Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Organic Compounds
Document related concepts
Plant nutrition wikipedia , lookup
Vectors in gene therapy wikipedia , lookup
Gene expression wikipedia , lookup
Evolution of metal ions in biological systems wikipedia , lookup
Signal transduction wikipedia , lookup
Biosequestration wikipedia , lookup
Point mutation wikipedia , lookup
Deoxyribozyme wikipedia , lookup
Western blot wikipedia , lookup
Microbial metabolism wikipedia , lookup
Fatty acid metabolism wikipedia , lookup
Basal metabolic rate wikipedia , lookup
Protein–protein interaction wikipedia , lookup
Photosynthesis wikipedia , lookup
Two-hybrid screening wikipedia , lookup
Amino acid synthesis wikipedia , lookup
Genetic code wikipedia , lookup
Protein structure prediction wikipedia , lookup
Metalloprotein wikipedia , lookup
Nucleic acid analogue wikipedia , lookup
Biosynthesis wikipedia , lookup
Transcript
Organic Compounds Essential Questions: What is “Organic?” What are the 4 major Organic Compounds? How are they made? What are they used for? What do we already know? Aristotle: Spontaneous Generation Francesco Redi: Covered meat No maggots. Uncovered meat maggots. First strike against Spontaneous Generation Second strike BUT Boiled broth open growth. Lazzaro Spallanzani: Boiled broth sealed no growth. Argued he boiled “life force” Louis Pasteur: Boiled broth, curvy neck no growth. Boiled broth, curvy neck removed growth. He believed that energy from lightning and the Alexander Oparin: sun can spark chemical reactions to create macromolecules like proteins. Spontaneous Generation Disproved! Miller and Urey: Created the basic building blocks of life under conditions that mimicked the conditions of early earth. Sidney Fox: Created and studied coacervates. Organic Molecules make up all organisms What does “Organic” Mean? In Biology, organic means “relating to organisms.” NOT food grown without the use of pesticides, antibiotics, or other industrial chemicals. What do all organic compounds contain? All organic molecules contain covalently bonded Carbon. What does “Organic” Mean? Carbon cycles through all living things through the processes of photosynthesis, cellular respiration, death, and decomposition. We’ll talk more about the Carbon Cycle in a few weeks! Why Carbon is so Awesome... How many bonds/shared electrons can a Carbon atom make? • Carbon can bond to other carbon atoms, which gives carbon the ability to form chains that are almost unlimited in length. • These carbon-carbon bonds can be single, double, or triple. • The chains can be straight, branched, or even ring-shaped. • Therefore, carbon is unique in that it can form millions of different large and complex structures. How are the Four Organic Macromolecules Formed? Polymerization: small units (monomers) are joined together to form large units (polymers.) Dehydration synthesis: joins molecules by removing a molecule of water. Monomer + monomer = Hydrolysis: breaks apart molecules by adding water (the opposite process) What are the four organic molecules? Carbohydrates Proteins We get from food! Lipids Nucleic Acids Resides (stays) in our cells! What is in a cheeseburger? Nutrition Facts (Big ‘N Tasty at McDonalds): Total Fat: 29 grams Saturated Fat: 9 grams Carbohydrates: 41 grams Protein: 24 grams Carbohydrates Which part of the cheeseburger has the most carbohydrates? Carbohydrates • Composed of Carbon, Hydrogen and Oxygen in a 1:2:1 Ratio. • Used for short term energy storage (quick energy!) and structural support • Ending “-ose” = sugar Glucose Cellulose How many sugars? Examples 1 sugar Monosaccharide Monomer Plants: glucose, fructose Animals: galactose (milk) 2 sugars Disaccharide Polymer Plants: sucrose, maltose Animals: lactose (milk) 3+ sugars Polysaccharide Polymer Plants: starch, cellulose Animals: glycogen Monomer + monomer = One sugar = Two sugars = Three or more sugars = Why Carbohydrates? • Many animals store extra sugar as glycogen. – Glycogen stored in your muscles supplies energy for movement. – Glycogen stored in your liver is released when the glucose (sugar) in your blood runs low. • Recall: What is this an example of? – Homeostasis! • Plants store excess sugar as starch. • Plants also make cellulose, a strong, rigid fiber used for support. Starch, cellulose and glycogen are all… Polysaccharides! What other part of the Big N’ Tasty is composed of carbohydrates? Cellulose! Which part of the cheeseburger is the best source of protein? Proteins Proteins are present in every cell, tissue and organ in our bodies. These proteins are constantly being broken down and replaced. Composed of Carbon, Hydrogen, Oxygen, Nitrogen, and Sulfur Provide structure for: cells, bones, muscles, tissues, organs, hormones…most everything in the body! Special Function: Proteins are responsible for cell metabolism (via enzymes) Proteins The protein in the food we eat is digested (broken down) into amino acids that are later used to build and replace other proteins in our bodies. Monomers = amino acids Polymers = proteins The monomers in an amino acid are held together by peptide bonds. Proteins can be destroyed by extreme heat (fever) = denature When the amino acids join, they form a polymer called a polypeptide. Protein Structure Amino acids are the building blocks of proteins. There are 20 essential amino acids. All amino acids have the same Amino group and carboxyl groups, but each amino acid has its own unique R- group. Only 20 amino acids can combine in different arrangements to form all of the many different kinds of proteins in our bodies! Shape is very important; if a protein is not the right shape, it will not work or only have partial function! Which part of the cheeseburger is a source of fat? What is fat? • Fats are a type of lipid. • Lipids are hydrophobic (water-fearing) organic molecule including fats, oils, waxes, phospholipids and steroids. Lipids Long chains with lots of Carbon and Hydrogen (long chains), but little or no oxygen Monomers: 1 glycerol & 3 fatty acid chains Polymer: lipid If we know that lipids (fat) are hydrophobic and take a long time to break down, what could it be useful for?? – – – – – – Long term energy storage Protection Insulation Waterproofing Cell Membranes Chemical Messengers (steroids) Lipids come in two flavors… Saturated: Single Bonds • • • • Unsaturated: Double Bonds Animal Fats Harder to digest Solids at room temperature Holds as many Hydrogen atoms as possible • • • • Vegetable Oils Easier to digest Liquids at room Temperature Does not hold as many hydrogen atoms as possible Your Turn! Make a quick hypothesis to why Unsaturated Fats are easier to break down (thus healthier for you) than Saturated Fats! It is easier for your body to break double bonds than single bonds due to the number of electrons. Aka, it’s easier to steal 1 electron from Carbon when it is sharing two versus just that one! (Like borrowing money!) Common Misconceptions: Lipids – Good & Bad Cholesterol You’ll be amazed at what you find online about the different types of cholesterol! You should check it out! What is a nucleic acid? DNA: Deoxyribonucleic Acid How do nucleic acids relate to the cheeseburger? DNA Is transcribed into RNA, which is then translated into proteins. DNA RNA Proteins! Nucleic Acids • Carbon, Hydrogen, Oxygen, Nitrogen, and two Phosphorus atoms arranged in 3 groups (monomers) • Used for storing and transmitting cellular information in a code called DNA or RNA. Nucleic Acids • Monomer: Nucleotide Nitrogen Base – Nitrogen Base • A, G, C, T or U Phosphate group – 5-Carbon Simple Sugar • Deoxyribose (DNA) • Ribose (RNA) – Phosphate group • Polymer – DNA or RNA Simple Sugar Organic molecules are the building blocks of life They are broken down into monomers, then rebuilt into polymers, then broken down again, then rebuilt again! And so life goes on… Your turn! What kind of macromolecules did you/will you eat today?
