Why are C, H, O, and N chemically re-active and can interact with one another?
- They are all Chemically reactive since they require an addition of electrons to complete their orbitals
- The stable covalent bonds are relatively weak, making and breaking in living systems is possible, generating new types of molecules and also energy.
Why are these Abundant Elements used
in living systems
for Complexity and Diversity
Unique properties of Water:
1-It Clings to itself (Capillary force—transpiration)
2- High Heat of Vaporation (can cool down by evaporation)
3- Forms a solid less dense then its liquid—bodies of water can thaw
4- High Specific heat- water is a relatively stable environment (takes alot to change the temp)
5-It is a GOOD SOLVENT-(many compounds can dissolve in water, breaking apart ionic bonds between molecules/atoms.
COVALENT BOND:
Sharing of electrons between 2 atoms
-vary in strength based on # of electrons being shared
Geometries:
- 2-sp linear 180 degrees
- 3-sp2 trigonal planar 120 degrees
- 4- sp3 tetrahedral 109.5 degrees
IONIC BONDS:
Transfer of Electrons
-Can be weakened by interactions with water and other charged molecules.
Ionic Electrostatic Interactions are important in biologica systems, since its easy to make and break the interactions between the enzyme (-) and the substrate (+)
Why is it important that water is a polar molecule , to the cell function and life?
- Excellent Solvent
- Allows ease of movement through biological membranes
- Takes place in many chemical reactions
- thermal properties are suitable to support life
Explain why cellular pH and ionic conditions must be maintained at constant values.
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How do Ionic bonds contribute to macro-molecular interactions.?
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Discuss the relative strengths of covalent, ionic, hydrogen, and van der Waals bonding.
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Compare the stability of covalent and ionic bonds in an aqueous environment.
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Explain the difference between a polar and nonpolar covalent bond:
- POLAR:
- The Distribution of electrons is UNEQUAL between the atoms
- They are Hydrophillic (soluble in water)
- The positive charge is concentrated towards one end.
- NON-POLAR:
- The distribution of electrons is EQUAL between the atoms
- They are hydrophobic, and insoluble in water
Why is a polar covalent bond important in molecular interactions?
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Name polymers formed from glucose, amino acids, and nucleotides.
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Explain how two monosaccharides can be joined together to form a disaccharide, and polysaccharide.
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List the ways in which different polysaccharides can be generated
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Draw a generalized carbohydrate
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Identify the different “parts” of a triglyceride and phospholipid.
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Explain what is meant by amphipathic molecule:
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Explain the concept of a protein domain and provide an example:
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Draw a tri-peptide and show both peptide bonds..
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Explain the molecular interactions involved in generating an alpha- helix within a polypeptide chain. (B-sheet)
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Explain how the sequence of AA’s determine the 3’D structure of a protein:
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Explain how a phospholipid is both polar and nonpolar:
The phospholipid bilayer in cell membranes is both polar and nonpolar. The heads, which face the outside and inside of the cell, are polar. Thus they form hydrogen bonds with the water outside of the cell and the cytoplasm inside the cell. They are called “hydrophilic,” which means they love water. The tails are on the inside of the bilayer and are nonpolar. They are hydrophobic, which literally means they are scared of water.
Provide an explanation for why lipids will form a micelle or bilayer in water:
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