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GENETICS
Nature’s Solar Panel
ASEXUAL REPRODUCTION

Reproduction without sex
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Genetically identical
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Cloning
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Propagating
SEXUAL REPRODUCTION
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Fertilization between male and
female plants
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Gametes

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Sexual cells
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Sperm
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Egg
Gametes form a single offspring
cell
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Zygote
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First cell of a new individual
SEXUAL REPRODUCTION

Gamete cells have 1 set of chromosomes


Haploid cells
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Sperm (1n)
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Egg (1n)
Sperm and egg combine to create a zygote cell
with 2 sets of chromosomes (2n)
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Diploid cell
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One set from each parent
Meiosis is the cell division that creates gametes
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Similar to mitosis
SEXUAL REPRODUCTION

Sperm and egg merge to form zygote
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Complete set of chromosomes
SEXUAL REPRODUCTION
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Genetic recombination can
spontaneously occur during meiosis
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Crossing over of DNA
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Variability
SEXUAL REPRODUCTION
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Zygote is a diploid cell
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2 sets of chromosomes (2n)
Three sets can occur (3n)
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
Triploid
Sterile organism
STRUCTURE OF DNA

Chromosomes composed of 2 types
of large molecules
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DNA

Protein
STRUCTURE OF DNA

DNA is a long double helix chain


Resides in nucleus
Composed of nucleotides

Adenine (A)

Guanine (G)
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Cytosine (C)
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Thymine (T)
STRUCTURE OF DNA

Nucleotides form only two “rungs” on the
double helix ladder



A—T

C—G
The sequence of pairs is the code or
instructions on growth, color, function, etc.


Base pairs
Morse code or Braille
A typical plant cell contains billions of pairs
GENETIC INFORMATION

A segment of the DNA strand
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Gene

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Determine plant height, flower color, drought
tolerance…
Direct the production of enzymes (protein)

Proteins function as enzymes

Facilitate chemical reactions
GENETIC INFORMATION

The total sum of DNA in an organism’s
chromosomes


Single cell bacterium


Genome
Several thousand genomes
Complex organisms

50,000 genomes
DUPLICATION OF DNA

Duplication of DNA needed to divide cells
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The base pairs are disconnected




Rungs broken apart
The double helix strands unzipped
New pairs can be reestablished on each strand

A—T

C—G
Two double helices are completed
DUPLICATION OF DNA

Mismatch error occurs about once every
million pairs

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Mutation
Corn contains 4 billion base pairs

4000 mutations possible
MUTATION

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Causes of mismatching errors are mutagens
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Genetic recombination
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UV light

Radiation
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Carcinogens
Mismatching errors change sequence of base
pairs

Repair enzymes fix mutations

Do not catch all of them
MUTATION
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Most mutations are silent


No visible consequence
Mutations that occur in cell and passed on
through mitosis
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Somatic mutation

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Not through seeds
Branch that looks different than rest of plant


Sport
Can be propagated

Naval oranges
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Red delicious apples
MUTATION
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Mutations that occur in gametes
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Germ-line
Genetic changes passed on to offspring
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Flower color
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Fragrance
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Taste
MUTATION
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Mutation essential for evolution
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Organisms adapt to changing
environment
MENDELIAN GENETICS
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Cross breeding different characteristics

Removed stamens on one parent plant
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Manually fertilized with pollen from other parent
plant
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Tall pea plant x short pea plant = intermediate
plant?
MENDELIAN GENETICS
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Parent plants (P)
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P tall x P dwarf
Offspring between parent plants (F1)
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P tall plant x P dwarf plant = ALL TALL PLANTS (F1)
MENDELIAN GENETICS
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Offspring between F1 plants gives rise to F2
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F1 tall plant x F1 tall plant = 3 TALL PLANTS (F2) and 1 DWARF (F2)
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For every 3 tall plants, there will be one dwarf
MENDELIAN GENETICS
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Every cell has one set of chromosomes
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One from each parent
Alternative forms of gene expression
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Alleles
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Height
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Seed color
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Flower color
MENDELIAN GENETICS
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One allele is considered dominant
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G = green-pod dominant
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g = yellow-pod recessive
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Green-pod allele dominant over yellow-pod allele
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If both parent plants had G allele
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F1 offspring will have GG
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Green-pod
If one parent plant has G allele, the other parent
plant had g allele
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F1 offspring will have Gg
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Green-pod
MENDELIAN GENETICS
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If both parent plants have g allele
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F1 offspring will have gg
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Yellow-pod
MENDELIAN GENETICS
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Genetic make up of an organism
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Genotype
MENDELIAN GENETICS
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Physical appearance of an organism
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Phenotype
MENDELIAN GENETICS
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Both alleles are identical
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Homozygous
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GG = green-pod
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gg = yellow-pod
Alleles are different
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Heterozygous
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Gg = green-pod
MENDELIAN GENETICS
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Single trait is studied
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Monohybrid cross
MENDELIAN GENETICS
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Multiple traits are linked
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Dihybrid cross
MENDELIAN GENETICS
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Neither allele is completely dominant
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Incomplete dominance
Snapdragon flower color
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RR = red
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rr = white
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Rr = pink
MENDELIAN GENETICS
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Recessive allele the result of a mutation
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Not fully functional allele
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Smooth peas (SS) versus wrinkled peas (ss)
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s allele due to malfunction in converting
glucose into starch
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Water loss higher during drying period
S will produce adequate starch