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Chemistry 121 Winter 17 Introduction to Organic Chemistry and Biochemistry Instructor Dr. Upali Siriwardane (Ph.D. Ohio State) E-mail: upali@latech.edu.

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Presentation on theme: "Chemistry 121 Winter 17 Introduction to Organic Chemistry and Biochemistry Instructor Dr. Upali Siriwardane (Ph.D. Ohio State) E-mail: upali@latech.edu."— Presentation transcript:

1 Chemistry 121 Winter 17 Introduction to Organic Chemistry and Biochemistry Instructor Dr. Upali Siriwardane (Ph.D. Ohio State) Office: 311 Carson Taylor Hall ; Phone: ; Contact me trough if you have questions Online Tests on Following days December 16, 2016: Test 1 (Chapters 12-13) January 23, 2017 : Test 2 (Chapters 14-16) February 10, 2017 : Test 3 (Chapters 17-19) February 22, 2017 : Test 4 (Chapters 20-22) February 23, 2017: Make Up Exam: Chapters 12-22)

2 Chapter 19 and GHW#9 Questions and Slides
Lipids CHEM 121 Winter 2015

3 Chapter 19: Lipids 19.1 Structure and Classification of Lipids, 654
19.2 Types of Fatty Acids, 656 19.3 Physical Properties of Fatty Acids, 659 19.4 Energy-Storage Lipids: Triacylglycerols, 661 19.5 Dietary Considerations and Triacylglycerols, 664 19.6 Chemical Reactions of Triacylglycerols, 669 19.7 Membrane Lipids: Phospholipids, 674 19.8 Membrane Lipids: Sphingoglycolipids, 681 19.9 Membrane Lipids: Cholesterol, 682 19.10 Cell Membranes, 684 19.11 Emulsification Lipids: Bile Acids, 687 19.12 Messenger Lipids: Steroid Hormones, 689 19.13 Messenger Lipids: Eicosanoids, 692 19.14 Protective-Coating Lipids: Biological Waxes, 694 19.15 Saponifiable and Nonsaponifiable Lipids, 697 CHEM 121 Winter 2017

4 Lipids A wide variety of naturally occurring organic compounds classified together on the basis of common solubility properties: insolubility in water insoluble in water CHEM 121 Winter 2017

5 Lipids A wide variety of naturally occurring organic compounds classified together on the basis of common solubility properties: insolubility in water insoluble in water Lipids include Waxes: Esters of long chain fatty acids and alcohols Triglycerides: Fatty acid esters of glycerol Phospholipids: Fatty acid and phosphate esters of glycerol Prostaglandins: structures based on Eicosanoids Glycolipids: structures based on Spingosine cholesterol, steroid hormones, and bile acids fat-soluble vitamins CHEM 121 Winter 2017

6 Lipids Waxes: Esters of long chain fatty acids and alcohols
CHEM 121 Winter 2017

7 Lipids Triglycerides: Fatty acid esters of glycerol
CHEM 121 Winter 2017

8 Lipids Phospholipids: Fatty acid and phosphate esters of glycerol
CHEM 121 Winter 2017

9 Lipids Prostaglandins: structures based on Eicosanoids: Immune response to inflammation: Messenger lipids Eicosanoids CHEM 121 Winter 2017

10 Lipids Glycolipids: structures based on Spingosine
Nervous system insulation CHEM 121 Winter 2017

11 Lipids cholesterol, steroid hormones, and bile acids: Structural and Regulatory CHEM 121 Winter 2017

12 Lipids Fat-soluble vitamins CHEM 121 Winter 2017

13 Lipid Structures CHEM 121 Winter 2015

14 Eicosanoids: Messenger lipids
CHEM 121 Winter 2015

15 Glycolipids based on spingosine
CHEM 121 Winter 2015

16 Lipid classification by function
Protective-coating lipids - biological waxes Energy-storage lipids – A fat or oil, triacylglycerols or triglycerides. Membrane lipids - phospholipids, sphingoglycolipids, and cholesterol Emulsification lipids - bile acids, soaps and detergents Chemical messenger lipids – a) Steroid hormones, b) Eicosanoids, and prostaglandins Fat-soluble vitamins – E.g. Vitamin A, D, E and K CHEM 121 Winter 2015

17 Common Names of Carboxylic Acids

18 Fatty Acids: Lipid Building Blocks
CHEM 121 Winter 2015

19 Fatty Acid Names CHEM 121 Winter 2015

20 Fatty Acids: Lipid Building Blocks
CHEM 121 Winter 2015

21 Polyunsaturated fatty acids: omega-3 and omega-6 fatty acids
CHEM 121 Winter 2015

22 Essential Fatty Acids (EFA).
Fatty acids that cannot be produced by the body and are necessary for proper metabolism. The OMEGA 6 and OMEGA 3 fatty acids are referred to as Essential Fatty Acids (EFA). CHEM 121 Winter 2015

23 Physical Properties of Fatty Acids
CHEM 121 Winter 2015

24 1) Give names of the following types of lipids.
a) Name:____________ b) Name:____________ c) ) Name:____________ d) Name:____________ CHEM 121 Winter 2015

25 1) Give names of the following types of lipids.
e) Name:____________ f) Name:____________ g) Name:____________ h) Name:____________ CHEM 121 Winter 2015

26 1) Give names of the following types of lipids.
i) Name:____________ j) Name:____________ k) Name:____________ CHEM 121 Winter 2015

27 2) Give the type, structure notation and names of the following fatty acids.
CHEM 121 Winter 2015

28 following fatty acids:
3) Draw the condensed structures of each of the following fatty acids: a. Decanoic acid b. Stearic acid c. trans-5-Decenoic acid d. cis-5-Decenoic acid CHEM 121 Winter 2015

29 Esterification of glycerol with three molecules of myristic acid
4) Write an equation for each of the following reactions: Esterification of glycerol with three molecules of myristic acid Base (NaOH) hydrolysis or saponification of glyceryl tristearate CHEM 121 Winter 2015

30 c) Reaction of decanoic acid with KOH
4) Write an equation for each of the following reactions: c) Reaction of decanoic acid with KOH d) Hydrogenation of linoleic acid CHEM 121 Winter 2015

31 Phospholipids CHEM 121 Winter 2015

32 5) What are the structural differences between triglycerides (triacylglycerols) and phospholipids? Where they are found in living organisms? CHEM 121 Winter 2015

33 Spingosine and Spingolipids
CHEM 121 Winter 2015

34 6) What is a sphingolipid? Draw an example.
CHEM 121 Winter 2015

35 Steroids Contains a characteristic arrangement of four cycloalkane rings that are joined to each other. Examples of steroids include the dietary fat cholesterol: CHEM 121 Winter 2015

36 7) What is a steroid? What are their applications?
CHEM 121 Winter 2015

37 8) What are the two major types of fat substitutes and how they work
CHEM 121 Winter 2015

38 How aspirin relieves pain and inflammation?
Aspirin inhibits the production of prostaglandins Concept of COX enzyme inhibition CHEM 121 Winter 2015

39 Acetaminophen (Tylanol)
CHEM 121 Winter 2015

40 Triglycerides and lipoproteins:
high-density (HDL)or (LDL) lipoproteins Lipoprotein particles: chylomicrons Triglycerides transportation in the blood stream CHEM 121 Winter 2015

41 Four major groups of plasma lipoproteins.
1. Chylomicrons 2. Very low-density lipoproteins (VLDL) 3. Low-density lipoproteins (LDL) 4. High-density lipoproteins (HDL) CHEM 121 Winter 2015

42 Triglycerides and lipoproteins:
high-density (HDL)or (LDL) lipoproteins Lipoprotein particles: chylomicrons Triglycerides transportation in the blood stream chylomicron remnant CHEM 121 Winter 2015

43 The roles of HDL, LDL, and cholesterol.
Cholesterol and lipoproteins are related plaque that causes heart attacks and most strokes. When LDL levels are low, atherosclerosis and heart attacks are almost unknown. High HDL levels are associated with a reduced risk of heart disease: "good" cholesterol CHEM 121 Winter 2015

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