Biology Chapter 1-3 PDF

Summary

This document details the branches of biology, including botany, zoology, and microbiology. It also outlines the work of some notable biologists and the basics of biological concepts.

Full Transcript

BIOLOGY
study of life and living organisms
bios: life | logos: study
unified science of life

CELL
basic unit of life

GENES
basic unit of heredity
DNA or RNA

FACTS ABOUT LIVING ORGANISMS
a stable internal environment is found in them
evolution is responsible for the unity and diversity among them
they survive by energy absorption and conversion

BRANCHES OF BIOLOGY
1. BOTANY
study of plants
MYCOLOGY: study and research of fungi
o FUNGI: cannot make their food and has a role in nutrient cycling
PHYCOLOGY: study of algae
o ALGAE: aquatic living beings who can perform photosynthesis
PLANT PHYSIOLOGY: deals with physiology and functioning of plants
PALYNOLOGY: study of pollens
PHYTOPATHOLOGY: study of plant diseases
PLANT PHYSIOLOGY: concerned with the functions of parts of plants
ASTROBOTANY: study of plants in space
2. ZOOLOGY
study of animals
CARCINOLOGY: study of crabs and crustaceans
ETHOLOGY: study of animal behaviors
ENTOMOLOGY: study of insects and arthropods
HERPETOLOGY: study of reptiles and amphibians
ICHTHYOLOGY: study of fishes
MALACOLOGY: study of mollusks
MAMMALOGY: study of mammals
ORNITHOLOGY: study of birds
3. MICROBIOLOGY
study of microorganisms
PARASITOLOGY: studies parasitic organisms
 VIROLOGY: study of viruses
BACTERIOLOGY: study of bacteria
4. ANATOMY
studies the structure and the parts of organisms
5. TAXONOMY
deals with categorizing and naming different organisms
6. PHYSIOLOGY
studies the normal functions of various parts of living organisms
7. THEORETICAL BIOLOGY
an interdisciplinary field of scientific research with applications in medicine,
biology, and biotechnology
8. CELL BIOLOGY
talks about the structure and function of the cell
9. GENETICS
study of genes, genetic variations, and principles of heredity
10. ECOLOGY
study of the interaction of living organisms with one another and physical
environment
11. EVOLUTION
study of heritable changes and diversification over multiple generations
12. BIOCHEMISTRY
intersection of biology and chemistry
studies various chemical and physicochemical processes
13. BIOPHYSICS
deals with the application of the laws of physics to biological occurrences
14. MOLECULAR BIOLOGY
deals with the structure of proteins and nucleic acids and the functions
15. STRUCTURAL BIOLOGY
studies the molecular structure of biological macromolecules
16. BIOTECHNOLOGY
exploitation of biological processes for the production of hormones,
antibodies
17. IMMUNOLOGY
concerned with immunity
18. MARINE BIOLOGY
study of the behavior and interactions of life forms and marine creatures with the
ocean
19. PHOTOBIOLOGY
study of the interactions of living organisms with light
20. RADIOBIOLOGY
study of the action of ionizing radiation on living beings and their health effects
21. NEUROBIOLOGY
studies the biology of the nervous system
 22. PALEONTOLOGY
uses fossils to study life’s history
23. FORENSIC SCIENCE
application of science to answer questions related to the law
FORENSIC SCIENTISTS
o provide scientist evidence for use in courts
o examine trace materials associated with crimes
o analyze other biological evidence left at crime scenes

BIOLOGY PIONEERS
1. ARISTOTLE
father of biology
studied all the aspects of life and its origin
ARISTOTLE’S BIOLOGY THEORY: 5 MAJOR BIOLOGICAL PROCESSES
o temperature
o metabolism
o regulation
o inheritance
o embryogenesis and information processing
2. GREGOR MENDEL
father of genetics
studies on pea plant that established many rules of heredity and a better
understanding of crossbreeding in animals and plants
3. CHARLES DARWIN
theory of evolution by natural selection
o species change over time
o give rise to new species
o share a common ancestor
evolution is descent with modification
4. ANTON VAN LEEUWENHOEK
father of microbiology
pioneer of microscope and discovery of microbes
used magnifying glass to better judge the quality of threads
5. JOSEPH LISTER
father of modern surgery
pioneer of antiseptic surgery
introduced the use of carbolic acid to clean wounds and sterilize surgical
instruments, which led to a reduction of post-operative infections prior to the
acceptance of germ theory
6. LOUIS PASTEUR
also, a father of microbiology
discovered the causes of diseases and preventing their spread
invented pasteurization
 o treats liquids to prevent bacterial contamination

CHARACTERISTICS OF LIFE
1. ADAPTATION THROUGH EVOLUTION
the genetic makeup of a population may change over time
living organisms adapt to the external environment, change their heritable traits,
and prepare future generations for more efficient life processes.
2. CELLULAR ORGANIZATION
living things contain specialized, coordinated parts
ORGANISM
o cell – tissue – organ – being
o living thing with organ systems
UNICELLULAR ORGANISMS: cell – atoms – molecules – organelles
MULTICELLULAR ORGANISMS: cells – tissues – organs – organ systems
3. GROWTH AND DEVELOPMENT
living organisms undergo regulated growth
grow – enlarge – mature – age – die
4. HEREDITY
life transfers characteristics to offspring through DNA and RNA: the building
blocks of life
5. HOMEOSTASIS
maintenance of a stable internal environment, even in the face of a changing
external environment, that is needed for cell function
6. METABOLISM
an organism’s chemical reactions
living things must use energy and consumes nutrients to carry out the chemical
reactions that sustain life.
ANABOLISM: consume energy
CATABOLISM: can make stored energy available
7. REPRODUCTION
living organisms can reproduce themselves to create new organisms
UNICELLULAR ORGANISMS: divides/splits themselves in two
MULTICELLULAR ORGANISMS
o ASEXUAL: single parent
o SEXUAL: two parents
8. RESPONSE TO STIMULI
living organisms respond to stimuli or changes in their environment

SCIENTIFIC INQUIRY
understands the natural world and predicts natural phenomena
evidence can be found in science-based technologies
 has not displayed faith, intuition, and dreams, and also doesn’t have emotional value,
moral guidance, and supernatural claims
science limits itself to ideas that can be tested through verifiable observations

METHODS OF SCIENTIFIC INQUIRY
1. Through OBSERVATIONS to find unsolved QUESTIONS OR PROBLEMS
2. Forming a HYPOTHESIS
a tentative explanation for observations
can be tested and rejected
3. Conducting EXPERIMENTS
EXPERIMENTAL DESIGN
o determines how you will test the hypothesis
o finds the answer to the question or problem
EXPERIMENTAL VARIABLES
o identified to make sure the results are accurate
o TYPES: manipulates, controlled, and responding
4. INTERPRET results
gather data and record observations
o QUANTITATIVE DATA: numerical
o QUALITATIVE DATA: answered through observations/interviews
interpret data
o answers the question
o responds to hypothesis
5. Draw CONCLUSIONS

METHODS OF LOGICAL THINKING
1. INDUCTIIVE REASONING
makes generalizations that are not always correct
starts with individual pieces of information, then looks for trends in the
information, and next, makes an informed guess based on those trends
EXAMPLE: Last week, your best friend discovered a new restaurant that he
really loves. He’s eaten there five times already. In describing the restaurant to
you, he says, “Everything on the menu is delicious!”
2. DEDUCTIVE REASONING
makes specific circumstances to predict specific results
starts with broad declarations, then applies these to make decision about a
specific case, and next, results are definitely correct
EXAMPLE: Driving on icy roads is dangerous. The roads are icy today.
Therefore, driving will be dangerous today!

APPLICATION OF BIOLOGY TO ENGINEERING FIELD
biotechnology and bioengineering are interdisciplinary fields that apply engineering
principles to biological systems.
 BIOTECHNOLOGY: uses living organisms to develop products
BIOENGINEERING: applies engineering to address challenges in biology and medicine

APPLICATIONS OF BIOTECHNOLOGY
Medical Diagnosis
Environment and Energy Management
Plant Agriculture / Crop Improvement
Recombination DNA Technology
Fermentation Technology
Improvement in Food Technology
Healthcare / Pharmaceuticals
Animal Breeding Agriculture

MICROBIOLOGY
study of microscopic organisms

MICROBES
microorganisms
exists as unicellular, multicellular, or cell clusters
beneficial to life but some can cause serious harm
PROTOZOA: responsible for toxoplasmosis and malaria

FOUR COMPONENTS OF A CELL
1. PLASMA MEMBRANE
outer covering, separates the cell’s interior from its surrounding environment
2. CYTOPLASM
jelly-like cytosol inside the cell
region outside the nucleus but inside the plasma membrane
3. DNA
genetic material of the cell
4. RIBOSOMES
molecular machines that synthesize proteins

PROKARYOTE
simple, single-celled organism
lacks a nucleus and membrane-bound organelles
NUCLEOID: central region of the cell
CIRCULAR CHROMOSOME: single large loop
CELL WALL
o extra layer of protection, maintain cell’s shape, and prevents dehydration
o made out of peptidoglycan: polymer composed of linked carbohydrates and
small proteins
 CAPSULE: outermost layer, sticky, and helps the cell to attach to surfaces
FLAGELLA: whip-like structures, act as rotary motors to help bacteria move
FIMBRIAE: numerous, hair-like structures, used for attachment to host cells and
surfaces
PILI: allow transfer DNA to other bacteria and involved in bacterial locomotion
SIZE: 0.1 to 5.0 micrometer

EUKARYOTE
packed with a fascinating array of subcellular structures that play important roles in
energy balance, metabolism, and gene expression
NUCLEUS: houses the cell’s genetic material
ORGANELLES: specialized functions that float in the cytosol
MULTIPLE LINEAR CHROMOSOMES

KINGDOM PROTISTA

PROTISTS
simple eukaryotic organisms, neither plants nor animals or fungi
unicellular in nature but can also be found as a colony of cells
live in water, damp terrestrial environments, or as parasites
have cilia or flagella for mobility
SEXUAL REPRODUCTION: cell fusion and zygote formation

GROUPS OF KINGDOM PROTISTA
1. CHRYSOPHYTES
golden algae and diatoms
found in marine and freshwater
2. DINOFLAGELLATES
photosynthetic and marine
dependent on the key pigments in their cells
3. EUGLENOIDS
live in motionless freshwater
cell wall is absent but has a protein-rich layer called pellicle
4. SLIME MOLDS
saprophytic
body moves along putrefying leaves and twigs, nourishes itself on organic
material
form accumulation under favorable surroundings – PLASMODIAL SLIME
MOLDS
5. PROTOZOANS
heterotrophs; survive either as parasites or predators
KINGDOM FUNGI

FUNGI
filamentous, excluding yeast
CELL WALL: composed of polysaccharides and chitin
TYPES OF FUNGI
o saprophytes, heterotrophic, parasites
o symbiont: some lives with algae or roots of higher plants
slender, long thread-like constructions called hyphae
o mycelium: web of hyphae
o coenocytic hyphae: unbroken tubes, jam-packed with multinucleated cytoplasm
o septae: cross-walls

TYPES OF FUNGI
1. MULTICELLULAR FILAMENTOUS MOLDS
made up of hyphae, which keep on growing and intertwining until the form
mycelium
digestive enzymes are secreted from hyphal tip, which break down organic
matter found in the soil to be used as food
2. MACROSCOPIC FILAMENTOUS FUNGI
grow by producing mycelium below ground and visible fruiting bodies
mushrooms or toadstools
3. YEASTS
small, lemon-shaped single cells, same size as RBC
multiple by budding a daughter cell off from the original parent cell, where scars
are seen on the surface where buds have broken off
one of the most widely used model organism for genetic studies
Saccharomyces cerevisiae

FUNGAL DISEASES
1. FUNGAL NAIL INFECTIONS
common infections of the toenails and fingernails
onychomycosis
SYMPTOMS: nails that are discolored, thick, and fragile or cracked
2. RINGWORM
can cause a circular rash that is usually red an itchy
live on skin, surfaces, and on household items
tinea or dermatophytosis
SYMPTOMS
o itchy skin
o ring-shaped rash
o red scaly cracked skin
o hair loss
 3. CANDIDIASIS
CAUSE: candida
normally lives inside the body and on skin without causing any problems
can multiply and cause infection if the environment inside the body changes in a
way that encourages its growth
vaginal candidiasis, vulvovaginal candidiasis, candidal vaginitis: in vagina
thrush or oropharyngeal candidiasis: in mouth and throat
esophageal candidiasis, candida esophagitis: in esophagus and common in
people with HIV/AIDS
VAGINAL SYMPTOMS: vaginal itching or soreness, pain during sexual
intercourse and urinating, abdominal vaginal discharge
MOUTH AND THROAT SYMPTOMS
o white patches on the inner cheeks, tongue, roof of the mouth, and throat
o redness or soreness
o cotton-like feeling in the mouth
o loss of taste; pain while eating or swallowing
o cracking and redness at the corners of the mouth

KINGDOM MONERA

BACTERIA
occur everywhere, microscopic in nature, and are prokaryotic
CELL WALL: formed of amino acids and polysaccharides
HETEROTROPHIC BACTERIA
o parasitic or saprophytic
o get energy through consuming organic carbon
o absorb dead organic material like decomposing flesh
o some kil their host, while others help them
AUTOTROPHIC BACTERIA
o chemosynthetic or photosynthetic
o make their own food through photosynthesis or chemosynthesis
o PHOTOAUTOTROPHS: cyanobacteria produce oxygen, while heliobacteria do
not.
o CHEMOAUTOTROPHS: found in ocean vents and in the roots of legumes
REPRODUCTION: binary fusion
o divides into two identical daughter cells
o DNA of parent cell divides into two replicates – parent cell then elongates and
splits into two daughter cells – when conditions are favorable, cells can divide
every 20 minutes

TYPES OF BACTERIA
1. SPHERICAL
shaped like a ball
 streptococcus group – strep throat
2. ROD-SHAPED
known as bacilli
vibrio: curved rod-shaped bacteria
Bacillus anthracis (anthrax)
3. SPIRAL
known as spirilla
spirochetes: tight coil spiral bacteria
leptospirosis, Lyme disease, and syphilis

BACTERIAL DISEASES

I. UPPER RESPIRATORY TRACT
1. STREP THROAT
make your throat feel sore and scratchy
common in children
SYMPTOMS: sore throat, fever, cough, and swollen lymph nodes and tonsils
COMPLICATIONS: kidney inflammation, rheumatic fever, or acute
glomerulonephritis
CAUSE: Streptococcus pyogenes (group A streptococcus)
TRANSMISSION: airborne droplets
TREATMENT: penicillin or clarithromycin
PREVENTION: good hygiene
2. DIPHTHERIA
affects the mucous membranes of nose and throat
can damage the heart, kidneys, and nervous system
deadly, especially in children
SYMPTOMS: sore throat, low-grade fever
CAUSE: Corynebacterium diphtheriae
TRANSMISSION: airborne droplets, contaminated items
TREATMENT: antitoxins and penicillin or erythromycin
PREVENTION: DTaP or Tdap vaccine
3. PERTUSSIS
highly contagious respiratory tract infection
SYMPTOMS: fever, severe cough followed by a high-pitched intake of breath
“whoop”
CAUSE: Bordetella pertussis
TRANSMISSION: airborne droplets
TREATMENT: erythromycin
PREVENTION: DTaP or Tdap vaccine
4. BACTERIAL MENINGITIS
most serious type of meningitis; deadly, or can lead to permanent disability
affects the meninges: membranes surround the brain and spinal cord
 SYMPTOMS: headache, rigid neck, vomiting, and sensitivity to bright light
CAUSES: Haemophilus influenzae, Neisseria meningitides, Streptococcus
pheumoniae, Listeria monocytogenes, and Group B Streptococcus
TRANSMISSION: pregnancy and airborne droplets
TREATMENT: early diagnosis, penicillin, cefotaxime, ceftriaxone antibiotics
PREVENTION: vaccines and good hygiene

II. LOWER RESPIRATORY TRACT
1. TUBERCULOSIS
SYMPTOMS: chronic cough, chest pain, and high fever
CAUSE: Mycobacterium tuberculosis
TRANSMISSION: inhalation of bacilli
TREATMENT: isoniazid, pyrazinamide, and rifampin require 6-9 months
PREVENTION: BCG vaccine
2. TYPICAL BACTERIAL PNEUMONIA
SYMPTOMS: fever, sharp chest pains, cough, and rust-colored sputum
CAUSE: Streptococcus pneumoniae (pneumococcal pneumonia),
Haemophiles influenzae, Staphylococcus aureus, and Klebsiella
TRANSMISSION: aerosolized droplets
TREATMENT: penicillin or erythromycin
PREVENTION: pneumococcal vaccine
3. ATYPICAL BACTERIAL PNEUMONIA
SYMPTOMS: fever, dry cough, diarrhea and vomiting
CAUSE: Mycoplasma pneumoniae
TRANSMISSION: aerosolized droplets
TREATMENT: erythromycin

III. FOODBORNE AND WASTEBORNE
1. BOTULISM
severe form of food poisoning
SYMPTOMS: paralysis of facial muscles, blurred vision, slurred speech, and
difficulty swallowing and breathing
CAUSE: Clostridium botulinum
TREATMENT: antitoxin and placed on a ventilator
2. SALMONELLA TYPHI
acid bacillus that invades the blood
SYMPTOMS: fever, abdominal pain, rose spots, lethargy, and delirium
TRANSMISSION: contaminated food or environment
TREATMENT: chloramphenicol
PREVENTION: typhoid vaccines
3. VIBRIO CHOLERAE
acute, diarrheal illness in the intestine, producing enterotoxin
 bacteria exit body through feces
SYMPTOMS: profuse watery diarrhea, vomiting, dehydration, circulatory
collapse, and shock
TRANSMISSION: contaminated water and food
TREATMENT: oral rehydration therapy
PREVENTION: make safe water and food, good hygiene
4. GASTROENTERITIS
watery diarrhea / traveler’s diarrhea
CAUSE: E. coli
E. coli 0157:H7: serious form of diarrhea that leads to hemorrhagic colitis
hemolytic uremic syndrome: occurs when kidneys are involved
5. GASTRIC ULCER
CAUSE: Helicobacter pylori
TRANSMISSION: contaminated food or water
TREATMENT: antibiotics and acid suppressors

IV. SOILBORNE AND ARTHROPODBORNE
1. ANTHRAX
plagues farm animals and agricultural workers
SYMPTOMS: respiratory distress and blood infection
CAUSE: Bacillus anthracis
TRANSMISSION: inhalation, consumption, or skin contact
TREATMENT: ciprofloxacin
2. TETANUS
SYMPTOMS: generalized muscle stiffness, trismus, and convulsive contractions
with unnatural fixed smile
CAUSE: Clostridium tetani
TRANSMISSION: direct contact
TREATMENT: antitoxin and antibiotics
PREVENTION: vaccine
3. LEPTOSPIROSIS
spread from animals to humans (zoonosis)
up to 10% of patients experience a systemic form of the disease
SYMPTOMS: flu-like
CAUSE: Leptospira interorgan
TRANSMISSION: exposure to urine of contaminated water, soil, or food
TREATMENT: penicillin or doxycycline

V. SEXUALLY TRANSMITTED, CONTACT, AND MISCELLANEOUS
1. SYPHILIS
CAUSE: Treponema pallidum
PRIMARY SYPHILIS: characterized by a chancre
SECONDARY SYPHILIS: presents fever, flu-like illness, and skin rash
 TERTIARY SYPHILIS: characterized by gumma
CONGENITAL SYPHILIS: transmitted through pregnancy, mother to fetus
2. GONORRHEA
WOMEN SYMPTOMS: vaginal and urethral discharge of pus and burning during
urination
WOMEN COMPLICATION: pelvic inflammatory disease and salpingitis
MEN SYMPTOMS: urethral inflammation, burning on urination, discharge of pus
WOMEN TRANSMISSION: pregnancy causing gonococcal ophthalmia
CAUSE: Neisseria gonorrhoeae

VIRUSES
type of germ, can make you sick
antibiotic don’t work on them
studying them was extremely difficult until 1940s, when electron microscope enabled
scientists to see them and innovative methods allowed researchers to cultivate them
composed of nucleic acid and the genome is surrounded by protein capsid, which is
usually subdivided into capsomeres
have envelope surrounding the nucleocapsid and it, with the spikes, are used for
attachment to host cells
helical, icosahedral, and complex symmetry

VIRAL REPLICATION AND ITS CONTROL
1. ATTACHMENT: virus becomes attached to a target epithelial cell
2. PENETRATION: cell engulfs the virus by endocytosis
3. UNCOATING: viral contents are released
4. BIOSYNTHESIS: viral RNA enters the nucleus, replicated by the viral RNA polymerase
5. ASSEMBLY: new phage particles are assembled
6. RELEASE: new viral particles are made and released into the extracellular fluid, where
the cell is not killed and continues to make another viral particle

VIRAL DISEASES
1. MEASLES
childhood infection, also called rubeola
fatal for small children
SYMPTOMS: hacking cough, sneezing, eye redness, sensitivity to light, high
fever, Koplik spots, gurr lines
CAUSE: measles virus (member of paramyxoviruses)
TRANSMISSION: airborne droplets, contaminated items/surfaces
2. CHICKENPOX
itchy rash with small, fluid-filled blisters
highly contagious for first-timers and nonvaccinated
varicella-zoster virus
 TRANSMISSION: airborne droplets, direct contact with the rash
TREATMENT: acyclovir
PREVENTION: vaccine
3. SHINGLES
causes a painful rash, single stripe of blisters that wraps around the sides of the
torso
anyone who had chickenpox may develop shingles, as the virus enters to
nervous system after recovery and stay dormant for years
not deadly, common complication: postherpetic neuralgia, causes shingles pain
for a long time after blisters have cleared
varicella-zoster virus
4. POLIO
contagious, causes nerve injury leading to paralysis, difficulty breathing, and
sometimes death
poliovirus
TRANSMISSION: direct contact, contaminated food and water, infected feces
5. INFLUENZA
spike proteins hemagglutinin and neuraminidase for viral entry and exit
CAUSE: types A, B, C of orthomyxoviruses
TREATMENT: antiviral drugs
PREVENTION: vaccine
6. SARS
in severe illness, insufficient oxygen reaches the blood and mechanical
ventilation is required
SYMPTOMS: fever, headache. feeling of discomfort, body aches, dry cough, and
difficulty breathing
CAUSE: coronavirus
7. HERPES SIMPLEX
wide spectrum of viral diseases commonly found in the environment
CAUSE: cold sores (HSV-1), genital herpes (HSV-2)
TREATMENT: antiviral drugs
neonatal herpes: deadly disease transmitted from a herpes simplex-infected
mother during childbirth
8. MUMPS
SYMPTOMS: swollen parotid glands and testes
CAUSE: another member of paramyxoviruses

IMMUNITY
protection from an infectious disease

TYPES OF IMMUNITY
1. ACTIVE NATURAL: produces antibodies when exposed to a live pathogen
 2. ACTIVE ARTIFICIAL: produces antibodies when vaccinated
3. PASSIVE NATURAL: antibodies are passed from mom through placenta and breastmilk
4. PASSIVE ARTIFICIAL: immunoglobulins are administered after pathogen exposure

IMMUNIZATION: process by which a person becomes protected against disease through
vaccination

VACCINE: stimulates the body’s immune response against diseases

VACCINATION: act of introducing a vaccine into the body

BIOCHEMICAL ENGINEERING
conduct of biological processes on an industrial scale
catalyst is either living cells or extracts from them

BIOENGINEERING
involve with the biosynthesis of animal of plant products
engineering application to field of medicine and biology

CLASSIFICATION OF ORGANISM
1. ACCORDING TO CARBON SOURCE
autotrophs
heterotrophs
2. ACCORDING TO EBERGY SOURCE
chemotrophs
o obtain energy by breaking down substrate
o chemoorganotrophs
o chemolithotrophs
phototrophs
o obtain energy from light
o photoorganotrophs
o photoautotrophs
3. ACCORDING TO FINAL ELECTION ACCEPTOR
aerobes
anaerobes
facultative anaerobes
microaerophiles

LIPIDS
lipos: fat
water insoluble biomolecules highly soluble in organic solvents
used as fuel molecules, energy storage, and components of membranes
 HYDROPHOBIC: nonpolar / water-fearing
AMPHIPATHIC: containing both nonpolar and polar regions
provide insulation from the environment for plants and animals

GLYCEROL
organic compound (alcohol) with 3 carbons, 5 hydrogens, and 3 hydroxyl (OH) groups

FATTY ACIDS
used for energy storage
found in the cytoplasm of adipose cells
have long and unbranched hydrocarbon chains and even number of carbon atoms
(carboxyl)
4-36 carbons long; hydrocarbon tail is hydrophobic
1st double bond – between C9 and C10
remaining double bond – begin at C12 and C15

SATURATED VS UNSATURATED FATS
SATURATED: no double bonds, max number of bonded H atoms
UNSATURATED
o one or more double bonds with cis configuration in the C skeleton, unsaturated
with H atoms
o the higher the degree of unsaturation, the lower the melting point
o monounsaturated fat and polyunsaturated fat

TRANS FATTY ACIDS
trans-unsaturated
can be produced by
o fermentation in the rumen of dairy animals
o hydrogenation of fish or vegetable oils
o oils are artificially hydrogenated to make them semi-solid and of a consistency
desirable
diets high in trans fatty acids correlate with increased blood levels of LDL and decreased
HDL

TRIGLYCERIDES
triacylglycerols
simplest lipids constructed from fatty acids
nonpolar, hydrophobic molecules
provide stored energy and insulation
compact energy storage: 1g triglycerides produce >2x energy that that of 1g
polysaccharide
 formed by joining of 3 fatty acids to a glycerol backbone in a dehydration reaction; 3
molecules of water are released in the process

PHOSPHOLIPIDS
major constituents of the plasma membrane
composed of fatty acid chains attached to a glycerol or sphingosine backbone
IN WATER: spontaneously assemble into aggregates that shield hydrophobic portion

WAXES
covers the feathers of some aquatic birds and the leaf surfaces of some plants
hydrophobic, prevent water from sticking on the surface
made up of long fatty acid chains esterified to long-chain alcohols

TERPENES AND TERPENOIDS
constituents of essential oils
produced by conifers and derived from isoprene

STEROIDS
derivatives perhydrocyclopentanophenanthrene ring system
important biological regulators that show dramatic physiological effects
characterized by a C skeleton consisting of 4 fused rings: 1 cyclopentane and 3
cyclohexane rings
hydrophobic and insoluble in water

CHOLESTEROL
HDL: GOOD CHOLESTEROL
o transport cholesterol to liver
o prevents buildup in arteries
o removes cholesterol from bloodstream
LDL: BAD CHOLESTEROL
o deposits cholesterol in arteries
o results in arterial plaque buildup
o can lead to heart attack and stroke

PIGMENTS
lipids with a system of conjugated double bonds
can absorb visible light
some of these acts a light-capturing pigments in vision and photosynthesis

LIPIDS’ ACTIVE ROLES
metabolites and messengers
hormones-potent signals
 enzyme cofactors in electron-transfer reactions in chloroplasts and mitochondria, or in
the transfer of sugar moieties in a variety of glycosylation reaction

CARBOHYDRATES
main source of energy for the body
found in plant foods and most abundant biomolecule in nature
stoichiometric formula (CH2O)n, n is the number of carbons in the molecule
carbo: carbon | hydrate: water
polyhydroxy aldehydes and ketones

TYPES OF CARBOHYDRATES
1. MONOSACCHARIDES
monomer of carbohydrates, common base unit, soluble in water
saccharide – sakcharon: sugar
white, crystalline solids that contain a single aldehyde or ketone functional group
also called simple sugars, and end with suffix -ose
ALDOSE: sugar has aldehyde group, structure R-CHO
KETOSE: sugar has ketone group, structure RC(=O)R’
TRIOSE: monosaccharide containing 3 carbon atoms
GLUCOSE
o one of the most important monosaccharides
o one of the main sources of calories
o can cross blood-brain barrier which nourishes the brain
GALACTOSE: known as milk sugar
FRUCTOSE: fruit sugar; found in honey, fruits, and vegetables

2. DISACCHARIDES
SUCROSE
o found in all photosynthetic plants
o sugar cane and sugar beets having the highest qualities
o acid catalyzed hydrolysis yields 1 mole of D-Glucose and D-Fructose
o a non-reducing sugar, table sugar
o glucose + fructose
MALTOSE
o from hydrolysis of starch using diastase
o acid catalyzed hydrolysis yields 2 moles of D-Glucose
o a reducing sugar, malt sugar
o glucose + glucose
o found in molasses, cereals, and candies
o a product of starch digestions and purified from barley and other grains
CELLOBIOSE
o from partial hydrolysis of cellulose
o acid catalyzed hydrolysis yields 2 moles of D-Glucose
 o a reducing sugar
o glucose + glucose
LACTOSE
o acid catalyzed hydrolysis yields D-Glucose and D-Galactose
o a reducing sugar
o galactose + glucose
o found in milk of mammals (cow and human)
o synthetic sugar that is not absorbed by the body but is broken down in the
colon into products that absorb water into colon, thus softening stools
o treats constipation, reduce blood ammonia levels in person with liver
disease
TREHALOSE
o glucose + glucose
o also known as trehalose or mycoses
o natural alpha-linked disaccharide with extremely high-water retention
properties
o helps plants and animals reduce long periods without water

3. POLYSACCHARIDES
sugar polymers containing more than 20 or so monosaccharide units
most abundant carbohydrate in food
long chain of monosaccharides linked by glycosidic bonds
homopolysaccharides and heteropolysaccharides

STARCHES
stored form of sugars in plants
made up of a mixture of amylose and amylopectin
important sources of calories found in foods
sugar molecules that human intestinal enzyme can breakdown
not sweet

AMYLOSE
starch formed by unbranched chains of glucose monomers
poorly soluble in water and slowly digestible

AMYLOPECTIN
branched polysaccharide
more soluble in water and more easily digestible than amylose

DIETARY FIBERS
carbohydrate that intestinal enzymes cannot breakdown; non-digestible
have molecules that are resisting to human enzymes
critical, slows down the absorption for simple sugar
 helps blood glucose level

GLYCOGEN
storage form of glucose in humans and vertebrates and is made up of monomers of
glucose
animal equivalent of starch and is highly branched molecule usually stored in liver and
muscle cells
GLYCOGENOLYSIS: whenever blood glucose levels decrease, glycogen is broken
down to release glucose

CELLULOSE
most abundant natural biopolymer
cell wall of plants is mostly made of this; wood and paper are mostly cellulosic in nature

FUNCTIONS OF CARBOHYDRATES IN THE BODY
provides body with energy
cells convert carbohydrates into fuels molecule ATP through a process called cellular
respiration
provide stored energy
promotes good digestive health by reducing constipation and lowering the risk of
digestive tract diseases

PROTEINS
polymers of amino acids; function as catalyst
most versatile macromolecules in living systems and severe crucial functions in
essentially all biological processes
transport and store other molecules such as oxygen
provide mechanical support and immune protection
generate movement, transmit nerve impulse, and control growth and differentiation
contain a wide range of functional groups
can interact with one another and with other biological macromolecules to form complex
assemblies
some are quite rigid, whereas others display limited flexibility

TYPES OF PROTEINS
1. ENZYMES
produced by living cells
catalysts in biochemical reactions and are usually complex or conjugated
proteins
help in breakdown, rearrangement, or synthesis reactions
CATABOLIC ENZYMES: breakdown their substrates
ANABOLIC ENZYMES: build more complex molecules from their substrates
 CATALYTIC ENZYMES: affect the rate of reaction
2. HORMONES
chemical-signaling molecules
usually small proteins or steroids, secreted by endocrine cells that act to control
specific physiological processes, including growth, development, metabolism,
and reproduction
SEX HORMONES
o estrogen: from urine of a pregnant woman, Butenandt and Doisy
o estradiol: true female hormone, Doisy
o androsterone: from 15000 L of male urine, Butenandt and Tscherning
o testosterone: true male hormone, from bull testes, Laqueur
o progesterone: most important pregnancy hormone secreted by placenta
ADRENOCORTICAL HORMONES
o isolated from the adrenal cortex
o involved in carbohydrate, proteins, and lipid metabolism, water and
electrolyte balance and reactions to allergic and inflammatory phenomena

AMINO ACIDS
building blocks of protein, only 20 to 22 amino acids
zwitterion: molecule that has both negative and positive charges
have chiral center, optical activity is observed, except for glycine
amphoteric, naturally occur in L form
ESSENTIAL (green)
o must obtain from diet
o all are found in dairy products
NON-ESSENTIAL (red)
o can be synthesized in the animal body
o can be made by humans and so is not essential to the human diet
20 AMINO ACIDS
o alanine leucine
o arginine lysine
o asparagine methionine
o aspartic acid phenylalanine
o cysteine proline
o glutamine serine
o glutamic acid threonine
o glycine tryptophan
o histidine tyrosine
o isoleucine valine

PEPTIDE BOND
dehydration synthesis reaction, condensation reaction; known as peptides
 formed when the amine group of one acid binds with the carbonyl carbon of another
amino acid, releasing a molecule of water

LEVEL OF STRUCTURE IN PROTEINS
1. PRIMARY STRUCTURE
describes the order of the amino acids in a polypeptide chain
consists of a sequence of amino acids linked together by peptide bonds and
includes any disulfide bonds

2. SECONDARY STRUCTURE
polypeptide backbone can fold into periodic structures to form the secondary
structure
conformation of the polypeptide backbone
the folded structure is stabilized by hydrogen bonding
backbone can change direction by making reverse turns or loops
ALPHA HELIX
o coiled tightly on the fashion of a spring
o the backbone forms the inner part of the coil while the side chains extend
outward from the coil
o stabilized by hydrogen bond between the >N-H of one amino acid and the
>C=O on the 4th amino acid away from it
o every helical turn in an alpha helix 3.6 amino acid residues
BETA PLEATED SHEET
o individual protein chains are aligned side-by-side with every other protein
chain aligned in an opposite direction
o protein chains are held together by intermolecular hydrogen bonding,
between amide groups of two separate chains

3. TERTIARY STRUCTURE
primarily due to interactions between the R groups of the amino acids that make
up the protein
R group interaction that contributes to tertiary structure
include hydrophobic interactions, ionic bonding, hydrogen bonding and disulfide
linkages

4. QUATERNARY STRUCTURE
describes the interactions of the students in an oligomeric protein
stabilized by both covalent and non-covalent bonds – various interactions,
including hydrogen-bonding, disulfide-bridges and salt bridges
insulin: has a combination of hydrogen bonds and disulfide bonds that cause it
to be mostly clumped into a ball shape
SHAPES OF PROTEINS
1. FIBROUS PROTEINS
long, rod-like forming fibers
insoluble in water
ALPHA-KERATIN
o bundles of helical polypeptides twisted together
o found in hair, wool, skin, horns, and fingernails
COLLAGEN
o most abundant proteins in vertebrates
o synthesized by connective tissue cells
o essential structural components of all connective tissues
ELASTIN
o gives elasticity to the body’s tissues and organs
o found predominantly in walls of arteries, intestines, skin, and other elastic
tissues
o highly hydrophobic: composed of A, V, L, and G
SILK FIBROIN
o found in silk that can produced by insects and spider
o considered to be beta-keratin
o consists of amino acid residues with small R groups

2. GLOBULAR PROTEINS
spherical in shape
soluble in water
functions as enzymes, hormones, membrane transporters and receptors,
immunoglobulins or antibodies, storage protein

3. MYOGLOBIN
found in high concentration in skeletal and cardiac muscles, responsible for the
red color
diving mammals have high myoglobin concentrations in muscles
serves as reservoir of oxygen within muscle cells
facilitates diffusion of oxygen in metabolically active cells

NUCLEID ACID
long-chain polymeric molecules, known as the nucleotides and polynucleotides
store information for cellular growth and reproduction
carry the genetic blueprint of a cell and carry instructions for the functioning of the cell
DNA AND RNA
DNA RNA
Function carries genetic information involved in protein synthesis
Location remains in the nucleus leaves the nucleus
double-stranded ladder: sugar-
Structure phosphate backbone, with base usually single-stranded
rungs
Sugar deoxyribose ribose
Pyrimidines cytosine, thymine cytosine, uracil
Purines adenine, guanine adenine, guanine

NUCLEOTIDES
monomers of DNA and RNA
combine with each other to form a polynucleotide, DNA or RNA
made up of 3 components: nitrogenous base, pentose sugar, and phosphate group
nitrogenous base is attached to a sugar molecule, attached to one or more phosphate
groups
a nucleoside that forms a phosphate ester with C5’ OH group of ribose or dioxyribose

NUCLEOSIDES
consists of a nitrogen base linked by a glycosidic bond to C1’ of a ribose or deoxyribose
named by changing the nitrogen base ending to -osine for purines and -idine for
pyrimidines

PENTOSE SUGARS
RNA: ribose
DNA: deoxyribose
sugars have their carbon atoms numbered with primes to distinguish them from the
nitrogen bases

PRIMARY STRUCTURE
nucleotide sequence
nucleotides in nucleic acids are joined by phosphodiester bonds
phosphate residue is attached to the hydroxyl group of the 5’ carbon of one sugar and
the hydroxyl group of the 3’ carbon of the sugar of the next nucleotide, which forms a 5’-
3’ phosphodiester linkage

SECONDARY STRUCTURE
DNA is an antiparallel double helix
2 strands of the helix run in opposite directions, meaning that the 5’ carbon end of 1
strand will face the 3’ carbon end of its matching strand
the phosphate backbone is on the outside, and the nitrogenous bases are on the inside
each base interacts with a base from the opposing strand by hydrogen bonds
 allow types of base pairing:
o adenine-tymine and guanin-cystosine
o 2 hydrogen bonds from between A and T
o 3 hydrogen bonds from between guanin and cystosine

RIBONUCLEIC ACID
RNA is much more abundant that DNA
mainly involved in the process of protein synthesis under the direction of DNA
usually single-stranded and is made of ribonucleotides that are linked by phosphodiester
bonds
ribonucleotide in RNA chain contains ribose, one of the four nitrogenous bases, and the
phosphate group
MAJOR TYPES OF RNA
o messenger RNA: carries the message from DNA, which controls all of the
cellular activities in a cell
o ribosomal RNA: major constituent of ribosomes on which the mRNA binds
o transfer RNA: carries the correct amino acid to the site of protein synthesis
o microRNA: interfering with the expression of certain mRNA messages

FUNCTIONS OF NUCLEIC ACIDS
aid with gut repair
encourage cellular growth and assist in muscle growth
strengthen the immune system
neutralization of toxins and regular cellular metabolism
helping the antioxidants in the body carry out their processes to reduce changes of
damage from oxidative stress

SUMMARY
Basic
Macromolecule Monomer Examples Uses
Formula
storage, signals, structural,
enzymes,
Proteins CHON amino acids contractile, defensive,
hormones
enzyme, transport, receptors
butter, oil, energy storage, protection,
fatty acid and
Lipids C:H:O cholesterol, chemical messengers, repel
glycerol
beeswax water
glucose,
fructose,
Carbohydrates C:H:O monosaccharides starch, energy storage, storage
glycogen,
cellulose
Nucleic Acids CHONP nucleotides DNA, RNA genetic information