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Transcript
Mendelian Genetics
Mendelian Genetics
 Gregor Mendel (July 20, 1822 – January 6, 1884)
 Augustinian priest and scientist, and is often called the father of genetics
for his study of the inheritance of traits in pea plants. Mendel showed that
the inheritance of traits follows particular laws, which were later named
after him. The significance of Mendel's work was not recognized until the
turn of the 20th century. Its rediscovery prompted the foundation of the
discipline of genetics.
Mendelian Genetics
 Genetics
 The passing of traits to the next generation is called
inheritance, or heredity.
 The science of heredity and the mechanism by which traits
are passed from parents to offspring is called genetics.
 Modern genetics is based on Mendel’s explanations for the
patterns of heredity in garden pea plants.
Mendelian Genetics
 Genetics
 In the study of heredity, physical features that are inherited
are called characters.
 A trait is one of several possible forms of a character.
 The offspring of a cross between parents that have
contrasting traits is called a hybrid.
Mendelian Genetics
 Pea Plants
 The garden pea plant is a good subject for studying heredity
because the plant has contrasting traits, usually selfpollinates, matures quickly and produces many offspring.
 In garden pea plants, each flower contains both male and
female reproductive parts. This arrangement allows the
plant to self-pollinate, or fertilize itself.
 Cross-pollination occurs when pollen from the flower of
one plant is carried by insects or by other means to the
flower of another plant.
Mendelian Genetics
Mendelian Genetics
 Cross-Pollination
 Most of Mendel’s experiments involved crossing different
types of pea plants. In this case, the word cross means “to
mate or breed two individuals.”
Mendelian Genetics
 Mendel’s First Experiment
 Mendel’s first experiments used monohybrid crosses and
were carried out in three steps.
 A monohybrid cross is a cross that is done to study one
pair of contrasting traits. Crossing a plant that has purple
flowers with a plant that has white flowers is an example of
a monohybrid cross.
 Each step involved a new generation of plants. A
generation is a group of offspring from a given group of
parents.
Mendelian Genetics
 Monohybrid Cross
Mendelian Genetics
 Steps of the First Experiment
 Plants that self-pollinate for several generations produce
offspring of the same type. Such a plant is said to be truebreeding for a given trait.
 The first group of parents that is crossed in the experiment
is called the parental generation or P generation.
 The offspring of the P generation is called the first filial
generation, or F1 generation.
 Mendel allowed the F1 generation to self-pollinate and
produce new plants. He called this offspring the second
filial generation, or F2 generation.
Mendelian Genetics
Mendelian Genetics
 Results of the First Experiment
 All of Mendel’s F1 plants expressed the same trait for a given
character. The contrasting trait seemed to have
disappeared.
 The contrasting trait reappeared, however, in some of the F2
plants when the F1 plants were allowed to self-pollinate.
 For each of the seven characters that Mendel studied, he
found a similar 3-to-1 ratio of contrasting traits in the F2
generation.
Mendelian Genetics
Mendelian Genetics
 Mendelian Theory of Heredity
 Mendel developed several hypotheses to explain the results
of his experiments.
 These hypotheses are collectively called the Mendelian
theory of heredity and form the foundation of modern
genetics.
 Mendelian theory explains simple patterns of inheritance.
In these patterns, two of several versions of a gene combine
and result in one of several possible traits.
 Different traits result from different versions of genes. Each
version of a gene is called an allele.
Mendelian Genetics
 Alleles
 Each allele can lead to a unique trait. Traits can come from
either parent because each pair of alleles is separated when
gametes form during meiosis.
 During fertilization, two alleles for that trait unite. So that
only one of the pair is passed on to offspring.
Mendelian Genetics
 Mendel’s Law of Segregation
 The law of segregation holds that when an organism
produces gametes, each pair of alleles is separated and each
gamete has an equal chance of receiving either one of the
alleles.
Mendelian Genetics
 Mendel’s Law of Independent Assortment
 The law of independent assortment holds that during
gamete formation, the alleles of each gene segregate
independently. This results in random genes on each
chromosome.
 Genes that are located close together on the same
chromosome will rarely separate independently.
Post-Quiz
10 Questions
1. Who is the “father” of
modern genetics?
2. Different versions of a gene
are called _______?
3. The study of how traits are
passed off to the next
generation is called
____________?
4. The first group of parents
that is crossed in the
experiment is called the
___________________.
5. _______________ :
pairs of alleles are separated,
each gamete has an equal
chance of receiving either one.
6. __________________ :
results in random genes on
each chromosome.
7. What type of organism did
Mendel work with?
8. What is the title of today’s
notes?
9. Plants that self-pollinate
and produce offspring of the
same type are called
__________________ .
10. _____________ is an event
during meiosis when the
chromosomes switch genes.
BONUS!
After Mendel crossed the
F1 generation what was
the ratio for the F2
generation?