Evolution Exam 1 Study Guide
Descent with modification
1. Earth and life are OLD 2. New life-forms derive from older forms = macroevolution 3. All life-forms are related = Shared Ancestry 4. Lineages split and diverge = speciation 5. Species change over time = microevolution
Types of mutation
1. Point mutation 2. Insertion 3. Gene duplication 4. Deletion 5. Genome duplication 6. Inversion 7. Chromosome fusion
Synapomorphies
A derived form of a trait that is shared by a group of related species (i.e. one that evolved in the immediate common ancestor of the group and was inherited by all of its descendants)
Phylogram
A phylogenetic tree with branch lengths proportional to the amount of character change
Dendogram
A picture of evolutionary relationships No time scale, no weighting of characteristics, not based on empirical data A primitive hypothesis of evolutionary descent E.x. Darwin's first phylogeny
Evolutionary reversal
A reversion of a derived character state to a form resembling its ancestral state
Gene duplication
A segment of DNA is copied a second time A small duplication can produced an extra copy of a region inside a gene, or a copy of an entire gene
Inversion
A segment of DNA is flipped around and inserted backwards into its original position
Insertion
A segment of DNA is inserted into the middle of an existing sequence This insertion may be as short as a single base or as long as thousands of bases
Deletion
A segment of DNA may be deleted accidentally A small portion of a gene may disappear, or an entire set of genes may be removed
Morphogen
A signaling molecule that flows between nearby cells and acts directly to alter expression of target genes
Synapsids
A skull with one hole in it for jaw musculature Found in mammals Evolved later than diapsids
Diapisids
A skull with two holes in it for jaw musculature Found in reptiles Allows for strong bites
Polyphenism
A trait for which multiple, discrete phenotypes can arise from a single genotype depending on environmental circumstances
Analogous trait
A trait that has a similar function in two species because they both independently evolved it (convergent evolution) NOT due to a common ancestor
Exaptation
A trait that initially carries out one function and is later co-opted for a new function. The original function may or may not be retained E.x. Dinosaur feathers were originally used for coloration, became co-opted for flight
Genome duplication
All the nuclear DNA in a cell is copied
Dominant allele
Allele that exerts itself over the other allele, is always expressed In heterozygotes, will express itself over the recessive allele to determine the phenotype
Biological evolution
Any change in the inherited traits of a population that occurs from one generation to the next (i.e., over a time period longer than the lifetime of an individual in the population) Change has to be passed down Encoded in genes
Mutation
Any change to the genomic sequence of an organism Multiple types of mutations
Lord Kelvin
Argued that the earth couldn't be hundreds of millions of years old Proposed that the earth was formed as molten rock which space then cooled into the crust. The heat left inside the planet flowed to the surface. Thus if a rock cools at a steady rate (and rocks deep underground are still warm), the earth has not cooled enough to be super old. He estimated the earth to be 20 million years old at most This was wrong b/c his calculations were based on earth as a rigid sphere
Nucleotide
Basic unit of DNA Has a nitrogenous base 4 types Guanine pairs with cytosine Thymine pairs with adenine
Amino Acids
Basic unit of proteins 20 different types Have primary - Quaternary structure Each amino acid is determined by codons (3 bases) on DNA
Homologous trait
Characteristics which are similar in two or more species because they are inherited from a common ancestor
Alfred Russel Wallace
Corresponded closely with Darwin Wallace effect - Two different populations separate and speciate. If they meet again, hybrids selected against, speciation occurs again (now called reinforcement) Also proposed that life had evolved Agreed with the idea of natural selection His letters to Darwin were read at the Linnean society
Recombination
Crossing over during meiosis Creates genetic variation
Transposable element
DNA sequence that can change position within the genome, at times creating or reversing mutations and altering the cells genome size Discovered by Barabara McClintock
Radioactive isotopes
Decay at a steady rate and have a half life Half life = the amount of time it takes for half of the isotope's atoms to decay Parent isotope decays into more stable daughter isotopes Used for radiometric dating = using the half-lifes of atoms in rocks to estimate their age
Homoplasy
Describes a character state similarity not due to shared descent (e.g produced by convergent evolution or evolutionary reversal)
Monophyletic
Describes a group of organisms that form a clade Most recent common ancestor with all of its descendants
Paraphyletic
Describes a group of organisms that share a common ancestor although the group does not include all the descendants of that common ancestor
Polyphyletic
Describes a taxon that does not include the common ancestor of all members of the taxon A grouping of two species without a common ancestor included
Marie Curie
Discovered radioactive isotope decay Instrumental in development of radiometric dating (carbon dating)
William Smith
Discovered that different rock layers contained distinct fossils (old fossils in old rocks, new fossils in newer rocks) Thus the different strata of rocks were set apart by time E.x. A dinosaur that lived 100 million years ago would be found in the layer of rock that was set down around that time
Barbara McClintock
Discovered transposable elements Studied Maize corn
Thomas Malthus
Economists who thought that population growth would outstrip food production Humans would reach their carrying capacity on earth due to lack of natural resources
Charles Darwin
English naturalist Trained at medical school Traveled on the HMS beagle in 1931 Collected many fossils, living organisms Studied geology Developed the theory of evolution (descent with modification) Published "On the Origin of Species" Influenced by many who came before him Believed in common ancestry, natural selection
Mary Annig
English woman who discovered many marine fossils on the English coast These fossils provided evidence for the concept of evolution
Artificial selection
Evidence of microevolution (species change over time) When humans select for certain traits in a population, breeding animals so that those traits become more common or exaggerated
Macroevolution
Evolution occurring above the species level, including the origination, diversification, and extinction of species over long periods of evolutionary time
Microevolution
Evolution occurring within populations, including adaptive and neutral changes in allele frequencies from one generation to the next
Speciation
Evolutionary process by which new species arise Speciation causes one evolutionary lineage to split into two or more lineages
Nicolas Steno
Father of geology and stratigraphy (study of layering in rock) Believed "tongue stones" were actually fossilized shark teeth Two critical ideas 1. Life and earth had a history of change 2. Earth itself kept a record of that history Didn't believe in evolution Catholic Bishop
Carl Linnaeus
Father of modern taxonomy Classified animals into a system and hierarchy Organized life into species, genus, phylum, etc Believed God had created life's diversity in the beginning (i.e. all species have been present from the beginning of creation)
Georges Cuvier
French naturalist who pioneered the study of paleontology Compared elephant fossils to modern skeletons and discovered key differences Proposed these fossils (called mammoths) were species that had gone extinct Believed species had gone extinct and others rose up to take their place Rejected evolution
Point mutation
Gene mutation in which a single base pair in DNA has been changed
Genotype
Genetic make up of an individual Also applies to specific alleles for any gene of interest
Clade
Group of related organisms Organism and all of its descendants
How are whales related to hippos?
Have many homologous structures - earbone structure, presence of a pelvic girdle, presence of anklebones
Independent assortment
How homologous chromosomes align at meiosis Also creates genetic variation
Adaptations
Inherited traits of an individual that allow it to outcompete other members of the same population that lack the trait Adaptations are traits that have evolved through the mechanism of natural selection
Jean-Baptiste Lamarck
Life driven from simple to complex Complex species had descended from microbes Believed animals could adapt to their environment (Giraffe stretching his neck to eat) - this adaptation would then be passed down to its offspring (this was incorrect b/c somatic mutations cant be passed down) First proponent of evolution
Panspermia Hypothesis
Life originated elsewhere in the universe and traveled here on asteroids and meteorites The primitive cells then colonized earth
Oparin-Haldane model
Life started on earth from a chemical "soup" Eventually DNA, proteins, lipids were found in the soup These gave rise to eventual organisms
Natural Selection
Mechanism that can lead to evolution, whereby differential survival and reproduction of individuals cause some genetic types to out-compete others NOT survival of the fittest ( only true if fittest means producing more offspring) Started by random mutation which is helpful in the habitat Passing these genes on is the MOST important thing
Biomarker
Molecule produced only through biological activity Include fragments of DNA, lipids, etc Molecular evidence of life in the fossil record
Recessive allele
Must be homozygous in order to be expressed Will not be expressed in a heterozygote
Germ-line mutations
Mutations in gametes (eggs, sperm) of an individual that can be transmitted to offspring Because they can be passed on, germ-line mutations create the heritable genetic variation that is relevant to evolution
Somatic mutations
Mutations that occur in body cells and are passed down to all daughter cells produced by the mutated cell Can affect the phenotype of the individual Not passed down to offspring
Ockham's razor/ The principle of Parsimony
Notion that the simplest explanation of a phenomenon is the one that is most likely to be correct. Parsimony = the phylogenetic tree with the least amount of changes is probably correct
Phenotype
Observable, measurable characteristics of an organism Determined by genotype and environment
Viral reassortment
Occurs when genetic material from different strains gets mixed into new combinations within a single individual Several strains of a virus come together, become more potent, can then attack humans
Chronogram
Phylogenetic tree that shows time of evolution through its branch length Most common in publications
Georges Buffon
Proposed that the earth formed according to laws of physics and chemistry and from debris of the Sun Believed earth to be old (70,000 years) Proposed that life started from organic particles in the ocean Believed life had distinct types when it first emerged, BUT also thought populations could change over time Argued life had changed over time
Taxon
Refers to groups of organisms that a taxonomist judges to be cohesive units, such as a species or order Group of organisms put together as a unit (phylum, etc)
Ploidy
Refers to the number of copies of unique chromosomes in a cell (n) Haploid = n Diploid = 2n Triploid = 3n
Extinction
Refers to the permanent loss of a species Marked by the death or failure to breed of the last individual
James Hutton
Scottish chemist and geologist Recognized that change is gradual on earth - processes (like sediment deposition) accumulate over time Thus thought that the earth was very old
Polyphenic trait
Single genotype produces multiple phenotypes depending on environment
Phenotypic plasticity
The ability of one genotype to produce more than one phenotype when exposed to different environments
Random fertilization
The combination of each unique sperm with each unique egg increases genetic variability Not all sperm reach every egg
Reaction Norm
The pattern of phenotypic expression of a single genotype across a range of environments
Gene expression
The process by which information from a gene is transformed into a product
Zoonosis
The process of infectious disease transmission between species When a disease jumps from an animal to a human
Taxonomy
The science of describing, naming, and classifying species of living or fossil organisms
Paleontology
The study of prehistoric life
Cladogram
Tree with branching pattern that shows relationships between organisms Groups similar organisms together Doesn't show time or ancestral relationships thus it is not an evolutionary tree
Chromosome fusion
Two chromosomes are joined together as one
Phylogeny
Visual representation of the evolutionary history of populations, genes, or species Always a hypothesis of the evolutionary relationships b/w species
Heterozygotic state
When a trait has both the dominant and recessive allele The dominant allele is expressed over the recessive
Homozygous state
When a trait has the both of the same type of allele Can either be both dominant or both recessive
Shared Ancestry
When two species share a common ancestor All life can be traced back to one ancestor The more two species share an ancestry, the closer related they are
Convergent evolution
the independent origin of similar traits in separate evolutionary lineages Similar environments lead to similar adaptations in unrelated species E.x. Both birds and bats evolved to fly but aren't closely related
