UNIT A: Cell Biology Chapter 2: The Molecules of Cells: Sections 2.1, 2.2 Chapter 3: Cell Structure and Function Chapter 4: DNA Structure and Gene Expression.

Slides:

Advertisements

Similar presentations

Biochemistry 2.1. Matter Chemical changes in matter are essential to all life processes. Matter: Anything that occupies space and has mass. Mass: The.

Advertisements

Introduction to Biochemistry Review of Chemistry.

CHAPTER 2 CHEMISTRY & LIFE Organisms are composed of matter.Organisms are composed of matter. Matter takes up space and has mass. Matter takes up space.

The Chemical Context of Life Chapter 2. Matter  Matter consists of chemical elements in pure form and in combinations called compounds; living organisms.

Atoms and Molecules Nestor T. Hilvano, M.D., M.P.H.

THE CHEMISTRY OF LIFE I: ATOMS, MOLECULES, AND BONDS

2.1 Chemical Elements Chemistry as it related to biology.

The Chemical Context of Life chapter 2. 2 Energy & Matter Universe is composed of 2 things …… Universe is composed of 2 things …… Energy Energy  Ability.

the dirty little secret about Biology

Chemical Foundations for Cells Chapter 2. You are chemical, and so is every living and nonliving thing in the universe. You are chemical, and so is every.

The Chemical Context of Life Chapter 2. MATTER CONSISTS OF CHEMICAL ELEMENTS AND COMBINATIONS CALLED COMPOUNDS.

Life’s Chemical Basis Chapter Regarding The Atoms Fundamental forms of matter Can’t be broken apart by normal means 92 occur naturally on Earth.

Chapter 2 The Chemical Basis of Life

ESCS Review. Composition of Matter (Review) Matter – anything that takes up space and has mass. Mass – the quantity of matter an object has (the same.

Chemistry in Biology. 1. What is Matter? (Reading 2.1) Matter is everything that takes up space and has mass Every matter is made up of atoms of one of.

The Chemistry of Life. Section 2.1 Atoms The basic unit of matter are atoms. 100 million atoms would make a row only about 1 cm long! Consists of subatomic.

The Nature of Molecules Chapter 2. 2 Atomic Structure All matter is composed of atoms. Understanding the structure of atoms is critical to understanding.

1 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 2 Chemistry of Life Lecture Outline Part 1 Human.

Chapter 2 The Chemical Context of Life Students get a book from the counter or from under the TV add your book number to the student info sheet turn in.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings Chapter 2 The Chemical Context of Life.

CAMPBELL BIOLOGY Reece Urry Cain Wasserman Minorsky Jackson © 2014 Pearson Education, Inc. TENTH EDITION CAMPBELL BIOLOGY Reece Urry Cain Wasserman Minorsky.

Atoms, Elements, & Compounds Biology II D. Mitchell.

Chapter 2: Chemical Context of Life Atoms and Molecules.

Ba 2 Si 3 CCHe 2 mistry. Introduction Laws of chemistry govern the structure and function of all living things!

Atoms, Elements. Atoms Protons Neutrons Electrons Contain 3 particles.

The Chemical Basis of Life. Element Functions Carbon: ………….backbone of organic molecules Hydrogen + Oxygen………components of water Nitrogen ……………….....

Biology I Chapter 2-1 Of Atoms and Molecules: Chemistry Basics.

The Chemical Context of Life A.Atomic structure B.The periodic table C.Chemical bonding D.Important elements in living organisms.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings PowerPoint ® Lecture Presentations for Biology Eighth Edition Neil Campbell.

 Matter ◦ Organisms are composed of matter ◦ Matter is anything that takes up space and has mass ◦ Matter is made up of elements.

What is Chemistry? -the study of the composition and reactions of matter. What is matter? What are the states of matter? What is matter composed of?

Bio 178 Lecture 2 The Nature of Molecules. Reading Chapter 2 Quiz Material Questions on P 34 Chapter 2 Quiz on Text Website (

Chemistry of Life Chapter 2. Chemical Elements 2.1.

Fig Fig. 2-2a Cedrela sapling Duroia tree Inside, unprotected Devil’s garden Inside, protected Insect barrier Outside, unprotected Outside, protected.

Chapter 6.1 Biology. Intro to the Chemistry Your life DEPENDS on chemistry! 1.When you inhale oxygen, your body uses it in chemical reactions! 2.When.

The Chemical Basis of Life

Chapter 2 The Chemical Context of Life. 1.What is an atom? –Smallest unit of matter that retains the physical & chemical properties of its element –Element.

CHAPTER 2 The Chemical Context of Life. 2.1 Matter is made of elements and compounds.  Organisms are composed of matter - anything that takes up space.

CHAPTER 2 The Chemical Basis of Life

The Nature of Matter Chapter 2 Section 1. Objectives  Identify the three subatomic particles found in atoms  Explain how all of the isotopes of an element.

Copyright © 2005 Pearson Education, Inc. Publishing as Benjamin Cummings PowerPoint Lectures for Biology: Concepts and Connections, Fifth Edition – Campbell,

Essential Chemistry for Biology. Matter is made of atoms.

BASIC CHEMISTRY Honors Biology. Recall: Levels of Organization.

Chapter 2 Review Big Ideas You Should Know. Concept 2.1: Matter consists of chemical elements in pure form and in combinations called compounds Organisms.

Matter and Energy  Matter—anything that occupies space and has mass (weight)  Energy—the ability to do work  Chemical  Electrical  Mechanical  Radiant.

Chapter 2 Of Atoms and Molecules: Chemistry Basics.

AP Biology The Chemistry of Life Chapter 2 AP Biology Pre Assessment 1. Name the 3 parts of an atom and their locations in an atom 2. What subatomic.

Inquiry into Life Twelfth Edition Chapter 2 Lecture PowerPoint to accompany Sylvia S. Mader Copyright © The McGraw-Hill Companies, Inc. Permission required.

The Chemical Context of Life Chapter 2 Biology – Campbell Reece.

1 Chapter 2A The Chemical Context of Life Aim: Why is chemistry so important in the living world? Do Now: Describe a chemical reaction that occurs in the.

1.4 Chemistry Basics Part I SBI3C Mrs. Jones. Chemistry Basics  Biology is the study of living things  All living matter is composed of chemical substances.

Chapter 2 The Chemical Context of Life.. Elements and Compounds Matter is made up of elements An element is a substance that cannot be broken down to.

Chapter # 2 – The Chemistry of Life I. The Nature of Matter -Life depends on Chemistry….Chemical reactions in our body keep us alive & all things are made.

CHEMISTRY The Building Blocks of Biology. Matter Anything that has mass and occupies space. Solid, Liquid, Gas.

The Chemistry of Life Or Biochemistry Atoms, Molecules, Compounds, Chemical Bonds.

BASIC CHEMISTRY I thought this was biology? Objective: 1.To Understand what causes chemical bonds 2.To be able to read an equation 3.To Understand polarity.

1 Chemical Foundations for Cells Chapter 2. 2 Chemical Benefits and Costs Understanding of chemistry provides fertilizers, medicines, etc. Chemical pollutants.

Section Objectives: Relate the structure of an atom to the identity of elements. Relate the formation of covalent and ionic chemical bonds to the stability.

Chapter 2 Basic Chemistry.

Organisms are composed of matter

The Chemical Context of Life

The Chemical Context of Life

Inquiry into Life Twelfth Edition

Essential Elements of Life

The Chemical Context of Life

Chemistry Review Chapter 2

The Chemical Context of Life

Basic Chemistry Ch. 2.

Chapter 2: The Chemical Context of Life

Presentation transcript:

UNIT A: Cell Biology Chapter 2: The Molecules of Cells: Sections 2.1, 2.2 Chapter 3: Cell Structure and Function Chapter 4: DNA Structure and Gene Expression Chapter 5: Metabolism: Energy and Enzymes Chapter 6: Cellular Respiration Chapter 7: Photosynthesis

In this chapter, you will learn how basic chemistry is used in biology. What life processes might be affected by a problem with protein structure? How are biological molecules involved in energy use in the body? UNIT A Chapter 2: The Molecules of Cells TO PREVIOUS SLIDE Chapter 2: The Molecules of Cells

2.1 Basic Chemistry Matter—anything that takes up space and has mass—consists of chemical elements, which are composed of atoms. Only 92 naturally occurring elements serve as the building blocks of all matter. The primary elements in Earth’s crust are Si, Al, and O The primary elements in organisms are O, N, C, and H; with S and P, these elements make up biological molecules. UNIT A Chapter 2: The Molecules of Cells Section 2.1 TO PREVIOUS SLIDE Figure 2.1 Elements that make up Earth’s crust and its organisms.

Atomic Structure Sub-atomic particles that make up atoms include protons (in the nucleus, positive charge) electrons (in the nucleus, uncharged) neutrons (shell surrounding the nucleus, negative charge) UNIT A Chapter 2: The Molecules of Cells Section 2.1 TO PREVIOUS SLIDE Figure 2.2 Model of helium (He).

All atoms of an element have the same number of protons, called the atomic number. Each atom has its own mass number. mass number = number of protons + number of neutrons Carbon is represented by the symbol C. UNIT A Chapter 2: The Molecules of Cells Section 2.1 TO PREVIOUS SLIDE Atomic Structure

Isotopes Isotopes are atoms of the same element that have the same number of protons but different numbers of neutrons, and, therefore, a different mass number. UNIT A Chapter 2: The Molecules of Cells Section 2.1 TO PREVIOUS SLIDE These are different isotopes of carbon. Unstable isotopes change over time into stable isotopes, releasing various types of energy in the form of rays and subatomic particles during the process. These are called radioactive isotopes.

Radioactivity Radioactive isotopes have different uses, depending on their level of radioactivity. Low radiation levels: Because these isotopes have the same chemical behavior as stable isotopes, they can be used as tracers in medical testing and imaging. Figure 2.3 a Low levels of radiation. The missing area in this thyroid scan indicates the presence of a tumour that does not take up the radioactive iodine. UNIT A Chapter 2: The Molecules of Cells Section 2.1 TO PREVIOUS SLIDE

High Levels of Radioactivity High radiation levels: Because radiation can damage cells, it can be used for sterilizing medical and dental products. UNIT A Chapter 2: The Molecules of Cells Section 2.1 TO PREVIOUS SLIDE Figure 2.4b High levels of radiation. Physicians use radiation therapy to kill cancer cells. Radiation can also damage DNA and cause cancer, however its ability to kill cells can be applied to cancer cells.

UNIT A Chapter 2: The Molecules of Cells Section 2.1 TO PREVIOUS SLIDE Check Your Progress 1.Explain why the key elements in Earth’s crust would differ from those present in living organisms. 2.Explain how radiation can be both beneficial and harmful to humans. 3.Explain the differences between oxygen 16 and oxygen 18.

UNIT A Chapter 2: The Molecules of Cells Section 2.1 TO PREVIOUS SLIDE

2.2 Molecules and Compounds When atoms of two or more different elements bond together, a compound forms. Two types of bonds that form are ionic bonds: electrons transfer between atoms to form ionic compounds covalent bonds: electrons are shared between atoms to form molecules Molecules also form when two or more of the same atom are covalently bonded (e.g., H 2, O 2, O 3 ). UNIT A Chapter 2: The Molecules of Cells Section 2.2 TO PREVIOUS SLIDE

Ionic Bonding UNIT A Chapter 2: The Molecules of Cells Section 2.2 TO PREVIOUS SLIDE Figure 2.5 Formation of sodium chloride (table salt) Ions are charged particles that form when electrons transfer from one atom to another. For example, Na donates electrons and Cl accepts electrons Ionic compounds are held together by attraction between the positive and negative ions, called an ionic bond. Biologically important ions include Na +, Cl −, and K +.

Covalent Bonding UNIT A Chapter 2: The Molecules of Cells Section 2.2 TO PREVIOUS SLIDE Figure 2.6a, b, and c Covalently bonded molecules. A covalent bond forms when two atoms share electrons. A common way to show a covalent bond is a line between atoms (a) A double covalent bond is two shared pairs of electrons (b) A triple covalent bond is three shared pairs of electrons (c)

All molecules have three-dimensional shapes. Molecules consisting of two atoms are always linear. Molecules such as methane, with five atoms and four single covalent bonds, have a tetrahedral shape. Three-dimensional shapes of biological molecules are related to their structural and functional roles. Figure 2.6d Covalently bonded molecules. UNIT A Chapter 2: The Molecules of Cells Section 2.2 TO PREVIOUS SLIDE Shapes of Molecules

Nonpolar and Polar Covalent Bonds When sharing of electrons between atoms is equal, the bond is a nonpolar covalent bond. (All bonds on the previous figure are nonpolar.) In some compounds, such as water, the sharing is not equal. Oxygen has greater electronegativity than hydrogen (it attracts electrons to a greater extent). Unequal sharing of electrons results in a polar covalent bond. The more electronegative atom will have a partial negative charge; the other atom will have a partial positive charge. UNIT A Chapter 2: The Molecules of Cells Section 2.2 TO PREVIOUS SLIDE Figure 2.7a Water molecule.

Hydrogen Bonding Polarity within a water molecule causes hydrogen atoms of one molecule to be attracted to the oxygen atom of another molecule. This attraction is called a hydrogen bond. Hydrogen bonds are weaker than ionic and covalent bonds and are often represented as a dotted line. Many hydrogen bonds can collectively be very strong. Hydrogen bonding occurs in many biological molecules, which have polar covalent bonds between hydrogen and oxygen or nitrogen. UNIT A Chapter 2: The Molecules of Cells Section 2.2 TO PREVIOUS SLIDE Figure 2.7b Water molecule.

UNIT A Chapter 2: The Molecules of Cells Section 2.2 TO PREVIOUS SLIDE Check Your Progress 1.Explain whether carbon dioxide (CO 2 ) and nitrogen gas (N 2 ) are considered to be molecules, compounds, or both. 2.Explain why hydrogen ions form polar bonds that have a partially positive charge.

UNIT A Chapter 2: The Molecules of Cells Section 2.2 TO PREVIOUS SLIDE