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Diversity in the Living World Biol 1403

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Title: Diversity in the Living World Biol 1403


1
Diversity in the Living World Biol 1403
  • What is biology?
  • The science or study of life.
  • What is life?
  • A way of capturing and using energy and raw
    materials

2
Characteristics of Life
  • A way of sensing and responding to the
    environment
  • A capacity to reproduce
  • Its an evolving process, this means that the
    traits characterizing individuals in a population
    can change from one generation to the next

3
More about Living Organisms
  • There will be many examples that we will come
    across in this course that will explain how
    organisms are
  • Constructed
  • Function
  • Able to live in an environment
  • Able to do certain tasks

4
Concepts
  • Throughout these lectures I will provide an
    overview of basic biological concepts.
  • Unity underlies the world of life
  • All organisms are alike in key aspects
  • Ex kidneys
  • Ex reproduction

5
Concepts
  • - they all consist of one or more cells made of
    the same kind of substances and put together
    involving the same basic principles.
  • - they require energy for their activities
    which they obtain from their surroundings
  • - all organisms sense and respond to the
    changing conditions of their environment

6
Variety
  • - they all have the capacity to grow and
    reproduce, based on instructions contained in DNA
  • There is tremendous variety in the life forms
    that we see around us
  • - millions of different kinds (species) of
    organisms

7
Variety
  • DNA Helix

8
Variety
  • Who knows how many more species of organisms
    there may have been at the earliest stages of
    life on earth, each with their own unique
    characteristics (traits)
  • Charles Darwin, a 19th century naturalist,
    developed theories of evolution which helped to
    explain the diversity that exists among
    organisms, especially his theory of evolution by
    natural selection

9
Variety
  • Darwin

10
Darwin and Evolution
  • Darwins theories attempted to coalesce various
    disciplines of biology.
  • Like other branches of science, biology depends
    on observations, hypotheses, predictions, and
    observational and experimental tests
  • To test these scientific theories, it is
    necessary to get out among the various organisms
    and study them carefully

11
Variety
  • Scientific Method Flowchart
  • Define/Identify the Problem
  • Form a Hypothesis
  • Make Observations or Test Hypothesis and Perform
    Experiments
  • Organize and Analyze Data
  • Do Experiments and Observations Support
    Hypothesis?
  • If No, Perform New Experiments and Repeat Step 4
  • Draw Conclusions
  • Communicate Results

12
DNA, Energy and Life
  • A book
  • A car
  • A computer
  • A jellyfish
  • A dog
  • A whale
  • What do these items have in common?

13
Molecular Make-Up
  • They are all made of atoms
  • - atoms have protons, electrons, and neutrons
    as building blocks.
  • What do living things have (i.e., building
    blocks) that provide the organism the potential
    for life?

14
Variety
  • Sodium atom

15
Essential Molecules
  • Some building blocks
  • - nucleic acids
  • - proteins
  • - carbohydrates
  • - lipids
  • In nature, only cells build these molecules

16
Building Blocks
  • DNA RNA

17
Building Blocks
  • Proteins Lipids

18
Building Blocks
  • Carbohydrate

           
19
DNA
  • What is the smallest unit that has the capacity
    for life?
  • - It is the nucleic acid called, DNA,
  • deoxyribonucleic acid
  • DNA has the instructions for assembling a variety
    of proteins from smaller molecules known as Amino
    acids.

20
DNA
  • Helical Structure

21
Products of DNA
  • A particularly important type of protein made by
    DNA is the Enzyme.
  • - Enzymes can give energy to a chemical
    reaction, build, split and rearrange molecules of
    life.
  • - Some enzymes are involved with nucleic acids
    such as, RNA (ribonucleic acid) which then take
    the message they receive from DNA to make proteins

22
From DNA to Protein
  • The basic pathway would look like this
  • DNA ? RNA ? Protein

23
DNA and Inheritance
  • All cells contain this nucleic acid and as the
    cell divides, the molecule (DNA) is replicated in
    the new cells.
  • New cells and multi-celled organisms inherit
    their defining traits from their parents.

24
The Bottom Line
25
Inheritance
  • This is the acquisition of traits through the
    transmission of DNA from the parents to the
    offspring.
  • The term, reproduction, is used for the actual
    mechanisms of transmitting DNA to offspring.

26
DNA is the Key
  • DNA also guides development.
  • In a multi-celled organism, tissues and organs
    are specialized to perform specific functions.
  • Consequently, the DNA contained in these cells
    is programmed to transcribe a set of instructions
    to another nucleic acid, mRNA.

27
DNA is just the start
  • This molecule carries the genetic message from
    DNA to outside the nucleus.
  • The mRNA then attaches to a ribosome
  • It is at the site of the ribosome where
    proteins are assembled.

28
Roles for Proteins
  • Proteins are required by an organism
  • for specific functions
  • Transporting molecules out of the cell
  • Repairing membranes
  • Building additional tissues
  • And much more.

29
Protein involvement
  • Proteins needed for overall development
  • Insect development and growth
  • Moth metamorphosis
  • - Egg, larva, pupa, and adult

30
Metamorphosis
  • Cicada moulting

31
Cellular building blocks
  •   

                                 
32
Connections
  • Amino acid to Protein

33
How things get done.
  • Energy
  • - Besides needing DNA, cells need Energy to
    survive.
  • - This work is seen at the level of the atom
  • - Atoms either give up, share or accept
    electrons

34
ATP?
  • This process or activity occurs during the
    phase of molecular synthesis, catabolism or
    rearrangement.
  • Energy is needed to make these things happen.
    In biological systems, energy will be provided in
    the form of ATP, adenosine triphosphate.

35
Further Defining Life
  • Metabolism
  • This is another characteristic of whether
    something can be considered as living.
  • - all the controlled enzyme-mediated chemical
    reactions by which cells acquire and use energy
    to synthesize, store, degrade and eliminate
    substances in ways that contribute to growth,
    survival and reproduction.

36
Metabolism
  • Every living cell has the capacity to
  • Obtain and convert energy from its surroundings
  • To use energy to maintain itself, grow and
    produce more cells

37
A Metabolic Process
  • An example of metabolism might be
  • - Photosynthesis
  • - - sunlight is converted into
    chemical energy, in the form of ATP
    molecules
  • light
  • 12H2O 6CO2 ? ? 6O2 C6H12O6 6H20
  • energy

38
Photosynthesis
  • 6 Oxygens
  • 1 Sugar
  • 6 Waters

39
Plant Metabolism
  • We will discuss later how the plant captures the
    sunlight energy and converts it into chemical
    energy in the form of glucose, water and energy.

40
Plants
41
Metabolism
  • ATP is involved in helping hundreds of metabolic
    events proceed by transferring energy to reaction
    sites where it affects enzymes in a way that
    enables them to synthesize or breakdown molecules
    that can be used by the organism.

42
Aerobic Respiration
  • This is a process that can release energy that
    cells stored earlier in the form of starch and
    other kinds of molecules.

43
Respiration
  • Krebs Cycle

44
Characteristics of Life
  • Living things are made of cells.
  • Living things obtain and use energy.
  • Living things grow and develop.
  • Living things reproduce.
  • Living things respond to their environment.
  • Living things adapt to their environment

45
Characteristics of Life
  • A Stimulus is a specific form of energy that a
    receptor can detect.
  • EX sunlight energy
  • heat energy
  • binding energy
  • mechanical energy

46
Characteristics of Life
  • Cells adjust metabolic activities in response to
    signals from receptors
  • EX glucose and diabetes (receptors)
  • Organisms respond nicely to energy changes so
    that their internal operating conditions usually
    remain within tolerable limits

47
Homeostatis
  • Cell

48
Characteristics of Life
  • This state in which physical and chemical aspects
    of the internal environment are being maintained
    within ranges suitable for a cells activities is
    called, Homeostasis

49
Biological Organization
  • A cell is the smallest organizational unit having
    a capacity to survive and reproduce on its own,
    given DNA instructions, building blocks, energy
    inputs and other suitable conditions.
  • EX Amoeba

50
Single Cell Animal
  • Amoeba

51
Biological Organization
  • Multi-cellular organisms consisting of
    specialized interdependent cells, typically are
    organized in tissues and organs.
  • Though even isolated human cells remain alive
    under controlled conditions in the laboratory
    (cell cultures)

52
Biological Organization
  • Cells and multi-celled organisms are usually a
    part of a Population a group of organisms of the
    same kind.
  • EX Zebra Hela cells

53
Biological Organization
  • All populations of all species living in the
    same area, live in a community.
  • EX trees bacteria zebras
  • Refer to page 6 in the text

54
Interdependence
  • Animals that directly or indirectly obtain
    their food energy stored in tissues of producers
    are known as, Heterotrophs.
  • They are also known as, Consumers.

55
Interdependence
  • A great flow of energy from the sun into the
    world of life starts with Producers.
  • Plants and other organisms that make their own
    food are known as Autotrophs
  • EX

56
Interdependence
  • Then there are a class of organisms that will
    breakdown sugars and other organic and biological
    molecules to simpler materials, some of which are
    re-cycled back to the producers. These organisms
    are known as, Decomposers.
  • EX

57
Interdependence
  • Organisms connect with one another via one-way
    flow of energy through them a cycling of
    materials among them (Fig. 1.6 pg. 7)
  • Their interconnectedness affects the structure,
    size, and composition of population
    communities. It can affect ecosystems and even
    the biosphere.
  • Think of Food shortages
  • Cholera epidemics
  • Acid rain global warming

58
Bacterial Diseases
  • Cholera

59
Summary
  • Characteristics that all living things have in
    common.
  • They stay alive by way of
  • - metabolism
  • - ongoing energy transfers at cell level
  • - sense and response to environment
  • - have capacity to reproduce pass on traits

60
Diversity
  • Living organisms have one other feature in
    common, a vast amount of diversity.
  • There are millions of kinds (species) of
    organisms.

61
Classification
  • With so many species a method is needed to
    distinguish the different varieties of sponges,
    horses, fishes etc.
  • Carolus Linneaus designed a classification
    scheme using a two-part name to identify species.

62
Classification
  • KINGDOM
  • PHYLUM
  • CLASS
  • ORDER
  • FAMILY
  • GENUS
  • SPECIES

63
Classification
  • The first part designates the Genus.
  • The genus encompasses all of the species that
    are closely related because of their form,
    function, and ancestry.
  • The second part of the name designates a
    particular species within a genus.

64
Classification
  • EX The Lone Star Tick
  • Amblyomma americanum

65
Classification
  • EX The American Cockroach
  • Periplaneta americanum

66
Classification
  • Biologists group species that are related by
    descent from a common ancestor.
  • Scholars once recognized only 2 groups,
  • Animals
  • Plants

67
Classification
  • Now, most biologists favor a three-domain system
    of classification.
  • Bacteria Archaea Eukarya
  • There are 6 groups within these domains

68
Classification
  • These groups are known as Kingdoms
  • Archaebacteria Eubacteria
  • Protistans Fungi
  • Animals Plants

69
Classification
  • Archaebacteria single-celled prokaryotes that
    are found in hot springs, salt lakes other
    harsh environments.

70
Classification
  • Eubacteria true bacteria are more common and
    widespread than Archaebacteria
  • SEM SEM
  • Enterococcus Pseudomonas

71
Classification
  • Protistans - widely ranging microbes, including
    slime molds, protozoa and primitive algae.
    Eukaryotic
  • Amoeba Pfiesteria

72
Classification
  • Animals - multicellular, while most Protista
    (excepting the multicellular algae, which are
    plant-like) are unicellular. Heterotrophism
    separates the animals and fungi from plants, and
    the lack of cell walls in animal cells makes them
    distinct from fungi. Animals possess several
    other unique features. These include interior
    digestion of food, a digestive tract where
    enzymes are secreted digestion occurs.

73
Classification
  • Animals can be very diverse.
  • EX herbivores
  • carnivores
  • parasites
  • scavengers

74
Classification
  • Fungi eukaryotic, heterotrophic and
    saprophytic. Composed of filaments called
    hyphae and contain chitin in their cell walls.

75
Classification
  • Plants - composed of multicellular, autotrophic
    organisms. Photosynthesize to fix inorganic
    carbon into organic molecules. Plants are primary
    autotrophs

76
Diversity
  • How can we have so many different kinds of
    organisms with many looking very similar?
  • One source of variation is the Mutation.

77
Diversity
  • DNA works to
  • Ensure its instructions produce offspring
    resemble its parents
  • While permitting variations in the details of
    most traits

78
Diversity
  • Some changes or variations in traits are neither
    desirable or advantageous.
  • These changes, mutations, may affect the
    individual at the genetic level, genotype, or at
    the physical level, phenotype.

79
Diversity
  • These mutations may be harmful and affect the
    bodys,
  • Growth, Development, or Function
  • Some mutations may be harmless or beneficial.

80
Diversity
  • A beneficial mutation can be seen in the UK
    coal-burning factories example.
  • Dark-colored moths v. light-colored moths
  • Also an example of Natural Selection

81
Natural Selection
  • An evolutionary mechanism that occurs when
    some individuals of a population are better able
    to adapt to their environment and, subsequently,
    produce more offspring. Nature, in effect,
    selects which members of a population are fit to
    survive long enough to reproduce. Differential
    productive success between individuals is the
    key. Those who produce more offspring have a
    greater influence on the gene frequencies of the
    next generation. This mechanism of evolutionary
    change was first articulated by Charles Darwin.
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