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Transcript
The chemistry of cells: an overview
• Restricted to a subset of known elements, dominated by the
chemistry of carbon…
• Reactions occur over a narrow range of temperatures (0100oC)…
• Dominated by macromolecules and polymers (-X-X-X-X-)…
• Many reactions facilitated by protein catalysts: “enzymes”…
• Chemical reactions are often localized to a specific cell
surface or compartment…
“Strong” and “weak” chemical bonds contribute
to the structure of biomolecules…
• Covalent bonds are strong bonds (50-110 kcal/mol)…
– Covalent bonds are formed when atoms share pairs of electrons…
– -C-C- bonds ~85 kcal/mol…
• Weak “bonds” (<5 kcal/mol)…
–
–
–
–
Ionic bonds (~3 kcal/mol)…
Hydrogen bonds (~1 kcal/mol)…
van der Waals interactions (~0.1 kcal/mol atom)…
Hydrophobic interactions (NA)…
Atoms joined by “covalent”
bonds share electron pairs…
Distance at which attraction and
repulsion are equal is bond length
Opposites attract: ions and ionic bonds…
Weak chemical “bonds” play a significant role in
biomolecules:
Van der Waals interactions…
Hydrophobic interactions…
ECB Fig. 2-32
Summation of many weak
bonds makes a significant
contribution to structure,
stability, and binding
specificity of biological
macromolecules…
Three elements comprise >95%
of the atoms in living cells…
#P
Atomic
number
ECB 2-4
#e-
#N
Mass
%
H
1
1
0
1
~48%
C
6
6
6
12
~24%
N
7
7
7
14
~1%
0
8
8
8
16
~24%
Na
11
11
12
23
<0.5
Mg
12
12
12
24
<0.5
P
15
15
16
31
<0.5
S
16
16
16
32
<0.5
Cl
17
17
18
35
<0.5
K
19
19
20
39
<0.5
Ca
20
20
20
40
<0.5
ECB Fig. 2-4
Valences and bond configurations
for some “biological” elements…
ECB Fig. 2-10
Functional groups common in biomolecules: carbon
atoms form the backbone of many biomolecules…
ECB Panel 2-1
Functional groups common in biomolecules:
compounds of carbon and oxygen or nitrogen…
(hydroxyl group…)
(carbonyl group…)
ECB Panel 2-1
Electronegativity and bonding
Number of electrons in outer shell
1
4
5
6
7
1H
0
2He
2.2
3Li
6C
7N
8O
9F
1.0
2.6
3.0
3.5
4.0
11Na
12Si
15P
16S
17Cl
0.93
1.9
2.2
2.6
3.2
10Ne
18Ar
Electronegativity and bonding
Number of electrons in outer shell
1
4
5
6
7
1H
0
2He
2.2
3Li
6C
7N
8O
9F
1.0
2.6
3.0
3.5
4.0
11Na
12Si
15P
16S
17Cl
0.93
1.9
2.2
2.6
3.2
10Ne
18Ar
Electronegativity decreases as move down a column; ex. O vs S
Electronegativity and bonding
Number of electrons in outer shell
1
4
5
6
7
1H
0
2He
2.2
3Li
6C
7N
8O
9F
1.0
2.6
3.0
3.5
4.0
11Na
12Si
15P
16S
17Cl
0.93
1.9
2.2
2.6
3.2
10Ne
18Ar
Atomic nuclei vary in their
“electronegativity” (the strength of their
attachment to electrons)…
ECB Fig. 2-8
Electronegativity and bonding
Numer of electrons in outer shell
1
4
5
6
7
1H
0
2He
2.2
3Li
6C
7N
8O
9F
1.0
2.6
3.0
3.5
4.0
11Na
12Si
15P
16S
17Cl
0.93
1.9
2.2
2.6
3.2
10Ne
18Ar
Atomic nuclei vary in their “electronegativity” (the strength of their
attachment to electrons)…
•O and N cannot steal electrons… but
“borrow” them from their partners (C and
H)…
d-
C >O
d-
d+
N
H
•Polar covalent bond
d-
C
O
d+
H
“partial” negative charge (d-) on O and N…
d+ on H… allows H-bonding…
Water molecules interact via “Hydrogen bonds”…
Hydrogen (H)-bond
3-4 kcal/mol
0.25-0.35 nm (O to O)
d+
e
Covalent bond
~110 kcal/mol
~ 0.1 nm
-
e
-
d+
d-
Raises B.P.…
Ice floats…
Solubility…
dAdapted from
ECB panel 2-2
Water molecules are
extensively H-bonded…
ECB Panel 2-2
H-bonding affects the solubility of molecules in water…
“Hydrophilic (water loving)”
They are considered
“hydrophilic (water loving)”…
Hydrophobic = water fearing
“Amphipathic” molecules…
contain both hydrophilic and
hydrophobic domains…
ECB panel 2-2
Review: Chemical bonds in cell biology…
Length (nm)
Bond strength
(kcal/mol in water)
0.1-0.2
50-110
Ionic
0.25-0.35
3
Hydrogen
0.25-0.35
1-3
0.3-0.4
0.1
NA
NA
Bond type
Covalent
Non-covalent (weak)
van der Waals
Hydrophobic effect
Acids and bases…
Liquid H2O is
heavily H-bonded…
-log[H+] = pH
Acids increase [H+] and lower pH…
Carboxylic acids donate a proton…
Bases lower [H+] and increase pH…
In pure water
[H+] = 10-7 M
Amino groups accept a proton…
The stuff cells are made of: the approximate
chemical composition of a mammalian cell…
DNA 0.25%
RNA 1.1%
Chemicals
30%
Polysaccharides 2%
Inorganic ions 1%
Misc. small metabolites 3%
General lipids 2%
Phospholipids 3%
Water
70%
Protein 18%
Plant cells - much
more polysaccharide
due to cell wall
Small organic molecules are the building
blocks of biological macromolecules…
Building blocks
Larger units
Sugars
Polysaccharides
Fatty acids
Fats/lipids/Membranes
Amino acids
Proteins
Nucleotides
Nucleic acids
Adapted from ECB 2-15
Condensation reactions = monomer to polymer
Hydrolysis reactions = polymer to monomer
Location of the 4 major groups of
macromolecules:
Polysaccharide = carbohydrate
Small organic molecules are the building
blocks of biological macromolecules…
Building blocks
Sugars
Adapted from ECB figure 2-15
Larger units
Polysaccharides
Monosaccharides:
1
2
3
4
5
6
Invert C4 = galactose…
Invert C2 = mannose…
ECB panel 2-3
Aldehyde (“aldose”)…
or ketone (“ketose”)…
Sugar molecules react with themselves to form rings……
Glucose
(see ECB Panel 2-3)
Rings open and close rapidly in solution
Monosaccharides are linked by “glycosidic
bonds” to form polysaccharides…
Adapted from ECB Fig. 2-17 and
Panel 2-3
Polysaccharides are used for energy
storage and structural support…
ECB Panel 2-3
Glycogen: a(1>4) glucose
with a(1>6) branches
Starch:
Amylose: a(1>4) glucose (unbranched)
Cellulose: b(1>4) glucose (straight chain, unbranched)
(Dietary fiber… most animals cannot digest cellulose)
Next two lectures
• Lipids and membranes…
• Amino acids and proteins…
• Protein structure and function…