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organic chemistry
branch of chemistry that specializes in the study of carbon compounds
major elements in organic compounds
CHNOPS
organic compounds
contains carbon and hydrogen
diversity of carbon
it has 4 valence electrons
how many bonds can carbon form?
4 covalent bonds
carbon's most frequent bonding partners
hydrogen, oxygen, nitrogen
what types of bonds can carbon form?
single, double, or triple
what are the 4 macromolecules?
carbohydrates, lipids, proteins, nucleic acids
isomers
molecules that have the same molecular formula but differ in atom arrangement
structural isomer
varies in covalent arrangement
cis-trans isomer
differ in spatial arrangement
enantiomers
mirror images of molecules
functional groups
behavior of organic molecules depends on these
hydroxyl function
can form hydrogen bonds with water molecules helping to dissolve sugars, found in alcohols
carbonyl function
found in sugars and gives rise to ketoses and aldoses
carboxyl function
acts as an acid and can donate H ion, found in cells in the ionized form
amino function
acts as a base, can pick up an H+ from the surrounding solution
sulfhydryl function
cross-linking to stabilize protein structure
phosphate function
forms ATP reactions with water to form ADP
methyl function
affects DNA expression
dehydration synthesis
synthesizes a polymer by removing a water molecule
hydrolysis
breaks down a polymer by adding a water molecule
carbohydrate monomers
monosaccharides (glucose, fructose, galactose)
monomers
building blocks of polymers
hydrogen:oxygen ratio in carbs
2:1
dissaccharides
two monosaccharides joined by glycosidic linkage
glycosidic linkage
covalent bond by a dehydration reaction
common dissacharides
maltose, sucrose, lactose
maltose
glucose + glucose
sucrose
glucose + fructose
lactose
glucose + galactose
polymers
chains of monomers
glycogen
found in animals for energy storage
starch
found in plants for energy storage
cellulose
found in plants for structure
chitin
found in insects for structure
functions of proteins?
enzymes, storage, hormones, movement, defending, transport, receptors, structural
enzymatic proteins
selective acceleration of chemical reactions
storage proteins
storage of amino acids
hormonal proteins
coordination of an organism's activities
contractile and motor proteins
movement
defensive proteins
protection against disease
transport proteins
transport of substances
receptor proteins
response of cell to chemical stimuli
structural proteins
to support
how many amino acids are there?
20 amino acids
what is the bond between amino acids?
peptide bonds
protein monomer
amino acid
amino acid
organic molecule with both an amino group and a carboxyl group
alpha carbon
the central carbon atom of each amino acid
chemical and physical properties depend on what?
amino acids, which affect polypeptides
nonpolar amino acids
hydrophobic
polar amino acids
hydrophilic
acidic amino acids
negatively charged due to carboxyl group (hydrophilic)
basic amino acids
positively charged due to carboxyl group (hydrophilic)
amino acid polymers
polypeptides
polypeptides
amino acids bonded trhhough dehydrationg, forming a peptide bond
why do proteins spontaneously fold?
due to bonds (like hydrogen, ionic, disulfide bridges)
a proteins function depends on what?
its ability to recognize and bind to other molecules (very specific)
primary structure
the sequence of amino acids
secondary structure
either an alpha helix or beta pleated sheet.
tertiary structure
results from interactions between side chains.
quarternary structure
the protein chains in a closely packed arrangement
what determines protein structure?
conditions like pH, salt concentration, temperature
denaturation
loss of normal shape of a protein due to heat or other factor
when is denaturation common?
when proteins are transferred from an aqueous environment to a nonpolar solvent
serious diseases are linked to what?
misfolded proteins
gene
sequence of DNA that codes for a protein and determines a trait
nucleic acid
DNA and RNA
nucleic acid monomer
nucleotide
DNA (full name)
deoxyribonucleic acid
RNA (full name)
ribonucleic acid
functions of DNA
directs RNA synthesis, replicates, protein synthesis
DNA
genetic material inherited from parents
mRNA
messenger RNA, carries instructions from the nucleus to ribosomes to produce proteins
where are ribosomes?
cytoplasm
where is DNA stored?
nucleus
prokaryotes don't have what?
nucleus, they still use mRNA
nucleotide
made a 3 parts
3 parts of a nucleotide
5 carbon sugar (pentose), phosphate (1-3), nitrogenous base
nucleoside
the portion of nucleotide with no phosphate group
nucleic acid polymer
polynucleotide (DNA and RNA)
nitrogenous base
1 to 2 rings that include nitrogen atoms, two families
pyrimidine family
one 6-membered ring of carbon and nitrogen atoms
cytosine
pyrimidine. pairs with guanine. found in both DNA and RNA
thymine
pyrimidine. pairs with adenine. found only in DNA. replaced by uracil in RNA.
uracil
pyrimidine. pairs with adenine. found only in RNA. replaces thymine
purine family
one 6-membered ring fused with one 5-membered ring
adenine
purine. pairs with thymine in DNA and uracil in RNA
guanine
purine. pairs with cytosine. found in both DNA and RNA
what do nitrogenous bases attach to?
sugar, deoxyribose or ribose
what bonds adjacent nucleotides?
phosphodiester linkage
phosphodiester linkage
a phosphate group that links the sugars of two nucleotides
sugar-phosphate backbone
a repeating pattern of sugar-phosphate-sugar-phosphate
how to find 5' and 3'
start from the oxygen and count in a clockwise motion
double helix
two strands of nucleotides wound about each other; structure of DNA
antiparallel
subunits run in opposite directions (5' and 3')
DNA's structure
accounts for its function of transmitting genetic information
structure of RNA
single strand
tRNA
transfer RNA, brings amino acids to the ribosome