Similarities and Differences Among Living Organisms
description
Transcript of Similarities and Differences Among Living Organisms
Similarities and
Differences Among Living
Organisms
Similarities and
Differences Among Living
Organisms
CELLS MUST USE ENERGY FROM ATP
TO TRANSPORT MOLECULES FROM
AREAS OF LOW CONCENTRATION
THROUGH THE CELL MEMBRANE TO AREAS OF HIGH
CONCENTRATION
CELLS MUST USE ENERGY FROM ATP
TO TRANSPORT MOLECULES FROM
AREAS OF LOW CONCENTRATION
THROUGH THE CELL MEMBRANE TO AREAS OF HIGH
CONCENTRATION
ACTIVE TRANSPORTACTIVE TRANSPORT
PROTEINS ARE DIGESTED TO
PRODUCE SMALLER MOLECULES KNOWN AS
PROTEINS ARE DIGESTED TO
PRODUCE SMALLER MOLECULES KNOWN AS
AMINO ACIDSAMINO ACIDS
BASIC UNITS OF STRUCTURE AND
FUNCTION IN LIVING ORGANISMS
BASIC UNITS OF STRUCTURE AND
FUNCTION IN LIVING ORGANISMS
CELLCELL
THE SEMI-PERMEABLE BILIPID THIN STRUCTURE THAT SURROUNDS
THE CELL
THE SEMI-PERMEABLE BILIPID THIN STRUCTURE THAT SURROUNDS
THE CELL
CELL MEMBRANECELL MEMBRANE
BREAKING NUTRIENTS INTO
SMALLER UNITS TO RELEASE THE
CHEMICAL ENERGY STORED IN THEM
THROUGH A PROCESS KNOWN
AS
BREAKING NUTRIENTS INTO
SMALLER UNITS TO RELEASE THE
CHEMICAL ENERGY STORED IN THEM
THROUGH A PROCESS KNOWN
AS
CELLULAR RESPIRATION
CELLULAR RESPIRATION
A STRUCTURE CONTAINING THE GREEN PIGMENT CHLOROPHYLL
THAT CAPTURES LIGHT ENERGY TO
PRODUCE GLUCOSE FOOD FOR THE PLANT
A STRUCTURE CONTAINING THE GREEN PIGMENT CHLOROPHYLL
THAT CAPTURES LIGHT ENERGY TO
PRODUCE GLUCOSE FOOD FOR THE PLANT
CHLOROPLASTCHLOROPLAST
MOVEMENT OF MATERIALS INSIDE
A CELL OR BETWEEN PARTS
OF A MULTICELLULAR
ORGANISM
MOVEMENT OF MATERIALS INSIDE
A CELL OR BETWEEN PARTS
OF A MULTICELLULAR
ORGANISM
CIRCULATIONCIRCULATION
JELLY LIKE SUBSTANCE INSIDE A CELL THAT CONTAINS
SPECIALIZED STRUCTURES, TRANSPORTS
MATERIALS AND IS THE SITE OF MANY
CHEMICAL REACTIONS
JELLY LIKE SUBSTANCE INSIDE A CELL THAT CONTAINS
SPECIALIZED STRUCTURES, TRANSPORTS
MATERIALS AND IS THE SITE OF MANY
CHEMICAL REACTIONS
CYTOPLASMCYTOPLASM
BREAKING DOWN OF FOOD BOTH
MECHANICALLY & CHEMICALLY TO
PRODUCE MOLECULES SMALL ENOUGH TO PASS THROUGH CELL
MEMBRANES
BREAKING DOWN OF FOOD BOTH
MECHANICALLY & CHEMICALLY TO
PRODUCE MOLECULES SMALL ENOUGH TO PASS THROUGH CELL
MEMBRANES
DIGESTIONDIGESTION
MOVEMENT OF MOLECULES FROM
AREAS OF HIGH CONCENTRATION
TO AREAS OF LOW CONCENTRATION
THAT REQUIRES NO ENERGY
MOVEMENT OF MOLECULES FROM
AREAS OF HIGH CONCENTRATION
TO AREAS OF LOW CONCENTRATION
THAT REQUIRES NO ENERGY
DIFFUSIONDIFFUSION
SPECIAL PROTEINS USED TO EXTRACT
ENERGY FROM NUTRIENTS
SPECIAL PROTEINS USED TO EXTRACT
ENERGY FROM NUTRIENTS
ENZYMESENZYMES
REMOVAL OF METABOLIC WASTE
PRODUCED BY CELLS OF THE
BODY
REMOVAL OF METABOLIC WASTE
PRODUCED BY CELLS OF THE
BODY
EXCRETIONEXCRETION
MAINTAINING A STABLE INTERNAL
ENVIRONMENT
MAINTAINING A STABLE INTERNAL
ENVIRONMENT
HOMEOSTASISHOMEOSTASIS
CHEMICALS PRODUCED BY THE
ENDOCRINE GLANDS THAT CAUSE
CHANGES IN OTHER AREAS OF THE BODY
THE ENDOCRINE SYSTEM’S METHOD
OF COMMUNICATION
CHEMICALS PRODUCED BY THE
ENDOCRINE GLANDS THAT CAUSE
CHANGES IN OTHER AREAS OF THE BODY
THE ENDOCRINE SYSTEM’S METHOD
OF COMMUNICATION
HORMONEHORMONE
THE ABILITY TO RESIST DISEASETHE ABILITY TO RESIST DISEASE
IMMUNITYIMMUNITY
MOLECULES THAT DO NOT CONTAIN
BOTH CARBON AND HYDROGEN
MOLECULES THAT DO NOT CONTAIN
BOTH CARBON AND HYDROGEN
INORGANICINORGANIC
THE COMBINATION OF ALL THE CHEMICAL
REACTIONS THAT OCCUR IN AN ORGANISM
THE COMBINATION OF ALL THE CHEMICAL
REACTIONS THAT OCCUR IN AN ORGANISM
METABOLISMMETABOLISM
POD SHAPED ORGANELLE THAT
CONTAINS ENZYMES TO EXTRACT THE ENERGY FROM
NUTRIENTSaka THE
POWERHOUSE
POD SHAPED ORGANELLE THAT
CONTAINS ENZYMES TO EXTRACT THE ENERGY FROM
NUTRIENTSaka THE
POWERHOUSE
MITOCHONDRIAMITOCHONDRIA
THE STRUCTURE THAT CONTROL’S
THE CELL’S METABOLISM AND STORES GENETIC
INFORMATION
THE STRUCTURE THAT CONTROL’S
THE CELL’S METABOLISM AND STORES GENETIC
INFORMATION
NUCLEUSNUCLEUS
DIFFERENT TISSUES WORKING
TOGETHER TO PERFORM A LIFE
PROCESS FORM A
DIFFERENT TISSUES WORKING
TOGETHER TO PERFORM A LIFE
PROCESS FORM A
ORGANORGAN
SEVERAL ORGANS WORKING
TOGETHER TO PERFORM LIFE
PROCESSES
SEVERAL ORGANS WORKING
TOGETHER TO PERFORM LIFE
PROCESSES
ORGAN SYSTEMORGAN SYSTEM
SPECIALIZED STRUCTURES
WITHIN CELLS THAT PERFORM SPECIFIC LIFE MAINTENANCE
FUNCTIONS
SPECIALIZED STRUCTURES
WITHIN CELLS THAT PERFORM SPECIFIC LIFE MAINTENANCE
FUNCTIONS
ORGANELLEORGANELLE
MOLECULES THAT CONTAIN BOTH CARBON
& HYDROGEN WHICH INCLUDE ALL THE MAJOR
MOLECULES OF LIFE-
NUCLEIC ACIDS, CARBOHYDRATES, LIPIDS
& PROTEINS(aka MACROMOLECULES)
MOLECULES THAT CONTAIN BOTH CARBON
& HYDROGEN WHICH INCLUDE ALL THE MAJOR
MOLECULES OF LIFE-
NUCLEIC ACIDS, CARBOHYDRATES, LIPIDS
& PROTEINS(aka MACROMOLECULES)
ORGANICORGANIC
PROTEIN MOLECULES IN THE
CELLULAR MEMBRANE THAT
RECEIVE CHEMICAL MESSAGES FROM
OTHER CELLS
PROTEIN MOLECULES IN THE
CELLULAR MEMBRANE THAT
RECEIVE CHEMICAL MESSAGES FROM
OTHER CELLS
RECEPTOR MOLECULERECEPTOR MOLECULE
THE PROCESS OF USING OXYGEN TO
BREAK DOWN FOOD MOLECULES
TO RELEASE ENERGY
THE PROCESS OF USING OXYGEN TO
BREAK DOWN FOOD MOLECULES
TO RELEASE ENERGY
RESPIRATIONRESPIRATION
THE PROCESS BY WHICH ORGANISMS
PRODUCE NEW ORGANISMS OF THE SAME KIND
THE PROCESS BY WHICH ORGANISMS
PRODUCE NEW ORGANISMS OF THE SAME KIND
REPRODUCTIONREPRODUCTION
STRUCTURE IMPORTANT TO THE
PROCESS OF MAKING PROTEINS
STRUCTURE IMPORTANT TO THE
PROCESS OF MAKING PROTEINS
RIBOSOMERIBOSOME
THE DIGESTION OF STARCHES RESULTS IN…
THE DIGESTION OF STARCHES RESULTS IN…
SIMPLE SUGARSEXAMPLE- GLUCOSE
SIMPLE SUGARSEXAMPLE- GLUCOSE
COMBINING SIMPLE SUBSTANCES INTO
COMPLEX SUBSTANCES
COMBINING SIMPLE SUBSTANCES INTO
COMPLEX SUBSTANCES
SYNTHESISSYNTHESIS
GROUPS OF SPECIALIZED CELLS
GROUPED AND FUNCTION TOGETHER
GROUPS OF SPECIALIZED CELLS
GROUPED AND FUNCTION TOGETHER
TISSUETISSUE
STORAGE SACS WITHIN THE
CYTOPLASM- SOME STORE MATERIALS SUCH AS FOOD OR
WATER; SOME DIGEST FOOD & OTHERS PUMP
EXCESS OUT OF THE CELL
STORAGE SACS WITHIN THE
CYTOPLASM- SOME STORE MATERIALS SUCH AS FOOD OR
WATER; SOME DIGEST FOOD & OTHERS PUMP
EXCESS OUT OF THE CELL
VACUOLEVACUOLE