Larry M. Frolich, Ph.D. Biology Department, Yavapai College DNA and chromosomes Long DNA molecules (millions of base pairs long) in nucleus are called chromosomes Each chromosome is organized and packaged or wrapped up with proteins giving it a certain shape In humans, 23 pairs of chromosomes –1 of each pair from mother –1 of each pair from father Total view of all 23 pairs is called karyotype
Larry M. Frolich, Ph.D. Biology Department, Yavapai College
Human Genetics and Evolution Genetics and Inheritance Natural
Selection Historical Fact of Evolution Humans Today and Agriculture
Larry M. Frolich, Ph.D. Biology Department, Yavapai College DNA and
GENETICS Cells divide and pass on instructions coded in DNA of
chromosomes Each chromosome is a huge DNA molecule with coded
information DNA has dual role: DNA replicates to pass on
information DNA is transcribed to make proteins that run cell
metabolism Larry M. Frolich, Ph.D. Biology Department, Yavapai
College DNA and chromosomes Long DNA molecules (millions of base
pairs long) in nucleus are called chromosomes Each chromosome is
organized and packaged or wrapped up with proteins giving it a
certain shape In humans, 23 pairs of chromosomes 1 of each pair
from mother 1 of each pair from father Total view of all 23 pairs
is called karyotype Larry M. Frolich, Ph.D. Biology Department,
Yavapai College Each chromosome is a single DNA molecule wrapped up
within a special group of proteins giving it a particular shape
Chromosomes Larry M. Frolich, Ph.D. Biology Department, Yavapai
College Genes and Genome Genome: entire DNA of cell (all DNA
molecules) also includes DNA of mitochondria, chloroplasts in
eukaryotes Thought question: Are viruses, phages, transposons part
of genome? Gene: Region along DNA molecule that codes for 1 protein
usually 1000's of base pairs long E. coli lac operon is first gene
whose regulation and function was understood at molecular level in
coding of DNA Larry M. Frolich, Ph.D. Biology Department, Yavapai
College DNA is transcribed and translated to make proteins that run
cell metabolism DNA is transcribed to mRNA mRNA is translated to
amino acid sequence Amino acid sequence folds up into protein
Proteins catalyze reactions of cell metabolism This process is
called gene expressionthe information in one region of the DNAa
geneis being expressed so that the cells metabolism can function
Larry M. Frolich, Ph.D. Biology Department, Yavapai College 2 steps
of gene expression 1.Transcription DNA is read to make a mRNA in
the nucleus of our cells 2.Translation Reading the mRNA to make a
protein in the cytoplasm Larry M. Frolich, Ph.D. Biology
Department, Yavapai College Overview of transcription and
translation REMEMBER: A particular region of DNA that has the code
to make a particular protein is called a gene. Larry M. Frolich,
Ph.D. Biology Department, Yavapai College DNA is also structured to
replicate DNA is double helix two complementary strands wound in a
spiral Strands separate and DNA replicates by filling in other half
of each separated strand Famous Watson-Crick model (Nobel prize)
Larry M. Frolich, Ph.D. Biology Department, Yavapai College DNA
replicates to pass on information (to daughter cells in mitosis)
Larry M. Frolich, Ph.D. Biology Department, Yavapai College Changes
in DNA sequence Mutationchange in DNA sequence. Example: Changes in
DNA allow bacteria to resist effects of antibiotics Mutation
changes DNA sequence, which in turn changes protein sequence that
codes for a specific protein in one of the many cell metabolic
pathways Larry M. Frolich, Ph.D. Biology Department, Yavapai
College Mutations can spread through a population Mutation allows
cell to survive in a new environment--in this case, in the presence
of penicillin. This type of beneficial mutations can result in more
individual cells that are resistant to penicillin and can thereby
grow colonies The offspring or daughter cells then continue to
spread throughout the population, especially where penicillin is
present. This is natural selection leading to evolutionary change!!
We have seen it happen...in the laboratory...in the "wild." Fifty
years, ago, almost no bacteria were resistant to penicillin. Today,
some penicillin resistant cells are found in virtually all
bacterial populations. Larry M. Frolich, Ph.D. Biology Department,
Yavapai College How does evolution happen? Darwins great
ideanatural selection Just like artificial selection for
agricultural breeds (in fact, is there any differencewhat is
artificial about human involvement?) Larry M. Frolich, Ph.D.
Biology Department, Yavapai College Inheritance and Natural
Selection Some combinations of alleles, produced during meiosis and
fertilization might be more advantageous This is what leads to
natural selection. Individuals with more advantageous traits will
survive to reproduce and pass on those traits. Darwin realized that
slow changes in inherited traits, due to natural selection produced
the great evolutionary history of life. Before his synthesis of all
the evidence, no one could make sense of living systems. Now,
Nothing in Biology Makes Sense Except in the Light of
EvolutionNothing in Biology Makes Sense Except in the Light of
Evolution --Theodosius Dobzhansky Larry M. Frolich, Ph.D. Biology
Department, Yavapai College Washington University Sickle Cell
Webpage The Classic ExampleSickle Cell Anemia DNA point mutation
Cell/Organism effects Heredity/Spread through population
Species/Community interactions Natural Selection Larry M. Frolich,
Ph.D. Biology Department, Yavapai College Evidence for historical
fact of evolution Fossil record Most rocks contain fossils
Long-term change in biological communities Transitions: origin of
mammals, origin of birds Anatomical similarities Shared
embryological features Shared biochemical and genetic features
Larry M. Frolich, Ph.D. Biology Department, Yavapai College Humans
are primates Our closest living relatives are monkeys and apes We
share a common ancestor, most recently with apes, farther into deep
time with monkeys and even farther in with lemurs and tarsurs The
living species are not our actual ancestorswe need the fossil
record to see them Larry M. Frolich, Ph.D. Biology Department,
Yavapai College Fossil record of primates evolutionarily close to
humans Mediocre to increasingly good human fossil record (see
Smithsonian review article) Not all fossils on direct ancestral
line to humans Past shows many different human and human-like
species living at one time Larry M. Frolich, Ph.D. Biology
Department, Yavapai College Accident of historyone human species
today Good solid evidence that living humans form one single
speciesHomo sapiens Ability to interbreed Little anatomical
difference among populations Little biochemical difference among
populations DNA and protein analysis show recent single common
ancestor within 1 million years, perhaps only 200,000 years ago But
past was different (evolution is not planned!) H. neanderthalis
(200,000 years ago) H. floresiensis (12,000 years ago) Larry M.
Frolich, Ph.D. Biology Department, Yavapai College Homo
floresiensis (12,000 years ago, Pacific Island) Larry M. Frolich,
Ph.D. Biology Department, Yavapai College Comparison Neanderthal
and Modern human skulls Good evidence that Neanderthals buried
dead, had religion, cultural practices, used tools Imagine a world
where another sentient, culturally-driven primate lived! Larry M.
Frolich, Ph.D. Biology Department, Yavapai College Larry M.
Frolich, Ph.D. Biology Department, Yavapai College Humans today
Dominate planet Ecologists have often focused on wild ecosystems
But most landscapes now have some human elements, usually very
strong effects Is this good or bad? And for whom? Larry M. Frolich,
Ph.D. Biology Department, Yavapai College Development of
agricultural systems were evolutionary events Larry M. Frolich,
Ph.D. Biology Department, Yavapai College
