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Heredity and Evolution Review. Life Science 7 Ms. McCarthy. Heredity! . Heredity is the passing of traits from parent to offspring. Traits (phenotypes) are the result one or more gene, that contain directions to make the trait (ex: eye color, height, ear lobe shape.)
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Heredity and Evolution Review Life Science 7 Ms. McCarthy
Heredity! • Heredity is the passing of traits from parent to offspring. • Traits (phenotypes) are the result one or more gene, that contain directions to make the trait (ex: eye color, height, ear lobe shape.) • How an organism ends up with a trait, is by the alleles they have for that trait. • Alleles are the different ways a trait can be expressed.
Alleles and Genotypes • So a trait has a phenotype and genotype. • Phenotype is what you can observe. • Genotype is a 2 letter code that says what alleles an organism has. • An organism can be 1/3 things based on the alleles they inherit (1 from each parent, represented by a letter that is capital for dominant, or lower case for recessive.) • Ex: AA, Aa, aa
Genotype vs. Phenotype • Ok, so let’s say we are talking about hair style.
Punnett Squares • Are a tool for predicting the probability the offspring of 2 organisms will have a certain phentoype. Any letters can be used to represent alleles.
Analyzing Punnett Squares • Here is a cross of 2 parents. • Both are Heterozygous: Aa • Chances are, they will have • 50% heterozygous offspring • 25% homozygous dom. • 25% homozygous recessive • This explains why sometimes offspring do not look much like the parents!
Incomplete Dominance • Sometimes an organism’s phenotype shows a cross between the dominant and recessive trait. • Examples: wavy hair (inbetween curly and straight) • Light blue flower (inbetween blue and white) This is called incomplete dominance.
Polygenic Inheritance and Mutations • Most traits are not as simple as a punnett square makes it look- multiple genes contribute to what the phenotype looks like– this is called polygenic inheritance. • Mutations are disruptions to DNA and are caused by many factors. They can be helpful, harmful or have no effect.
Mendel • Father of Genetics • Experimented with Pea Plants with traits such as flower color, pea color, pea texture. • He made 3 important contributions we call laws: • Law of segregation • Law of dominance • Law of independent assortment
The laws! (Know em’) • Dominance: In a cross of parents that are pure (homozygous) for contrasting traits, only one form of the trait will appear in the next generation. Offspring that are heterozygous for a trait will have only the dominant trait in the phenotype. • 2 homo dominant parents= offspring all homo dominant • 1 homo dominant with 1 hetero= offspring 2 homo dom, 2 hetero • 1 homo dominant with 1 homo recessive= 4 hetero • 2 hetero= 1 homo dom, 1 homo rec, 2 hetero • 2 homo recessives= 4 homo recessives • Segregation: During the formation of gametes (eggs or sperm from meiosis), the two alleles responsible for a trait, separate from each other. Alleles for a trait are then "recombined" at fertilization, producing the genotype for the traits of the offspring. • Sperm contributes A, egg contributes a, zygote will be Aa genotype • Ind. Assortment: Alleles for different traits are distributed to sex cells (& offspring) independently of one another. • A parent can pass a dominant allele for one trait and a recessive for another that does not show in their phenotype.
Sex-linked traits • Some traits are linked to the X or Y chromosome. • These are called sex linked traits. • It is not possible for asexually reproducing organisms to have sex-linked traits or disorders…only those that do meiosis- sexual reproduction.
Advances in Genetics • SEE IF YOU CAN DESCRIBE EACH ONE • Genetic Engineering • Making recombinant DNA • Gene Therapy • GMO plants/genetically-engineered plants
Evolution • How species (groups of organisms that share similar characteristics) change over time due to the inherited characteristics from their parent organisms. • Darwin’s theories made the main body of evidence for evolution. • His studies occurred in the Galapagos islands.
Darwin vs. Lamarck • Lamarck thought that if an organism changed themselves during their lives, the offspring would have those traits. • This would mean a bodybuilder’s kids would inherit HUGE muscles. This is not accurate. Darwin’s theory of the origin of species contains several important vocab words that explain how species change over time.
Darwin’s Observations • Organisms that are best-suited for an environment reproduce; those that are not, die off. This makes those with the best traits more common, and they continue to compete with one another. This is the idea of natural selection. • All organisms tend to have more babies than will live, because they must compete with each other for resources, and the best-suited win and then then continue to reproduce. This is called overproduction.
Observations continued. • Variation is when a trait is slightly different from other traits in a species. Sometimes these changes are small mutations, sometimes they are large. Variation is good because it creates changes that may benefit the species. • When traits are passed on for a long time, the best traits tend to be most common which is how organisms are best adapted for their environments. Being well-suited based on your traits, is what adaptation is. • The environment demands the traits!
Isolation • Sometimes new species are formed when a group of a species is isolated from the rest. This could cause one group to remain the same, while the other over time becomes a new species.
Speed of Evolution • Evolution can happen fast, although it is usually something that takes millions of years. • FAST: Punctuated Equilibrium can occur from rapid mutations and reproduction, or when a large portion of a species does not survive something due to a specific trait that will no longer exist. • Drug-resistant bacteria is one example.
Speed continued: • SLOW: Gradualism is when one species changes to another very slowly. This is how most species today got to be their current forms.
Evidence of Evolution • FOSSILS • We can see that similar things evolved at the same time because of how fossils are found in the same rock layers. • This is relative dating. • We can also see how older layers have less evolved organisms, and with each new layer has more evolved organisms from the last layer. • This is called the fossil-record.
Evidence • FOSSILS • Radiometric dating is using scientific technology to determine how old a fossil is. Elements contained in the fossils have measurable radioactivity that is slowly breaking down.
More Evidence • EMBRYOLOGY • Even complex organisms share traits with things that are much less evolved. For example, human embryos have tails, gills, webbed hands and feet.
More Evidence… • STRUCTURES • Why would whales have leg ones? Because they evolved from land mammals that used legs! The structures are vestigial, and have not gone away yet, but might eventually.
More Evidence…. • STRUCTURES: • Have you ever noticed how a hand, wing, flipper and paw all kind of look the same? These are called homologous structures because they serve similar functions but have bone structures that link them all together. • Think about what makes all things within the same kingdoms and sub-kingdoms similar.
More Evidence: • DNA: • You have more DNA in common with a fly or a type of bacteria than you might think. • This shows shared ancestry.
Primates • Keys to human evolution! • Think of all the things that link humans to monkeys. • What about: • Prosimians • Anthropoids • Hominids • Homo Habilis • Australopithecus • Homo Neanderthalis • Cro-Magnon
