Term
|
Definition
The study of the structure of body parts and their relationship to eachother.
all the things that make up the body=detailed |
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Term
|
Definition
gross anatomy
microscopic anatomy |
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Term
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Definition
The study of the large (macroscopic) body structures visible to the naked eye.
e.g. heart, digestive organs, bones, muscles. |
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Term
|
Definition
The study of structures too small to be seen without the aid of a microscope.
e.g. various cells and their arrangement in tissues.
Everything your body does is at the cellular level, so we have to learn it at the cellular level.
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Term
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Definition
The study of the functions of the body's structural machinery.
i.e. how organs and cells work |
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Term
The unity of form and function |
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Definition
What a structure can do depends on its specific form.
think about what it can do?
overlap (one works as a review of the other) |
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Term
Levels of orgnization
(smallest to most complex)
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Definition
Subatomic particles
Atoms
molecules
organelles
cells
tissues
organ
organ system
organism |
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Term
Properties that define life (as we know it on earth) |
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Definition
Composed of cells
Similiar Biochemistry
Metabolism
Responsiveness
Capable of reproduction |
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Term
|
Definition
___ are microposic units that carry out all of the processes of the body |
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Term
|
Definition
All living organisms are composed of protiens, lipids, carbohydrates, and nucleic acids.
these are not found in anything of nonbiological origin (only living things)
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Term
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Definition
All the chemical reactions happening in a body.
Living organisms build up and break down structures and compounds.
can assimilate compounds (taking compounds from the environment and using them for growth and activity) more so with plants (CO2, sunlight, minerals), animals eat. |
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Term
Responsiveness
excitability |
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Definition
____: the ability to respond to changes in the environment
changes=stimuli (plural)=stimulus (singular) |
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Term
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Definition
make copies of one's self
not a xerox copy, mixed
passes genes to future generations. |
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Term
|
Definition
the state of relative constancy in a body's internal environment.
the inside of our body tries to stay at 98.6 degrees F, pH, blood, this allows the body to work at peak effeciency. |
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Term
|
Definition
dynamic=changing; equilibrium=balance
standing on the teeter totter; if you move in, they move in. if you move out, they move out.
if your pH gets too low it's got to raise it back uo
things are always changing so the body must adjust to maintain homeostasis. |
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Term
In order for the body to adjust it most have __ __ |
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Definition
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Term
3 types of control mechanism |
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Definition
Recpetor
Control Center
Effector |
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Term
|
Definition
Sensor that detects change
if you can't detect change you can't adjust to it.
There have to be cells to detect the pH in blood, CO2, O2, temp, touch...
thermometer
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Term
|
Definition
The part that analyzes the data from the receptor and sends the appropiate responses to the effectors.
usually the brian, spinal cord
thermostat |
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Term
|
Definition
The part that responds to the commands from the control center.
usually muscels, glands (autonomic muscles)
air conditioning |
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Term
Negative Feedback Mechanisms
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Definition
the response of the body is opposite to the direction of the stimulus (or the origional control response.)
It's warm in the room, your body wants to cool down. Sugaar levels (candy bar body produces insulin to bring sugar levels down -> too low = another hormone to bring it up.
Body would be exhausted if it stayed at the ideal level all the time.
most common type of control mechanism in the body: body temp, hormone production, blood sugar levels...
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Term
Positive feedback Mechanism |
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Definition
The response of the body enhances the origional stimulus so that the stimulus is increased.
5*5=25
things that your body want to get over quickly
ex. blood clotting, labor contractions during birth
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Term
|
Definition
The Study of the composition of substances and the changes in their composition. |
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Term
|
Definition
Study of the chemistry of living things
4 molecules that they are made of? |
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Term
|
Definition
basic building block for all matter
e.g., solids, liquids, gasses
everywhere |
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Term
|
Definition
Atomic Structure
Variations in structure give each atom unique physical and chemical properties
Chemical Bonds |
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Term
Atomic Structure-Components |
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Definition
Electrons
Protons
Neutrons |
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Term
|
Definition
(e-) - negatively charged particles
travel around the nucleus |
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Term
|
Definition
Positively charged particles
found in the nucleus |
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Term
|
Definition
Number of protons in the nucleus of an atom of a specific element |
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Term
|
Definition
particles without a charge
found in the nucleus |
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Term
|
Definition
number of protons and neutrons in the nucleus of an atom |
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Term
|
Definition
is electrically neutral
(# protons = # electrons)
thoeritical neutral atom |
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Term
Variations in structure give each atom unique physical and chemical properties
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Definition
elements
isotopes
atomic weight |
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Term
|
Definition
simplest chemical groupings that have unique properties
they react different |
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Term
The atomic structure defines an element |
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Definition
physical characteristics
(e.g., mass, color)
chemical characterics
(e.g., bonding patterns with other elements) |
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Term
|
Definition
91 naturally occuring forms |
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|
Term
elements most frequently occur
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|
Definition
bonded to other elements and/or in mixtures |
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Term
|
Definition
one- or two- letter abbreviations for an elements
C, O, N, H = 96% of body weight
P, S, Ca, Mg, Na, K, Cl |
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Term
|
Definition
lists the elements and groups them by their properties |
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Term
|
Definition
atoms having the same atomic number and different mass numbers
means the number of neutrons is different between the different __. |
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Term
|
Definition
isotopes with extra neutrons
tend to be atomically unstable
release radiation which can damage cells |
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Term
|
Definition
The time it takes for a radioisotope to lose half its radioactivity.
The time it takes for something to go away by half
~ 10 __-__ will get you to "safe" |
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Term
|
Definition
Diagnoses of disease
e.g., iodine-131 for thyroid problems
destruction of cancer cells
e.g., cobalt-60 or radium 226
Following the path of an atom in a chemical reaction
e.g., hydrogen-3 (tritium, 3H) or carbon-14
how they discovered of glycolysis and citric acid cycle |
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Term
|
Definition
Average of all mass numbers of all the isotopes of an element
corrected of each isotope's abundance in nature |
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Term
|
Definition
attractions/links that hold atoms together
allows atoms to form molecules. |
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Term
|
Definition
Ionic Bonds
Covalent Bonds
Hydrogen Bonds |
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Term
|
Definition
Positively and negatively charged atoms attract
Na+ + Cl- ---> NaCl
usually dissolve in water
want to have a complete valance |
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Term
|
Definition
any positively charged ion
Na+ |
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Term
|
Definition
any negatively charged ion
Cl- |
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Term
|
Definition
two atoms share one or more pairs of electrons
strongest of all bonds
because neither atom can really leave |
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Term
|
Definition
Nonpolar covalent bonds
Polar covalent bonds |
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Term
|
Definition
electrons are shared equally
e.g., CH4 |
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Term
|
Definition
electrons are shared unequally
occurs with N and O most often
e.g., H2O |
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Term
|
Definition
the hydrogen atom attached to one slightly negatively charged atom is attracted to anther slightly negatively charged atom
e.g., N, O
seen with water, proteins, DNA, and hormones |
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Term
|
Definition
instances in which chemical bonds are formed, broken, or rearranged. |
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Term
Chemical Reactions (list) |
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Definition
Molecular Formula
Chemical Equations
Types (based on resulting products)
Types (based on energy flow)
Equilibrium
Factors influencing reaction rates |
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Term
|
Definition
shorthand abbreviations of molecules that show what they contain
subscripts show the number of atoms in the molecules
e.g., water=H2O= 2 hydrogens + 1 oxygen methane=CH4= 1 carbon + 4 hydrogens |
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Term
|
Definition
illustrations of chemical reactions using molecular formulas
A + B ----> C + D
"reactants" "products" |
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Term
Types (based on resulting products)
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|
Definition
Synthesis reactions
Decomposition reactions
Exchange Reactions |
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Term
|
Definition
combining to make something bigger
(anabolic reactions= make something bigger)
A + B ---> AB (larger structure) |
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Term
|
Definition
breaking something down
(catabolic reactions= breaking down a larger structure
(larger structure) AB ---> A + B |
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Term
|
Definition
one part of a molecule switches to another molecule
AB + C ---> A + BC
AB + CD ---> AC + BD |
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Term
Types (based on energy flow) |
|
Definition
Exergonic reactions
Endergonic reactions |
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Term
|
Definition
release energy, thys produce heat
most metabolic processes are this type
(means: from or away from)
tend to happen naturally
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Term
|
Definition
need energy, can be chemical or heat
often used to control a series of chemical reactions in the body
(e.g., cooking an egg)
the "lock" step, nonreversible |
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Term
|
Definition
most reactions are reversible, so which way the reaction goes depends on the concentration of all molecules involved
A + B <---> AB
Keq= [prod]/[react]=2/1
if you add AB it'll turn to A + B until the ratio is back to 2/1 |
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Term
Factor influencing reaction rates |
|
Definition
concentrations
temperature
particle size
catalysts
think of a car crash
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Term
|
Definition
the higher the concentrations of reactants, the faster the reaction goes
10 cars vs. 100 cars
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Term
|
Definition
increasing the temperature increases the reaction rate
measurment of the energy in a system (speed)
30mph vs. 60mph |
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Term
|
Definition
smaller particles (molecules) react faster than larger particles
same size engine, though, so same speed
VW vs. semi |
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Term
|
Definition
substances that increase reaction rates without themselves being changed
ice is a catalyst for accidents
enzymes=biological catalysts
proteins structured to help chemical reactions occur
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Term
|
Definition
Properties of Water
Electrolytes
Acids and Bases
The pH scale
Neutralization
Buffers
Organic Compounds
Enzymes |
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Term
|
Definition
compounds containing carbond with other elements
all have covalent bonds |
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Term
|
Definition
compounds not containing carbon
includes water, salts, some acids and bases |
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Term
|
Definition
Polar, so readily forms H bonds
Important for chemical reactions
Provides cushioning |
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|
Term
Polar, so readily forms hydrogen bonds |
|
Definition
provides cohesion
surface tension
forms spheres of hydration |
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Term
|
Definition
constantly grabbing onto each other
stabilizes temperature
doesn't pick up speed, slowing each other down.
makes it so our body temp doesn't fluctuate drastically
high heat capacity
you've got to put alot of energy into H2O to heat it |
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Term
|
Definition
forms a type of "skin" at the surface
high heat of vaporization
takes alot of energy (heat) to become a gas
keeps us from dehydrating |
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|
Term
forms spheres of hydration |
|
Definition
allows it to act as a solvent |
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|
Term
Important for chemical reactions |
|
Definition
medium in which reactions occur
reactant in hydrolysis reactions
R-R' + H2O ---> R-OH + H-R'
hydrolysis- to split apart |
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Term
|
Definition
by surrounding certain organs, water cushions to protect them from physical trauma
e.g., cerebrospinal fluid- fluid that surrounds your brain
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Term
|
Definition
dissolved salts
salts- ionic compound whose cation is not the hydrogen ion (H+) and whose anion is not the hydroxyl ion (OH-)
e.g., NaCl |
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Term
|
Definition
substance that releases hydroen ions
HCl ---> H+ + Cl-
add more H+ |
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|
Term
|
Definition
substances that bind to hydrogen ions ore releases ions that can bind to hydrogen ions (e.g., OH-)
NaOH ---> Na+ + OH-
OH- + H+ ---> H20
take away H+ |
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Term
|
Definition
pH = -log [H+]
as hydrogen ion concentration goes up, pH goes down |
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Term
|
Definition
0-------------7-------------14
acidic neutral basic
the pH of living cells ~ 7
acidic= marinate, soda, coffee
basic = cleaners |
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Term
|
Definition
when acids and bases are mized together, salt and water forms
HCl + NaOH ----> NaCl + H2O |
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Term
|
Definition
salts that prevent drastic changes in pH when acids or bases are added
function by absorbing or releasing H+ as needed
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Term
|
Definition
major buffer in the human body
floats around inside your blood
H20 + CO2 <--> H2CO3 <--> H+ + HCO3- <--> 2H+ + CO3 2-
more acids rxn <---
more bases rxn --->
HCO3- = ___
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Term
|
Definition
Families of Small Organic Compounds
Functional Groups
Carbohydrates
Lipids
Proteins
Nucleotides and Nucleic Acids
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|
Term
families of small organic compounds |
|
Definition
carbohydrates
formed from simple sugars
lipids
mainly formed from fatty acids
proteins
formed from amino acids
nucleic acids
fromed from nucleotides
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Term
|
Definition
atoms or groups of atoms covalently bonded to an organic molecule
conveys distinct properties to the molecule
e.g., can make molecules hydrophobic or hydrophilic
hydrophobic- don't like water- hydrocarbons- fats, oils, waxes
hydrophilic- like water- mix well with water |
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Term
|
Definition
monomers or polymers or sugers
mers-units |
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Term
|
Definition
contain carbon, hydrogen and oxygen
--make up 1-2% of the cell mass in animals
not very much, but still something
monosaccharide
disaccharide
polysaccharide
functions of carbohydrates
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Term
|
Definition
one sugar unit--simple sugar
formula = (CH2O)n
five carbon sugars (C5H10O5)
ribose and deoxyribose
six carbon sugars (C6H12O6)
glucose, fructose and galactose |
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|
Term
five carbon sugars
(C5H10O5) |
|
Definition
ribose and deoxyribose
building blocks for nucleic acids
DNA, RNA |
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|
Term
Six Carbon Sugars
(C6H12O6) |
|
Definition
glucose, fructose and galactose
mostly used for energy production
isomers=compounds having the same molecular formula, but have atome arranged differently
body prefers to use glucose...it will try and convert other energy foms into glucose then utilize it. |
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Term
|
Definition
two sugar units
sucrose
lactose |
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Term
|
Definition
table sugar
glucose + fructose |
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Term
|
Definition
milk sugar
glucose + galactose
connected together by a Z shaped bond that requires an enzyme to break down
lactose intollerant is when that enzyme isn't made
symptoms are abdominal cramps and diarrhea.
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Term
|
Definition
more than 2 sugar units
may be 100s or 1000s
starch
glycogen |
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Term
|
Definition
glucose storge molecule in plants
plants have energy now and want to store it for later
potatoes |
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Term
|
Definition
glucose storage molecules in animals
takes 2 enzymes to break down glycogen because the tip to tip carbon bond is different than the side to side carbon bonds |
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|
Term
functions of carbohydrates |
|
Definition
energy source
required structural component of genetic material
cell identification |
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Term
|
Definition
main function
buzzes you full of energy
energy crash
6 C sugars |
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Term
required structural component of genetic material |
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Definition
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Term
|
Definition
personalized
when the body notices a cell that is abnormal it is murdered
happes in transplants
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Term
|
Definition
contain C and H with only a small amount of O
Functions
Triglycerides
Phospholipids
Steroids
Prostaglandins |
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Term
|
Definition
organic compounds that are hydrophobic
don't like water |
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|
Term
contain carbon and hydrogen, with only a small anount of oxygen |
|
Definition
O2 is there to hold pieces together |
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Term
|
Definition
Basic sturctures in membranes
used for energy metabolism
what you try and break down when you want to lose weight
protects and insulates body organs
fat: there are certain places that NEED it
extra insulation--put on your winter pounds |
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Term
|
Definition
neutral fats
composed of glycerol + 3 fatty acids
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Term
|
Definition
fatty acids
saturated fats
unsaturated fats
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Term
|
Definition
lond, unbranched hydrocarbon chain with a -COOH group at one end
can release the H
E |
|
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Term
|
Definition
have only single C-C bonds in fatty acid tails
has maximum number of hydrogens
tend to be solid at room temperature
lard, butter |
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Term
|
Definition
have one or more C=C in the fatty acid tails
causes kinks in the tail
tend to be liquid at room temperature
vegetable oils |
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Term
|
Definition
modified triglycerides with two fatty acid tails and a phosphate group
1) phosphate group-head
hydrophilic
2) hydrocarbon "tail"-
hydrophobic
these are important components of cell membranes |
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Term
|
Definition
4 interlocking carbon rings with varying functional groups
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Term
|
Definition
cholesterol
component of cell membranes
liver makes cholesterol--atorvastatin shuts down liver cholesterol production
modified into sex hormones and corticosteroids
estrogen, testosterone, progesterone
required for the synthesis of vitamin D
need in order to absorb calcium
you need cholesterol;however, too much can be bad for your health. It's important to control it on your own w/o the assistance of drugs
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Term
|
Definition
help us with:
blood clotting
inflammation
labor contractions |
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Term
|
Definition
make up 10-30% of the cell mass
a lot considering water makes up ~50%
reason being is that proteins are the things that actually do most everything in your body. |
|
|
Term
|
Definition
building blocks of proteins
20 common types
H
l
H2N---C--- COOH
l
R
amino group (left) alpha-carbon (center) carboxyl group (right) hydrogen (top) functional group (botton)
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|
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Term
|
Definition
structural framework and mechanical support
movement
catalysis
transport
regulation of pH
regulation of metabolism
body defenses
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|
|
Term
structural framework and mechanical support |
|
Definition
collagen (connective tissue)
provides strength and flexibility
keratin (skin, hair and nails)
provides strength |
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Term
|
Definition
actin
myosin
muscle contraction |
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Term
|
Definition
|
|
Term
|
Definition
|
|
Term
|
Definition
albumin
flaots around in the blood
assists bicarbonate ion
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Term
|
Definition
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|
Term
|
Definition
antibodies
fight diseases |
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Term
|
Definition
primary structure
secondary structure
tertiary structure
quaternary structure |
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|
Term
|
Definition
amino acid sequence in the polypeptide chain |
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Term
|
Definition
shape of the chain due to hydrogen bonds
alpha-helix
slinky--wool
beta-pleated sheets
pleated skirt--silk (sheats are microscopic are fingers can't feel it)
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|
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Term
|
Definition
3 demensional shape of the chain due to the R groups (on the amino acids)
takes into consideration hydrophilc and hydrophobic interactions |
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Term
|
Definition
relationship of different chains in a complex protein
in order to have this, the protein must have 2 or more chains
hemoglobin (4)--how it hooks to the other 3 chains |
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Term
|
Definition
loss of secondary and tertiary structure of a protein
1) causes a loss of function
expecially important with enzymes
why acidosis and alkalosis is impt.
can occur due to changes in temp (too high) or pH (too low or too high)
why you cook meat (make it easier to chew)
marinate it--acidic--for a better result
cleaners-basic-how they work |
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|
Term
nucleotides and nucleic acids
|
|
Definition
nucleotide
basic kinds of nucleotide-based molecules |
|
|
Term
|
Definition
5-carbon sugar + phosphate group + base
|
|
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Term
|
Definition
Adenine (A)
Guanine (G)
Cytosine (C)
Thymine (T)
Uracil (T)
A-T, G-C (DNA)
A-U, G-C (RNA)
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|
|
Term
basic kinds of nucleotide-based molecules |
|
Definition
nucleic acids
adenosine phosphates
nucleptide coenzymes
|
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|
Term
|
Definition
nucleotide polymers
whole bunch of nucleotides hooked together
deoxyribose nucleic acid (DNA)= genetic blueprint
gives instructions for protein assembly
every protein your body will ever need...only produces what it needs, though
Ribose nucleic acid (RNA)= protein assemblers
processes genetic instructions from DNA to produce proteins
mRNA
tRNA
rRNA |
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Term
|
Definition
AMP, ADP, ATP, cAMP
energy carriers
when your cells need energy it makes ATP then breaks it down
chemical messengers
cAMP-cyclic AMP
second messengers
|
|
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Term
|
Definition
NADH, FADH2
transport hydrogen ions and electrons
useful during the steps to make ATP |
|
|
Term
|
Definition
proteins that promote specifec metabolic reactions
help things to occur
|
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Term
|
Definition
amount of energy needed for a reaction to occur
endergonic reactions need energy
control steps (can't go back)
enzymes reduce the activation energy needed for a reaction
factory machine
they strain chemical bonds of a substrate
after substrate enters enzyme, the enzyme torks itself and strains the bond.
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Term
|
Definition
molecule on which an enzyme works
the substrate is chemically changed
the enzyme remains the same |
|
|
Term
|
Definition
place where the substrate fits into the enzyme
usually very specifec
this rxn happens with this enzyme, another rxn happens with another enzyme |
|
|
Term
|
Definition
functional enzyme that consists of two parts
most enzymes are this type
won't work unless both parts are there
apoenzyme=protein portion of the enzyme
cofactor=nonprotein portion of the enzyme
attaches at a separate active site
required for the enzyme to function
may be a metal ion or a coenzyme-small organic molecule that acts as a cofactor
usually a vitamin |
|
|
Term
|
Definition
basic structural and functional unit of living organisms
smallest thing that is living -> thing that does the work |
|
|
Term
|
Definition
shows all the structures that could theoretically be in a cell |
|
|
Term
|
Definition
cell membrane
cytoplasm
nucleus |
|
|
Term
|
Definition
outermost barrier that defines the edge of the cell
1) "fluid mosaic" model
2) consists of
3) framework
4) selectively permeable
5) cholesterol
6) proteins |
|
|
Term
|
Definition
a pattern with some shifts
proteins and lipids that form a constantly changing pattern |
|
|
Term
the cell membrane consists of: |
|
Definition
proteins
lipids
carbohydrates |
|
|
Term
framework of the membrane |
|
Definition
phospholipid bilayer
hydrophilic heads
polar- phosphate group
allign on the outside of the bilayer
hydrophobic tails
allign on the inside of the bilayer
acts as a barrier agains water-soluble molecules, but allows the passage of lipid-soluble molecules
reason-b/c there are many more water soluble molecules (if it took them all in it'd have too many) this way it can choose if it needs it or not. |
|
|
Term
the membrane, thus, is selectively permeable and controls the movement of substances into and out of the cells
|
|
Definition
soem things can go in and some things can't |
|
|
Term
|
Definition
helps stabilize the membrane
makes it tough |
|
|
Term
|
Definition
integral proteins
peripheral proteins
glycocalyx |
|
|
Term
|
Definition
firmly inserted into the lipid bilayer
includes transmembrane proteins
they go all the way through the membrane
includes proteins that act as:
receptors
channels
carriers |
|
|
Term
|
Definition
not embedded in the membrane, but (in order to hold them there) they are attached to integral proteins |
|
|
Term
|
Definition
branching sugar groups attached onto most proteins on the exterior of the cell
helps to bind adjacent cells together
sticky
provide (with proteins themselves) an identification pattern which allows defensive cells to recognize self-cells as opposed to foreign cells/particles
immune system |
|
|
Term
specilizations of the plasma membrane |
|
Definition
microvilli
membrane junctions
|
|
|
Term
|
Definition
minute-finger like extentions of the plasma membrane
increases surface area which allows greater absorbtion
seen in small intestines and kidneys |
|
|
Term
|
Definition
specializations holding cells together
tight junctions
desmosomes
gap junctions |
|
|
Term
|
Definition
proteins from adjacent membranes fuse together like a zipper
relatively impermeable and found in GI tract (mouth to anus) and capillaries of the brain
blocks anything from getting through
not fully developed in young children which is the reason it is so dangerous for them to ingest lead paint
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|
|
Term
|
Definition
adhesive spots that hold cells together
like rivets
attached to the cytoskeleton for strength
found in the skin, heart muscles and uterus |
|
|
Term
|
Definition
hollow protein tubes connecting adjacent cells
allows the passage of chemical substances from one cell to another
embryonic cells
how everyone knows what they are
found in heart cells (contract together) and smooth muscle (move food to small intestines) |
|
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Term
|
Definition
Cellular material within the cell membrane but outside the nucleus
nucleus is not an organelle |
|
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Term
|
Definition
Cytosol
Inclusions
Organelles |
|
|
Term
|
Definition
the semi transparant fluid substance in which other things are suspended. |
|
|
Term
|
Definition
Chemical substances that can be detected with an electron microscope.
maybe stored nutrients (glycogen), pigments, or crystals (uric acid). |
|
|
Term
|
Definition
Specialized cellulare compartments that have their own unique functions.
Little organs
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Term
|
Definition
Mitochondria
Ribosomes
Endoplasmic reticulum (RER, SER)
Golti apparatus
Lysosomes
Peroxisomes
Cytoskeleton |
|
|
Term
|
Definition
"Power Plants" of the cell
makes energy (ATP)
provides most of the ATP supply via aeribic respiration
sugars in body...use O2 you breathe in--> break down--> CO2 out
bimembranous (outer and inner)
They contain DNA and RNA (can replicate itself) impt because you can make more mitochondria in cells of organs/tissues that use more energy (muscles). |
|
|
Term
|
Definition
Particles of proteins and ribosomal RNA (rRNA).
synthesize proteins |
|
|
Term
endoplasmic reticulum (ER) |
|
Definition
network of membranes that provide a tubular interconnection tussue throuough the cell
conveyer belt --moving things from place to place |
|
|
Term
Two types of endoplasmic reticulum |
|
Definition
Rough Endoplasmic Retuiculum (RER)
Smoothe Endoplasmic Reticulum (SER) |
|
|
Term
Rough Endoplasmic Reticulum (RER) |
|
Definition
rough because it has ribosomes attached to its surface.
produces proteins and membranes |
|
|
Term
Smooth Endoplasmic Reticulum (SER) |
|
Definition
has no ribosomes
involved in lipid metabolism (making and breking them down), steroid synthesis (cholesterol), and detoxification of drugs.
|
|
|
Term
|
Definition
Stacks of flattened, membranous sacs
modifies, concentrates and packages proteins and membranes produced by RER.
slaps on carbohydrates
ships out a bunch of hormones that are stored
puts the finished product in a vesicle for transport. |
|
|
Term
|
Definition
membranous sacs containing powerful digenstive enzymes
digest foreign invaders (bacteria, viruses, toxins)
help with breakdown of worn out or nonfunctional cellular parts.
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|
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Term
|
Definition
specialized lysosomes
membranous sacs containing oxidase enzymes detoxify alcohol, formaldehyde and other chemicals.
prolific in the liver and kidney cells
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|
|
Term
|
Definition
"cell skeleton"
provides support (shape) and cellular movemement. |
|
|
Term
Cytoskeleton is composed of: |
|
Definition
Microfilaments
Microtubules
intermediate filaments
|
|
|
Term
|
Definition
thin strands of a contractile protein (i.e., actin)
cause cellular movement
important part of myofibrils in the muscle cells
aid in cell division (telophase indentions caused by these) |
|
|
Term
|
Definition
hollow tubes of sphericle proteins
larger than microfilaments (stronger)
can attach to and move organelles
provide strength to the cilia and flagella
|
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|
Term
|
Definition
are attached to desmosomes
bridge cables
uterus, skin and heart
(provide extra stength)
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|
Term
|
Definition
2 nonmembranous structures composed of microtubules
asters
aid in distribution of chromosomes during cell replication (cell division)--same |
|
|
Term
|
Definition
numerous tiny hairlike parts that serve to move fluids (e.g., mucus) across cell surfaces
found on the cells lining the respiratory trant (all breathing tubes) and reproductive tract. |
|
|
Term
|
Definition
larger processes that are structurally similiar to cilia
usually only one per cell (humans) --> sperm
allows sperm to swim |
|
|
Term
|
Definition
the part that directs the activities of the cell
controls what proteins get made and therefore activity
most cells have only one some cells have many (multinucleated)--skeletal muscle, some even have none (Anucleated) --RBC |
|
|
Term
Cell nucleus consists of: |
|
Definition
nuclear envelope
Nucleolus
Chromatin
|
|
|
Term
|
Definition
Double Layer of membranes that surrounds the nucleus
lood at interphase --> still intact
layers are joined at the nuclear pores (controls substances going in and out)
(bump=lower, indention=upper)
selectively permeable
chemistry inside the nucleus is different than inside the cell
|
|
|
Term
|
Definition
"little nucleus"
small dense body in the nucleolus that contain RNA and proteins
produces ribosomes |
|
|
Term
|
Definition
thread-like
loosley coiled fibers of DNA molecules and proteins (histones).
chromatin wraps around histones (condenses) and forms chromosomes
contains info for protein synthesis |
|
|
Term
Movement through cell membranes
|
|
Definition
passive processes
active processes
cell membrane potential |
|
|
Term
|
Definition
require no energy imput from the cell (at the time when the substance crosses the membrane). |
|
|
Term
passive processes consist of |
|
Definition
simple difussion
facilitated difussion
osmosis
filtration |
|
|
Term
|
Definition
random movement of solute particles from an area of high concentration to an area of low concentration to an area of low concentration until the solution is at equilibrium.
moves gases (O2, CO2) and lipid soluble molecules (alcohol, steroids) across the cell membrane (birth control patch is a steroid).
influences the movement of small ions through protein channels |
|
|
Term
|
Definition
"helped" diffusion with the aid of membrane proteins (AKA carrier proteins), the protein changes shape.
allows sutars (e.g., glucose) and amino acids to cross the membrane. |
|
|
Term
|
Definition
movement of water through a selectively permeable membrane from an area of low solute concentration to an area of high solute concentration. |
|
|
Term
|
Definition
selectively permeable membrane
osmotic pressure
tonicity |
|
|
Term
for osmosis the selectively permeable membrane is |
|
Definition
|
|
Term
|
Definition
pressure required to stop osmosis
directly proportional to solute concentration differences
*bigger difference in # of particles = higher osmotic pressure |
|
|
Term
|
Definition
relative solute concentration of one solution compared to another
size of solutes and amount of H2O
the ration of the two solutions |
|
|
Term
|
Definition
hypertonic
hypotonic
isotonic |
|
|
Term
|
Definition
solution with the greater solute concentration
water will move into it
ex. distilled water = cells burst
|
|
|
Term
|
Definition
solution with a lower solute concentration
water will move out of it
ex. sea water makes cells shrivel |
|
|
Term
|
Definition
both solutions have the same solute concentration
water moves in and out; therefore, no net change
isotonic ex. IV used for dehydrated persons |
|
|
Term
|
Definition
separation of larger particles from smaller ones by forcing the smaller ones through pores.
in the body, hydrostatic pressure forces fluids and solutes in blood through capillary walls.
due to heart contractions |
|
|
Term
|
Definition
these require energy (ATP) produced by the cell at the time of transport. |
|
|
Term
active processes consist of: |
|
Definition
active transport
bulk transport |
|
|
Term
|
Definition
solutes go from an area of low concentration to an area of high concentration.
may use up to 40% of a cells energy supply. Produces heat. muscles use active transport alot.
uses protein carriers (solute pumps) dependant on APT for energy.
primary active transport creates a concentration gradient. secondary active transport uses the gradient (from primary) to transport something else.
|
|
|
Term
Active transport examples |
|
Definition
primary- sodium-potasium pump (Na+-K+ ATPase)
secondary- glucose-sodium symport (in the small intestines) |
|
|
Term
|
Definition
movement of large or many particles across the membrane |
|
|
Term
bulk transport consists of: |
|
Definition
|
|
Term
|
Definition
conveyance of substances out of the cell
controls hormone release, muscle secretions, neurotransmitter release, and waste ejection from cells. |
|
|
Term
|
Definition
conveyance of substances into the cell
the engulfed substance is contained in a vesicle (small) or vacuole (large). |
|
|
Term
|
Definition
phagocytosis
pinocytosis
receptor-mediated endocytosis |
|
|
Term
|
Definition
"cell eating"
the cell engulfs larger particles such as bacteria and cellular debris
? where= macrophages (big eaters) and white blood cells.
|
|
|
Term
|
Definition
"cell drinking"
the cell engulfs many small nutrient molecules
? where = many cells can do this especially cells of the small intestines |
|
|
Term
Recptor-Mediated endocytosis |
|
Definition
specific protein recepors, on the cell exterior, select what is engulfed.
substances like LDL, hormones, and enzymes have receptors on some cells
LDL= bad cholesterol |
|
|
Term
|
Definition
the electrical potential resulting from a spearation of oppositely charged particles
inside and outside of the cell |
|
|
Term
cell membrane potential consists of: |
|
Definition
All body cells (at rest)- exhibit a resting membrane potential (-20-- -200 milivolts).
main cause- small leak of K+ out of the cell and the sodium potassium ATPase which pumps 3 Na+ out of the cell and 2 K+ in to the cell. Thus, more positively charged ions are on the outside of the membrane while more negatively charged ions line the inside of the membrane. |
|
|
Term
cell growth and reproduction consists of: |
|
Definition
cell cycle
interphase
chromosomes
mitosis
cytokinesis
control fo cell reproduciton
cell development |
|
|
Term
|
Definition
G1 --> S --> G2 --> Mitosis --> Cytokinesis |
|
|
Term
|
Definition
combination of G1, S, and G2 phases
radioactive nucleotides became made into DNA --> S |
|
|
Term
|
Definition
|
|
Term
|
Definition
growth (to get to a normal size cell), normal metabolism (chemical reactions), some organelles replicate (muscle cells=mitochondria, golgi= those busy making stuff), cell differientates (goes into adult form). |
|
|
Term
|
Definition
Cells that, as far as we understand, perminately cease to divide, go into this at the end of G1
neurons and cardiac muscles
if you have a heart attack or stroke, cells that die will not be replaced |
|
|
Term
|
Definition
synthesis stage when DNA replicates
|
|
|
Term
|
Definition
growth to the final limited size (limited because of simple diffusion) and prepares for mitosis. |
|
|
Term
|
Definition
molecules of DNA complexed with proteins
condensed chromatin
23 pairs in humans |
|
|
Term
|
Definition
|
|
Term
|
Definition
duplicate of a specific chromosome
produced during S phase
copies of the dads (X) copies of the moms (X). |
|
|
Term
|
Definition
the place where the sister chromatids are attached |
|
|
Term
|
Definition
division of chromosomes into 2 identical groups during cell replication
4 stages |
|
|
Term
|
Definition
prophase
metaphase
anaphase
telophase |
|
|
Term
|
Definition
stage that sets up the division process
centrioles move to opposite poles
microtubules form into spindle apparatus
nuclear envelope & nucleolus disappear
chromatin condenses to form chromosomes |
|
|
Term
|
Definition
chromosomes line up midway between the centrioles ("at the equator")
spindle fibers attach to centromere
|
|
|
Term
|
Definition
spindle fibers shorten and the centromeres split
chromosomes are pulled towards the centrioles
look at outside edge (smooth) |
|
|
Term
|
Definition
chromosomes reach the centrioles and begin to uncoil
nuclear envelope and nucleolus reappear
spindle apparatus breaks down
look at outside edge (indented) |
|
|
Term
|
Definition
divison of cytoplasm between the two daughter cells
a ring of microfilaments contract and cause the cell to divide into 2 parts (2 new cells)
forms two "daughter" cells with identical genetic information
cytoplasm with its organelles is NOT evenly divided
*you've got the DNA to make more if you need it* |
|
|
Term
Control of Cell Reproduction |
|
Definition
cell reproduction (includes mitosis) is needed for body growth and tissue repair.
cuts and scrapes get fixed and you grow.
|
|
|
Term
control of cell reproduction consists of |
|
Definition
surface area: volume relationship
contact inhibition
genetic factors
MPF (maturation promoting factor) |
|
|
Term
Surface area: volume relationship |
|
Definition
colume of the cell cannot exceen the surface area's ability to allow the exchange of nutrients and wastes.
this is why cells are microscopic |
|
|
Term
|
Definition
when cells touch other cells then they tend to stop dividing
fill up a flask with cells, they cover the bottom of the flask then they stop dividing. |
|
|
Term
|
Definition
parts of the body that divide faster than others
skin -- mucosa (digestive tract) faster
liver -- slow
nerves -- none |
|
|
Term
MPF (maturation promoting factor) |
|
Definition
a certain amount (threshold) of this protein complex is needed before cells go from G2 into mitosis
biological timer |
|
|
Term
cell development consists of: |
|
Definition
cell differentiation
cancer |
|
|
Term
|
Definition
specialization of cells into their functional form
the structural variation (functional too) is caused by selective gene expression
cells don't have to use all the genes...they pick and choose based on the time and need
this allows cells with the same genetic info to have vastly different functions
|
|
|
Term
|
Definition
uncontrolled or abnormal cell growth
cells loose their contact inhibition |
|
|
Term
|
Definition
neoplasia
hyperplasia
anaplasia
metastasis |
|
|
Term
|
Definition
|
|
Term
|
Definition
"fast/uncontrolled growth" |
|
|
Term
|
Definition
growth of abnormal cells (undifferientated cells)
pap smear |
|
|
Term
|
Definition
the spreading of cancer cells from their site of orgin
breast cancer --> lymph --> pancreas --> 6 mo.
death from cancer is due to these fast growing often non functional cells blocking blood flow and consuming excessive amounts of nutrients |
|
|
Term
nucleic acids and protein synthesis |
|
Definition
DNA molecules contain information that tells a cells how to synthesize proteins. |
|
|
Term
nucleic acids and protein synthesis consists of:
|
|
Definition
genetic information
Replication of DNA
Changes in Genetic information
protein synthesis
gene expression |
|
|
Term
genetic information consists of:
|
|
Definition
inherited traits
gene
DNA molecules
genetic cod
chromosome numbers |
|
|
Term
|
Definition
traits that are passed from parent to offspring
in the DNA material
skin color, balding
|
|
|
Term
|
Definition
a portion of a DNA molecule that contains the information for making atleast one specific protein |
|
|
Term
|
Definition
nucleotides are arranged in a specific order
structure = double helix
nucleotides: paired with complementary nucleotides in a second strand
(2) A - T
(3) G - C
adanine, thymine, guanine, cytosine |
|
|
Term
|
Definition
sequence of nucleotides that represents the sequence of amino acids in the protein molecule |
|
|
Term
|
Definition
Homo sapiens=humans=23 pairs (46) chromosomes
half from mom; half from dad |
|
|
Term
|
Definition
23rd pair of chromosomes
either X or Y
XX = female
XY= male
X=colorblindness, Y= testosterone |
|
|
Term
|
Definition
other 22 pairs of chromosomes
contain most of genetic information not involved with determining gender of the individual. |
|
|
Term
|
Definition
occurs during the S phase of interphase |
|
|
Term
Replication of DNA is composed of: |
|
Definition
Helicase
DNA Polymerase
"Base-pairing"
semiconservative replication |
|
|
Term
|
Definition
enzyme that untuists and separates the DNA molecule into its two complementary nucleotide chains
"unzipps it" |
|
|
Term
|
Definition
enzyme that puts the new nucleotides in place
connects A-T, G-C, T-A, C-G |
|
|
Term
|
Definition
added nucleotides are complementary to the nucleotides in the old strand
A T C C G A T T G
T A G G C T A A C |
|
|
Term
Semiconservative Replication |
|
Definition
in the two DNA molecules formed, one strand is old and one strand is new.
advantage because one strand is ond and one strand is new. confidence in replication |
|
|
Term
Changes in genetic information |
|
Definition
mutation
effects of mutation
mutagens
chromosome disorders
|
|
|
Term
|
Definition
change in genetic information
many different types
since there is a large amount of genetic information, mutations do occur occasionally. |
|
|
Term
|
Definition
can correct some types of DNA damage |
|
|
Term
proteins synthesized from genes with mutations |
|
Definition
|
|
Term
|
Definition
the most serious are those that decrease a cell's efficiency
DNA mutations to cells in the developing embryo can also cause serious problems |
|
|
Term
the most serous are those that decrease a cell's efficiency
|
|
Definition
phenylketonuria (PKU)
cells are unable to utilize phenylalanine (an amino acid). so the cell starts to break it down but it can't finish the process. the intermediate compound(s) build up and cause toxicity. |
|
|
Term
DNA mutations to cells in the developing embryo can also cause serious problems |
|
Definition
once cell with mutations can affect the many cells that it becomes. Thus, it couls affect organs or other body parts.
body parts formed wrong, PKU |
|
|
Term
|
Definition
things that can cause mutations
UV light (sun/tanning bed)
X rays (working there with no protection)
chemicals in tobacco and petroleum products (smoke and chew, tar)
some metals (copper) |
|
|
Term
|
Definition
disorders characterized by an abnormal number of chromosomes |
|
|
Term
cause of chromosome disorders |
|
Definition
nondisjunction
failure of certain chromosomes to separate during the formation of sex cells
believed to occur during egg formation
usually results in the death of the embryo becuause, post fertilization, the cells have too many or too few of that chromosome.
50% or 150% of what it needs
those that can survive=sex chromosomes.
|
|
|
Term
sex chromosome disorders (due to the nondisjunction of the sex chromosomes)
|
|
Definition
must have at least 1 X
it holds too much info not too.
turner's syndrome
klinefelter syndrome
XYY condition |
|
|
Term
|
Definition
XO
individual is sterile and the sex organs remain immature (apper female)
she will prematurely age and has a short life expectancy (often less than 20 yrs)
|
|
|
Term
|
Definition
XXY
individual will be sterile with feminine musculature and partially developed breasts (appears male).
tend to be tall and mentally retarded
|
|
|
Term
|
Definition
nondisjunction must occur in the sperm of both Y chromosomes to remain
individual (male) usually is over 6ft tall and slightly mentally retarted
it has no effect on fertility
|
|
|
Term
|
Definition
|
|
Term
|
Definition
nondisjunction in autosome where the zygote (feterilized egg) get 3 chromosomes of one kind.
for most chromosomes, they contain too much information. trisomy causes death.
|
|
|
Term
|
Definition
trisomy of the 21st chromosome pair (92-95%)
other 5% = trisomy 22
linked to mother's age (<20 yrs chance=1/1550 ; >45yrs chance= 1/25)
they have undeveloped reproductive organs and often have protruding tongue
many, not all, are mentally retarded and some have heart malformations
|
|
|
Term
|
Definition
proteins are composed of polypeptide chains. the sequence of amino acids for the chains is encoded in the DNA.
requires energy input (ATP) from the cell |
|
|
Term
|
Definition
messenger RNA (mRNA)
ribosomal RNA (rRNA)
Transfer RNA (tRNA) |
|
|
Term
|
Definition
mRNA
takes information from the DNA to the ribosomes, where the protein will be made. |
|
|
Term
|
Definition
rRNA
forms part of the ribosomes |
|
|
Term
|
Definition
tRNA
carries the amino acids to the ribosome for polypeptide assembly
has a three base sequence ("anticodon") |
|
|
Term
Protein synthesis consists of: |
|
Definition
transcription
editing/processing of mRNA
translation |
|
|
Term
|
Definition
the DNA information is encoded into mRNA
occurs in the nucleus
|
|
|
Term
Transcription consists of |
|
Definition
the section of DNA, with the pattern for the polypeptide, uncoils
the mRNA attaches to the DNA in a complementary fashion.
DNA- A T C G C A C T T
mRNA-U A G C G U G A A
each set of 3 bases is a "codon." each codon codes for a specific amino acid.
after the mRNA has matched up with the entire DNA section (gene), it detaches. |
|
|
Term
editing/processing of mRNA
|
|
Definition
|
|
Term
|
Definition
part of the gene that contains the code for the polypeptide |
|
|
Term
|
Definition
noninformational regions within a gene that separates exons |
|
|
Term
editing/processing of mRNA consists of: |
|
Definition
before the mRNA leaves the nucleus, the introns are removed and the exons are spliced together. |
|
|
Term
|
Definition
the information carried by mRNA is decoded and used to assemble the polypeptide
occurs in the cytoplasm |
|
|
Term
|
Definition
ribosome holds the mRNA
ribosome attaches the mRNA codon to the correct tRNA anticodon
ribosome hooks the amino acids together and then moves to handle the next codon
when the last amino acid is hooked up, the protein is released by the ribosome. |
|
|
Term
|
Definition
how one's genetic code affects how the person looks and functions |
|
|
Term
gene expression consists of: |
|
Definition
individual characteristics result from the interactions of one's heredity with one's environment
heredity
environmental factors
|
|
|
Term
individual characteristics result from |
|
Definition
the interactions of one's heredity with one's environment
equally important |
|
|
Term
|
Definition
transmission of genetic information from parent to offspring
via DNA in the sperm and egg |
|
|
Term
environmental factors can and do influence the way genes are expressed
|
|
Definition
besides genes, the following can also be affected by:
height (diet and disease)
avg height 1900 5'4" avg height now 5'7"
skin color (exposure to UV light and liver damage--jaundice)
intelligence (diet, head injuries, and even parental encouragement)
fetal alcohol syndrome, protein defieciency can lead to mental retardation
|
|
|