Escrito por estudiantes que aprobaron Inmediatamente disponible después del pago Leer en línea o como PDF ¿Documento equivocado? Cámbialo gratis 4,6 TrustPilot
logo-home
Resumen

Summary AP Biology Ultimate Study Guide: Key Concepts, Diagrams, and Exam Strategies

Puntuación
-
Vendido
-
Páginas
56
Subido en
27-04-2026
Escrito en
2025/2026

Master AP Biology with this comprehensive study guide covering essential topics like cell structure, genetics, evolution, ecology, and biological systems. Includes clear explanations, labeled diagrams, practice questions, and proven test-taking strategies to help you succeed on the AP exam and build a strong foundation in college-level biology.

Mostrar más Leer menos
Institución
AP Biology
Grado
AP Biology

Vista previa del contenido

Page 1 AP Biology: 2013 Exam Review




AP BIOLOGY EXAM REVIEW GUIDE
“The price of success is hard work, dedication to the job at hand, and the determination that
whether we win or lose, we have applied the best of ourselves to the task at hand.”

, Page 2 AP Biology: 2013 Exam Review

CONCEPT 1 - BIOCHEMISTRY

1. CHNOPS- most common elements in all living matter

2. Bonds- ionic (transfer electrons), covalent (sharing- polar/unequal sharing and non-polar/equal sharing),
hydrogen (weak bonds between hydrogen and negatively charged items), hydrophobic interactions (how
non-polar compounds congregate together- lipids)

3. pH
a. acid-base/ 0-14, # of H ions determines scale; logarithmic- pH 3 = 10-3 = 1/1000
b. blood- 7.4, stomach- 2, small intestine- 8; enzymes are specific to pH

4. Water properties- polarity, cohesion(attraction to other water molecules), adhesion (attraction to other
charged compounds) low density when frozen, versatile solvent, high heat of fusion/vaporization;
surface tension

5. Organic molecules - monomers are simplest form of all; monomers join together via dehydration synthesis
(loss of water) to make polymers; polymers are broken down via hydrolysis (input of water)
a. Carbohydrates- CHO 1:2:1 ratio, monomer= monosaccharides, 2=disaccharides, 3 or more=
polysaccharides
Used for energy (cell respiration)
Examples
(1) glucose- immediate energy to make ATP
(2) starch- stored energy in plants
(3) glycogen- stored energy in animals (stored in liver)
(4) cellulose- plant cell wall

b. Lipids – C, H, O (not a 1:2:1 ratio) *P only in phospholipids
(1) fats, waxes, oils and sterols
(2) Saturated fats have single bonds between carbons, unsaturated fats have at least one
double bond between carbons (kinky); plants make polyunsaturated; animals make
monounsaturated
(3) Phospholipids make up cell membranes (double layer) and are amphipathic- hydrophilic and
hydrophobic
(4) Uses- in all membranes; stored energy, protection, insulation, myelin sheath of nerves

c. Proteins- C, H, O, N (may have other elements in R group)
(1) Monomer- amino acids (20 total types), 2=dipeptide, 3 or more= polypeptide
(2) Parts of amino acid= carboxyl group (COOH) on one end, amino group on the other end
(NH2), central carbon and variable R group (can be hydrophobic or hydrophilic) which
determines chemical properties.
(3) Protein Folding- shape determines function; primary= a.a. chain; secondary= beta pleated
sheet or alpha helix( hydrogen bonds); tertiary=globular; folds in on itself (disulfide bridges,
hydrogen bonds, hydrophobic interactions; ionic bonding); quartenary= more than one
polypeptide.
(4) Uses- protein carriers in cell membrane, antibodies, hemoglobin, enzymes, most hormones

, Page 3 AP Biology: 2013 Exam Review

d. Nucleic acids – C, H, O, N
(1) Monomer= nucleotide, 2 = dinucleotide, 2 or more polynucleotide
(2) Nucleotide made up of sugar, phosphate and base
(3) Used to store genetic information
(4) DNA is double stranded, has deoxyribose, A, G, C, T
(5) RNA is single stranded, has ribose, A, G, C, U
(6) mRNA- copies genetic message; rRNA- attaches mRNA and makes up ribosomes (most
common);tRNA- carries amino acids; DNA- carries genetic code

6. Enzymes
a. Biological catalysts (made of protein) that speed up rate of chemical reactions by lowering
activation energy required for reaction to occur
b. Enzyme has active site (exposed R groups) where reaction occurs
c. Enzymes can break down substance (catabolic reaction) or build up substances (anabolic)
d. Enzyme/substrate complex is formed
e. Substrate is what enzyme acts on
f. Rate is determined by collisions between substrate and enzyme
g. Ends in –ase, named after substrate often
h. Enzyme is specific to substrate; the substrate must be complementary to the surface properties
(shape and charge) of the active site (which is made up of R groups with specific chemistry, i.e.
hydrophobic).
i. Enzyme rate is affected by:
pH (optimal for each enzyme),
temperature (optimal for each enzyme but in general increased temp means increased
collisions so rate goes up initially; too much heat can denature enzyme), enzyme
concentration (more enzyme faster rate or vice versa)
substrate concentration (more substrate faster rate; vmax is fastest enzyme can work when
saturated)
j. Inhibition-competitive inhibition (something competes for active site; can be overcome with more
substrate)
k. Non-competitive inhibition- attaches at allosteric site and changes shape of enzyme so it is not
functional; can not be overcome with more substrate
l. Coenzymes (organic; NAD and vitamin B etc.) and cofactors (inorganic; zinc, magnesium etc.)
interact with enzymes to put them into the right structure to do work.

Vocabulary
active site denaturation non-polar molecule
allosteric site disaccharide nucleic acid
amino acid hydrogen bond nucleotide
amphipathic hydrophilic organic molecule
anabolic hydrophobic peptide bond
carbohydrate ion polar molecule
carbon lipid polymer
catabolic macromolecule protein
catalyst monomer substrate
coenzyme monosaccharide water

, Page 4 AP Biology: 2013 Exam Review

Thinking Practice
1. If the following molecules were to undergo a dehydration synthesis reaction, what molecules would
result? Circle the parts of each amino acid that will interact and draw the resulting molecule.




2. Construct a bar graph that displays the relative amounts of hydrogen, carbon, oxygen, and nitrogen in
each of the four types of macromolecules (carbohydrates, lipids, proteins, nucleic acids).




3. Describe the relationship between substrate concentration and reaction rate shown in the graph below and
propose an explanation for it.

Escuela, estudio y materia

Institución
AP Biology
Grado
AP Biology

Información del documento

Subido en
27 de abril de 2026
Número de páginas
56
Escrito en
2025/2026
Tipo
RESUMEN

Temas

$8.49
Accede al documento completo:

¿Documento equivocado? Cámbialo gratis Dentro de los 14 días posteriores a la compra y antes de descargarlo, puedes elegir otro documento. Puedes gastar el importe de nuevo.
Escrito por estudiantes que aprobaron
Inmediatamente disponible después del pago
Leer en línea o como PDF

Conoce al vendedor
Seller avatar
StudySessions1011

Conoce al vendedor

Seller avatar
StudySessions1011 University of California
Seguir Necesitas iniciar sesión para seguir a otros usuarios o asignaturas
Vendido
1
Miembro desde
3 meses
Número de seguidores
1
Documentos
109
Última venta
2 meses hace
The Q.E.D. Vault: Precision Math & Stats Guides

Welcome to my shop! I’m a Senior Math major with a 3.9 GPA, and I specialize in turning complex, "textbook-heavy" theory into actionable exam prep. Why my guides stand out: LaTeX Formatted: No messy handwriting. All equations are crystal clear and professionally typed. Step-by-Step Logic: I don't skip steps. I explain the "why" behind every derivation and proof. Exam-Focused: I include "Pro-Tips" on common tricks professors use to catch students off-guard. Subject Expertise: High-quality summaries for Calculus I-III, Linear Algebra, Discrete Math, and Probability. My goal is to save you hours of scratching your head over a textbook so you can walk into your midterms with total confidence. Check out my bundles for the best value!

Lee mas Leer menos
0.0

0 reseñas

5
0
4
0
3
0
2
0
1
0

Por qué los estudiantes eligen Stuvia

Creado por compañeros estudiantes, verificado por reseñas

Calidad en la que puedes confiar: escrito por estudiantes que aprobaron y evaluado por otros que han usado estos resúmenes.

¿No estás satisfecho? Elige otro documento

¡No te preocupes! Puedes elegir directamente otro documento que se ajuste mejor a lo que buscas.

Paga como quieras, empieza a estudiar al instante

Sin suscripción, sin compromisos. Paga como estés acostumbrado con tarjeta de crédito y descarga tu documento PDF inmediatamente.

Student with book image

“Comprado, descargado y aprobado. Así de fácil puede ser.”

Alisha Student

Preguntas frecuentes