fats- no carbon-carbon double bonds e. ___________ fats- at least one carbon-carbon double bonds f. __________ fats linked to heart disease Saturated Unsaturated Saturated

III. Lipids: F. Examples: 2. Phospholipids a. unique lipid b. found in every living _______________ cell membrane

III. Lipids: F. Examples: 3. Steroids a. used for ________ production b. used for ______ cell structure c. Ex. ____________ hormone animal Cholesterol

IV. Proteins C, H, O, N A. Elements: __________ B. Monomer: ___________ 1. only ___ different amino acids combine in different ___________________________ 2. All 20 are ________ except for a portion called the _______ Amino acids 20 Numbers, patterns, & arrangement identical R-group

IV. Proteins Proteins ______ important to its _______ & determined by interactions between R-groups a. Covalent bonds b. Ionic bonds c. Hydrogen bonds d. Van der Waals Forces- similar in principal to H-bonds; intermoleculear ___________ between _________ shape functions attractions non-polar

D. Where found in body: muscles, hair, skin, enzymes Function: support, structure, protection, _______ _________ ________, cell identification & communication D. Where found in body: muscles, hair, skin, enzymes transport, metabolism, hormones

IV. Proteins E. Food Source: __________________ F. Examples: 1. Enzymes a. ___________________ b. ______ chemical reactions c. could not maintain _____________ without them meats, peanuts, eggs Biological catalysts trigger homeostasis

V. Nucleic Acids C, H, O, N, P A. Elements: ____________ B. Monomer: ___________ C. Function: genetic instructions & usable energy D. Where found in body: nucleus of cells E. Food Source: _______ Nucleotide none

V. Nucleic Acids F. Examples: 1. DNA- a. Deoxyribonucleic acid b. Composed of 2 ______ of nucleotides covalently bonded together through dehydration synthesis strands

V. Nucleic Acids c. Twisted together to form a __________ d. contains the ________ instructions for the cell double helix genetic

V. Nucleic Acids F. Examples: 2. RNA- a. Ribonucleic acid b. ______ strand of nucleotides b. __________ the instructions in DNA 3. ATP- a. Adenosine triphosphate b. _______________ b. provides _____________ for the cell Single carries out Single nucleotide useable energy