1. Biochemistry and the Organization of Cells Chapter 1

2. Levels of Structural Organization in the Human Body

3. Why is study of Biochemistry important? Biochemistry describes life processes Multidisciplinary nature allows it use other sciences to answer questions about molecular nature of life processes Some biomolecules act in multiple ways and some take part in specific series of reactions More complex cells are found in larger organisms than simpler organisms

4. How is Biochemistry related to Organic Chemistry? Organic Chemistry is study of compounds of carbon and hydrogen and their derivatives Biomolecules are made up of carbon Many carbon compounds are not found in any organism Biomolecules of life can be synthesized in laboratories (synthesis of urea from ammonium cyanate by Friedrich Wohler in 1828)

5. Functional group:Functional group: an atom or group of atoms that shows characteristic physical and chemical properties

6. What makes biomolecules special? Biomolecules have important functional groups Emphases of functional groups differ in Organic chemistry (alkyl halides and acyl chlorides) and in Biochemistry (carbonyl groups, hydroxyl groups, carboxyl groups, amines, amides and esters). Derivatives of phosphoric acid such as esters and anhydrides are also important ( in Biochemistry ) ATP contains both ester and anhydride linked by phosphoric acid (in Biochemistry) (figure 1.2)

7. How and when did the Earth come to be? Big bang theory explains the origin of earth – formed from matter Due to explosion (released Hydrogen, Helium and some Lithium), temperature of Universe raised to (15 billion K) Decrease in temperature led to formation of stars and planets Rest of chemical elements i) by thermonuclear reactions that take place in stars, ii) in explosions of stars, iii) by the action of cosmic rays outside the stars

8. How did elements arise from stars? Age of earth – 4 to 5 billion years ago Second generation of stars formed from supernovas – led to formation of sun Atmosphere of earth is always been debated Existence of Co2 from 3.8 billion years N2 in atmosphere – source for formation of proteins and nucleic acids

9. How were biomolecules likely to have formed on the early earth? Miller-Urey experiment Occurred in earth’s early ocean Occurred on early earth’s clay particles Simple compounds can react (polymerize) abiotically to produce biologically important components of proteins and nucleic acids

11. Formation of biomolecules on early earth HCN present in nucleic acids and HCHO present in sugars

12. Biomolecules Living cells include very large molecules, such as proteins, nucleic acids, polysaccharides, and lipids –these biomolecules are polymers (Greek: poly + meros, many + parts) –they are derived from monomers (Greek: mono + meros, single + part) --amino acids --> proteins --nucleotides --> nucleic acids --monosaccharides --> polysaccharides --glycerol and 3 fatty acids --> lipids

13. Informational Macromolecules

14. How is cellular activity determined? Enzymes:Enzymes: a class of proteins that are biocatalysts –the catalytic effectiveness of a given enzyme depends on its amino acid sequence Genetic code:Genetic code: the relationship between the nucleotide sequence in nucleic acids and the amino acid sequence in proteins

15. Which came first – the catalysts or the hereditary molecules? Cellular activity depends upon presence of catalysts and its synthesis by genetic code Discovery of enzyme ‘Ribozyme’ – RNA RNA has both catalytic and genetic coding properties Life originated from RNA Peptide bond formation is catalyzed by RNA portions of Ribosome

16. Stages in the Evolution of Self-replicating RNA Molecules

17. Vital importance of a cell membrane in origin of life

18. Assignment 1 Write down the structure and function of all organelles in eukaryotes.

19. Differences between prokaryotes and eukaryotes Prokaryotes – before nucleus and absence of membrane bound organelles DNA is present in nuclear region and not separate from the cell Plasma membrane is present surrounding the cell Eukaryotes – true nucleus and presence of membrane bound organelles DNA is well defined

20. Differences between prokaryotes and eukaryotes Mitochondria is absent and enzymes for oxidative reactions are located on plasma membrane Endoplasmic reticulum is absent Ribosomes are found freely floating in cytosol Chloroplasts are absent. Photosynthesis takes place in chromatophores which are extensions of plasma membranes Plasma membrane is present surrounding the cell Mitochondria is present Endoplasmic reticulum is present Ribosomes are bound to Endoplasmic reticulum Chloroplasts present in plants and absent in animals

21. Some more points Polysaccharide cellulose present in prokaryotic and eukaryotic cell walls (plant cells only) Some protists and all animal cells lack cell walls and chloroplasts Three important organelles – nucleus, mitochondria and chloroplast – separated from rest of the cell by double membrane Mitochondria and chloroplasts contain DNA- carry out transcription and protein synthesis

22. Five Kingdom classification of living organisms Prokaryotes Kingdom: Monera Bacteria and Cyanobacteria are members Unicellular Eukaryotes Kingdom: Protists, Fungi, Plants and Animals Unicellular protists are Euglena, Volvox, Amoeba and Paramecium Multicellular protists are algae Fungi, plants and animals are multicellular Fungi like yeasts and molds are unicellular

23. Three Kingdom classification of living organisms Bacteria and Archaea form prokaryotes Eukarya forms eukaryotes Bacteria (true bacteria) and Archaea (early bacteria) have different biochemical features – molecular structure of cell walls, membranes and some types of RNA Archaebacteria live in extreme environments – extremophiles – Methanogens, Halophiles and Thermoacidophiles

24. Did symbiosis play a role in development of eukaryotes? Theory of Endosymbiosis Proposal that eukaryotic organelles evolved through a symbiotic relationship One cell engulfed a second cell and a symbiotic relationship developed Mitochondria and chloroplasts are thought to have evolved this way

25. Evidence for Endosymbiosis Mitochondria and chloroplasts: -have 2 membranes -possess DNA and ribosomes -are about the size of a prokaryotic cell -divide by a process similar to bacteria

26. What is thermodynamics? Sun is ultimate source of energy on earth Energy released or absorbed can be measured in Biochemistry Energy is converted from one form to another Thermodynamics deals with changes in energy that determine whether a process will take place Spontaneous reactions will take place without outside intervention

27. How can we predict what reactions will happen in living cells? Spontaneity of reaction at a given temperature and pressure is decided by changes in free energy (ΔG) ΔG is negative, ΔG<0, spontaneous reaction, energy will be released ΔG is positive, ΔG>0, reaction is not spontaneous, energy will be required ΔG=0, reaction is in equilibrium

28. Is life thermodynamically possible? Free energy: the energy available to do work -denoted by the symbol G (Gibb’s free energy) enthalpy: energy contained in a molecule’s chemical bonds free energy = enthalpy – (entropy x temp.) G = H - TS

29. Laws of Thermodynamics First Law of Thermodynamics – energy cannot be created or destroyed -energy can only be converted from one form to another For example: sunlight energy chemical energy photosynthesis

30. Is life thermodynamically possible? In spontaneous reactions entropy of universe is always increasing Living organisms (local decreases) can reduce entropy with an increase in entropy of surroundings

31. Laws of Thermodynamics Second Law of Thermodynamics: disorder is more likely than order entropy: disorder in the universe The 2 nd Law of Thermodynamics states that entropy is always increasing.

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