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Bio 110

Terms

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AMINO GROUP
N SINGLE BONH H SINGLE BOND H SINGLE BOND H
CARBOHYDRATES
CONTAINS AN ALDEHYDE OR A KETONE GROUP AND ONE OR MORE HYDROXL GROUPS
CARBONYL GROUP
C DOUBLE BOND O SINGLE BOND H
Cell wall
Protects structually supports cells
Central Vacouole
Increases cell surface area store metabolic waste
Chloropplast
Specializes in photosynthectic duties
CYTOSKELOTON
STRUCTUALLY IMPARTS SHAPES TO CELL AND ITS COMPONENTS.
EXAMPLES OF CARBOHYDRATES AND THEIR FUNCTIONS
GLUCLOSE WHICH IS A SIMPLE SUGAR AND AN ENERGY SOURCE/ SUCROSE WHICH IS THE MOST COMMON FORM OF SUGAR AND OFTEN TRANSPORTED THROUGH PLANTS/ STARCH, GLYCOGEN WHICH IS AN ENERGY STORER
FIVE WAYS REACTIONS CAN TAKE PLACE
FUNCTIONAL GROUP TRANSFER ELECTRON TRANSFER REARRANGEMENT CONDENSATION CLEAVAGE
FUNCTIONS OF CARBONYL GROUP
IN SUGARS, AMINO ACIDS NUCLEOTIDES WATER SOLUABLE. AN ALDEHYDE IF AT THE END OF A CARBON BACKBONE
FUNCTIONS OF METHLY GROUP
IN FATTY ACID CHAINS INSOLUABLE WITH WATER
FUNCTIONS OF THE AMINO GROUP
IN AMINO ACIDS AND CERTAIN NUCLEOTIDE BASES IS WATER SOLUABLE AND ACTS AS A WEAK BASE
FUNCTIONS OF THE PHOSPHATE GROUP
IN NUCLEOITIDES ALSO IN DNA RNA MANY PROTIENS PHOSPHOLIPIDS AND IS WATER SOLUABLE IS ALSO ACIDIC
FUNTIONS OF HYDROXYL GROUP
IN ALCHOHOLS SUCH AS SUGARS AMINO ACIDS AND IT IS WATER SOLUABLE
Golgi Bodies
Modifies sorts ships protiens and lipids for export or for insertion into cell membrane
HYDROXYL GROUP
OH
LINOLENIC ACID
THREE DOUBLE BONDS IN BACKBONE UNSATURATED
LIPIDS
MAINLY HYDROCARBON GENNERALLY DO NOT DISSOLVE IN WATER BUT DISSOLVEES IN NON POLAR SUBSTANCESSUCH AS OTHER LIPIDS
LYSOSOMES
DIGEST RECYCLE MATERIAL
METHLY GROUP
C SINGLE BOND H SINGLE BOND H SINGLE BOND H
Mitochondrion
tHE ENERGY OR THE POWERHOUSE OF THE CELL. IT PRODUCES ATP BY AEROBIS RESPERATION
NAME THE THREE FATTY ACIDS
STERIC ACID LENOLOC ACID OLEIC ACID
Nucleus
Keeps DNA and it transcription into rna away from pottentially damaging reactions in cytoplasm
OLEIC ACID
DOUBLE BOND IN BACKBONE IS UNSATURATED
OLIGOSACCARIDE
SHORT CHAIN OF COVALENTLY BONDED SUGAR MONOMERS
ORGANNELLES
MEMBRANE BOUND SACS
PHOSPHATE GROUP
P DOUBLE BOND O SINGLE BOND O SINGLE BOND O SINGLE BOND O
PHOSPHOLIPIDS
GLYCEROL BACKBONE, TWO NON POLAR FATTY ACID TAILS AND A POLAR HEAD
POLYPEPTIDE CHAINS
CONSIST OF THREE OR MORE AMINO ACIDS
POLYSACCARIDE
STRAIGHT AND BRANCHED OF MANY SUGAR MONOMERS
PRIMARY STRUCTURE
FORMS SHEETS IS ALSO A LINEAR SEQUENCE OF AMINO ACIDS
Ribosomes
Sites of protien synthesis
Rough ER
Modifies new polypeptide chains, synthesizes lipids
SECONDARY STRUCTURE
MANY HYDROGEN BONDS ALONG A POLYPEPTIDE CHAIN RESULTS IN MULTIPLE SHEETS ARE HELLICAL COILED LIKE STRUCTURES
Smooth ER
Diverse roles make lipids degrades fats inactivates toxins
STERIC ACID
CARBON BACKBONE FULLY SATURATED WITH HYDROGEN ATOMS
STEROLS
ARE MADE FROM MANY LIPIDS BUT NO FATTY ACIDS
SULFHYDRYL GROUP
SH
SULFHYDRYL GROUP FUNCTIONS
IN AMINO ACID CYSTIENS, HELPS STABALIZE PROTIEN STRUCTURES.
THREE SECTIONS OF CARBOHYDRATES
MONOSACCARIDES OLIGOSACCARIDES POLYSACCARIDES
VESECILES
TRANPORTS SUBSTANCES FROM ONE ORGANELLES TO THE NEXT
WAXES
LONG CHAIN FATTY ACIDS Y=TIGHTYLY PACKED INTO A BOND TO LONG ALCOHOLS OR CARBON RINGS
WHAT ARE THE ESSENTIALS MOLECULES OF LIFE
NITROGEN OXYGEN HYDROGEN CARBON SULFRU PHOSPHORUS
WHAT IS A CLEAVAGE REACTION
A MOLECULE SPLITS INTO TWO SMALLER ONES
WHAT IS A CONDENSATION REACTION
ENZYMES SPLIT AN OH GROUP FROM ONE MOLECULE AND AN H ATOM FROM ANOTHER AND A COVALENT BOND FORMS AT BOTH SIDES.
WHAT IS HYDROLYSIS AND HOW DOES IT RELATE TO CONDENSATION
ENZYMES SPLIT MOPLECULES AT SPECIFIC GROUPS THE ATTACH ONE -OH GROUP AND AN H ION DERIVED FROM A WATER MOLECULE TO EXPOSED SITES. CELLES CAN CLEAVE POLYMERS INTO SMALLER MOLECULES WHEN THESE ARE REQUIRED FOR BUILDING BLOCKS OR FOR ENERGY
WHAT IS THE DIFFRENCE BETWEEN A PLANT CELL AND AN ANIMAL CELL
THE LOCATION OF THE NUCLEUS

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