Fundamental Properties of Life. Defining Properties of Life –1. Properties exhibited by life today are different from those at its origin. –2. Change.

Fundamental Properties of Life Fundamental Properties of Life

Defining Properties of LifeDefining Properties of Life

– 1. Properties exhibited by life today 1. Properties exhibited by life today are different from those at its origin. are different from those at its origin.

– 2. Change over time, or evolution, has 2. Change over time, or evolution, has generated many unique living generated many unique living properties. properties.

– 3. Definitions based on complex 3. Definitions based on complex replicative processes would exclude replicative processes would exclude non-life, but also early forms from non-life, but also early forms from which cellular life descended. which cellular life descended.

– 4. We do not force life into a simple 4. We do not force life into a simple definition; yet we can readily definition; yet we can readily recognize life from nonliving world. recognize life from nonliving world.

General Properties of Living Systems General Properties of Living Systems (7 properties)(7 properties)

1. Chemical Uniqueness1. Chemical Uniqueness

– a. Macromolecules in organisms are far a. Macromolecules in organisms are far more complex than molecules in more complex than molecules in nonliving matter. nonliving matter.

– b. They obey the same physical laws as b. They obey the same physical laws as nonliving molecules but are more nonliving molecules but are more complex. complex.

– c. Nucleic acids, proteins, carbohydrates c. Nucleic acids, proteins, carbohydrates and lipids are common molecules in life. and lipids are common molecules in life.

– d. Their general structure evolved early; d. Their general structure evolved early; thus the common amino acid subunits of thus the common amino acid subunits of proteins are found throughout life. proteins are found throughout life.

– e. They provide both a unity based on e. They provide both a unity based on living ancestry and a potential for living ancestry and a potential for diversity. diversity.

Portion of lysozyme protein

2. Complexity and Hierarchical 2. Complexity and Hierarchical Organization Organization

– a. Life has an ascending order of complexity: a. Life has an ascending order of complexity: macromolecules, cells, organisms, populations and macromolecules, cells, organisms, populations and species. species.

– b. Each of these levels has an internal structure: b. Each of these levels has an internal structure: macromolecules form ribosomes and membranes, macromolecules form ribosomes and membranes, etc. and cells form tissues. etc. and cells form tissues.

– c. However, each level has unique abilities and c. However, each level has unique abilities and requirements; cells can replicate but are not requirements; cells can replicate but are not independent in an organism.independent in an organism.

– d. New characteristics that appear at the next level d. New characteristics that appear at the next level of organization are emergent properties. of organization are emergent properties.

– e. Because of the interactions of the components, e. Because of the interactions of the components, we must study all levels directly as well as we must study all levels directly as well as together. together.

– f. Diversity of emergent properties at higher levels f. Diversity of emergent properties at higher levels is a result of evolution (i.e. lower levels without is a result of evolution (i.e. lower levels without hearing cannot develop language). hearing cannot develop language).

3. Reproduction3. Reproduction

– a. Life comes from previous life. a. Life comes from previous life.

– b. Genes replicate genes, cells divide to b. Genes replicate genes, cells divide to produce new cells and organisms produce new cells and organisms produce new organisms sexually or produce new organisms sexually or asexually. asexually.

– c. Reproduction is not necessary of c. Reproduction is not necessary of individuals, but is necessary for a individuals, but is necessary for a lineage to survive. lineage to survive.

– d. Reproduction is a combination of d. Reproduction is a combination of contradictory processes - of copying contradictory processes - of copying traits but with variation. traits but with variation.

– e. If heredity were perfect, life would e. If heredity were perfect, life would never change; if it were wildly never change; if it were wildly variable, life would lack stability. variable, life would lack stability.

4. Possession of a Genetic Program4. Possession of a Genetic Program

– a. Structures of protein molecules are encoded in a. Structures of protein molecules are encoded in nucleic acids. nucleic acids.

– b. Genetic information in animals is contained in b. Genetic information in animals is contained in DNA.DNA.

– c. Sequences of nucleotide bases (A, C, G and T) c. Sequences of nucleotide bases (A, C, G and T) code for the order of amino acids in a protein. code for the order of amino acids in a protein.

– d. The genetic code is correspondence between d. The genetic code is correspondence between bases in DNA and sequence of amino acids. bases in DNA and sequence of amino acids.

– e. This genetic code was established early in e. This genetic code was established early in evolution and has undergone little change. evolution and has undergone little change.

– f. The genetic code in animal mitochondrial DNA is f. The genetic code in animal mitochondrial DNA is slightly different from nuclear and bacterial DNA. slightly different from nuclear and bacterial DNA.

– g. Changes in mitochondria DNA (it contains fewer g. Changes in mitochondria DNA (it contains fewer proteins) are less likely to disrupt cell functions. proteins) are less likely to disrupt cell functions.

5. Metabolism5. Metabolism

– a. Living organisms maintain themselves a. Living organisms maintain themselves by obtaining nutrients from the by obtaining nutrients from the environment. environment.

– b. Breakdown of nutrients provides both b. Breakdown of nutrients provides both energy and molecular components for energy and molecular components for cells. cells.

– c. Metabolism is the range of essential c. Metabolism is the range of essential chemical processes. chemical processes.

– d. Metabolism involves constructive d. Metabolism involves constructive (anabolic) and destructive (catabolic) (anabolic) and destructive (catabolic) reactions. reactions.

– e. Most metabolic pathways occur in e. Most metabolic pathways occur in specific cell organelles. specific cell organelles.

– f. The study of the performance of f. The study of the performance of complex metabolic functions is complex metabolic functions is physiology. physiology.

6. Growth and Development6. Growth and Development

– a. Development describes a. Development describes characteristic changes an organism characteristic changes an organism undergoes from origin to adult. undergoes from origin to adult.

– b. It involves changes in size and b. It involves changes in size and shape, and differentiation within the shape, and differentiation within the organism. organism.

– c. Some animals have uniquely c. Some animals have uniquely different embryonic, juvenile and different embryonic, juvenile and adult forms. adult forms.

– d. The transformation from stage to d. The transformation from stage to stage is metamorphosis. stage is metamorphosis.

– e. Among animals, early stages of e. Among animals, early stages of related organisms are more similar. related organisms are more similar.

7. Environmental Interaction7. Environmental Interaction

– a. Ecology is the study of an organism's a. Ecology is the study of an organism's interaction with the environment. interaction with the environment.

– b. Organisms respond to stimuli in the b. Organisms respond to stimuli in the environment, a property called environment, a property called irritabilityirritability. .

– c. We cannot separate life and its c. We cannot separate life and its evolutionary lineage from its environment. evolutionary lineage from its environment.

Life Obeys Physical Laws Life Obeys Physical Laws

1.1. First Law of Thermodynamics First Law of Thermodynamics (the law of conservation of energy)(the law of conservation of energy)

– a. Energy cannot be created or destroyed; it can be a. Energy cannot be created or destroyed; it can be transformed from one form to another. transformed from one form to another.

– b. All aspects of life require energy. b. All aspects of life require energy.

– c. In animals, chemical energy in food is converted to c. In animals, chemical energy in food is converted to chemical energy in cells and then converted to mechanical chemical energy in cells and then converted to mechanical energy of muscle contraction. energy of muscle contraction.

2. Second Law of Thermodynamics2. Second Law of Thermodynamics

– a. Physical systems tend to proceed toward a state of greater disorder, or a. Physical systems tend to proceed toward a state of greater disorder, or entropy. entropy.

– b. Energy obtained and stored by plants is released in many ways and b. Energy obtained and stored by plants is released in many ways and eventually lost as heat. eventually lost as heat.

– c. It takes a constant input of usable energy from food to keep an animal c. It takes a constant input of usable energy from food to keep an animal organized. organized.

– d. The process of evolution does not violate the second law; complexity is d. The process of evolution does not violate the second law; complexity is achieved by constant use and dissipation of energy flowing into the biosphere achieved by constant use and dissipation of energy flowing into the biosphere from the sun. from the sun.

– e. Physiologists study survival, growth, reproduction, etc. from an energetic e. Physiologists study survival, growth, reproduction, etc. from an energetic perspective. perspective.

A.A. Characteristics of AnimalsCharacteristics of Animals

– 1. Animals are a branch of the evolutionary tree 1. Animals are a branch of the evolutionary tree of life. of life.

– 2. Animals are part of a large limb of 2. Animals are part of a large limb of eukaryotes, organisms that include fungi and eukaryotes, organisms that include fungi and plants with nuclei in cells. plants with nuclei in cells.

– 3. Animals are unique in nutrition; they eat other 3. Animals are unique in nutrition; they eat other organisms and therefore need to capture food. organisms and therefore need to capture food.

– 4. Animals lack photosynthesis, cell walls found 4. Animals lack photosynthesis, cell walls found in plants, and also lack absorptive hyphae of in plants, and also lack absorptive hyphae of fungi. fungi.

– 5. Species of 5. Species of EuglenaEuglena are examples of protists are examples of protists that combine properties of animals and plants. that combine properties of animals and plants.

EuglenaEuglena

chloroplasts

A.A. The Nature of Science The Nature of Science

– 1. Science is a way of asking about the natural world to obtain 1. Science is a way of asking about the natural world to obtain precise answers. precise answers.

– 2. Asking questions about nature is ancient; modern science is 2. Asking questions about nature is ancient; modern science is about 2000 years old. about 2000 years old.

– 3. Science is separate from activities such as art and religion. 3. Science is separate from activities such as art and religion.

– 4. The Overton trial over creation science provided a definition of 4. The Overton trial over creation science provided a definition of science. science.

• a. Science is guided by natural law (physical and chemical laws that a. Science is guided by natural law (physical and chemical laws that govern the state of existence)govern the state of existence)

• b. Science has to be explanatory by reference to natural law. b. Science has to be explanatory by reference to natural law.

• c. Science is testable against the observable world. c. Science is testable against the observable world.

• d. Science conclusions are tentative; they are rarely the final word. d. Science conclusions are tentative; they are rarely the final word.

• e. Science is falsifiable.e. Science is falsifiable.

– 5. Science is neutral regarding religion and does not favor one 5. Science is neutral regarding religion and does not favor one religious position over another. religious position over another.