BOT01 Lecture 1 PDF

Summary

These notes cover the chemical composition of cells, discussing atomic structure, bonds like covalent and ionic, and hydrogen bonds. The content also includes examples of different elements and molecules.

Full Transcript

9/18/24

Grading System
The minimum requirement for a passing grade is 60% of the total scores from
the following:

Performance Task
Attendance, Assignments, Seatwork, Research / Critique Paper…….... 40%
THE CHEMICAL COMPOSITION OF CELLS
Recitation/Class Participation ………………………………………..…….…..... 15%

Major Examination……………………………………………………...…...….… 30%
Quizzes …………………..…………………………………….…….……………. 15%

Total ………………….………………………………...…………………..…….… 100%

BOT01 Lecture 1
JALindo

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Cells are made from a few types of atoms

The structure of atoms
o Protons, neutrons, electrons etc.
THE CHEMICAL COMPOSITION OF CELLS Atomic weight

Mole

Cells are made of only a small selection of these elements.

BOT01 Lecture 1
JALindo

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How atoms interact: atomic bonds
Electrons are in continuous motion around the nucleus,
following rules of quantum physics.
o They occupy discrete states: electron shell

An atom whose outermost shell is entirely filled with electrons
is especially stable and therefore chemically unreactive.
o Inert gases: Helium (2 electrons), neon (2 + 8), and argon
(2 + 8 + 8)
o Hydrogen: only one electron and only a half-filled shell, is
highly reactive

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Chemical bonds: covalent and ionic

Ionic bonds
formed between ions of opposite
charges
involve transfer of electron

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Chemical bonds: covalent and ionic Polar Covalent / Non-polar Covalent / H Bonds
Non-polar Covalent
When covalently bonded atoms share electrons equally
Covalent bonds Ex: CO2
atoms share electrons Polar Covalent
more stable than ionic bond Electrons are shared unequally between atoms, creating
a polar molecule
Ex: H2O
Hydrogen Bonds
weak bonds important in the chemistry of life
charged regions on water molecules are attracted to the
oppositely charged regions on nearby molecules
Ex: water to water (cohesion)

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Non-covalent interactions help bring molecules
together in cells

Hydrogen bonds

van der Waals attractions

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Cells contain four major families of small organic Carbohydrates: Monomer = Monosaccharide
molecules
Carbohydrates provide an energy source for cells and are the Contain C, H, and O in a 1:2:1 ratio
subunits of polysaccharides
o sugar, starch, cellulose Most end with “ose”

Lipids are components of cell membranes An animal’s main energy source
o wax, fats, oil, steroids
Carbs are burned first in the body
Amino acids are the subunits of proteins
o enzymes, hormones, muscles

Nucleotides are the subunits of DNA and RNA.

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Carbohydrates
Monosaccharides: (C6H12O 6) Disaccharides: (C12H22O 11)
glucose, fructose, galactose sucrose, lactose, maltose

Disaccharides

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glucose monomers connected
by 1-4 linkages.
Carbohydrates
Polysaccharides: (complex carbohydrates)
a. glycogen (carb storage animal liver)
b. starch (carb storage in plants)
c. cellulose (cell walls, cotton)
“roughage” Structural
d. chitin (exoskeletons of arthropods) polysaccharides

monomers are connected by 1-4 linkages,
additional 1-6 linkages occur periodically
and result in branch points

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Lipids: Monomer = Fatty Acids
Mostly C and H atoms linked by nonpolar
covalent bonds

Reserve energy-storage molecules
(burned after carbs are gone)

Insoluble in water (polar)

Soluble in nonpolar solvents (ether)

More energy in lipids than in carbs
9 cal/g Lipid vs. 4 cal/g Carb

Examples: triglycerides, phospholipids,
steroids (cholesterol), waxes, oils, fats

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Lipids: Monomer = Fatty Acids
Triglyceride
3 fatty acids + 1 glycerol

Saturated Fats
all single bonds in chain
solid at room temp (ex: butter, lard)

Unsaturated fats
one or more C=C bond in chain
liquid at room temp (ex: all oils)

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Proteins: Monomer = Amino Acid Proteins: Monomer = Amino Acid
examples of groups of proteins:
Essential to the structures and
activities of life 1. enzymes (amylase, sucrase, maltase,
lactase) –ase ending

Contain C, H, O, N (S, P) 2. structural (collagen, elastin)

3. contractile (actin, myosin)
50% of your dry weight
4. transport (hemoglobin, protein channels)

5. hormones (insulin)

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Amino Acids
Each amino acid has:
An amino group (-NH2)
A carboxyl group (COOH)
An R group, which distinguishes each
of the 20 different amino acids

Each amino acid has specific properties
based on the R-group

Peptide bonds link amino acids together à
polypeptide (protein)

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“sickled” cells

Primary structure Primary structure

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overall three-dimensional
structure of a polypeptide

Tertiary structure

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