Mendel & The Gene Idea
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Transcript of Mendel & The Gene Idea
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Mendel & The Gene Idea
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Why Mendel Chose Peas?
• Contrasting traits • Contain both sexes (self poliniation)• Genetically simple
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Pollen transferred from white flower to stigma of purple flower
anthersremoved
all purple flowers result
Mendel’s work
F1
P
F2
self-pollinate
• Bred pea plants– cross-pollinate
true breeding parents (P)• P = parental
– raised seed & then observed traits (F1)• F = 1st generation
– allowed offspring to self-pollinate & observed next generation (F2)
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Mendel collected data for 7 pea traits
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What did Mendel’s findings mean?• Traits come in alternative versions– purple vs. white flower color– alleles• alternate versions of a gene (one member of a pair)
located on a specific position (locus) on a chromosome– some difference in sequence of A, T, C, G
purple-flower allele & white-flower allele are two DNA variations at flower-color locus
different versions of gene at same location on homologous chromosomes
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What did Mendel’s findings mean?• Some traits mask others – purple & white flower colors are separate traits
that do not blend • purple x white ≠ light purple• purple masked white
– dominant allele • functional protein– always expressed in phenotype
• masks other alleles – recessive allele • masked unless homozygous• allele makes a
malfunctioning protein
homologouschromosomes
I’ll speak for both of us!
allele producingfunctional protein
mutant allele malfunctioningprotein
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Genotype vs. phenotype• Difference between how an organism
“looks” & its genetics– phenotype • physical appearance (purple)
– genotype • genetic makeup (genes = letters….PP, Pp, pp)
Explain Mendel’s results using…dominant & recessive …phenotype & genotype F1
P X
purple white
all purple
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Making crosses• Can represent alleles as letters– flower color alleles P or p– true-breeding purple-flower peas PP– true-breeding white-flower peas pp
___ x ___
___F1
P X
purple white
all purple
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Looking closer at Mendel’s work
F2generation
3:1
P
self-pollinate
Xtrue-breedingpurple-flower peas
true-breeding white-flower peas
75%purple-flower peas
25%white-flower peas
___ ___
100%F1generation(hybrids)
100%purple-flower peas
___ ___ ___ ___
????
phenotype
genotype
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Punnett squaresPp x Pp
male / sperm
fem
ale
/ egg
s
PP
___
___
___
___
___
___
____
%genotype
%phenotype
pp
Pp
Pp
F1generation(hybrids)
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Genotypes • Homozygous = same alleles = PP, pp• Heterozygous = different alleles = Pp
homozygousdominant
homozygousrecessive
heterozygous
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Phenotype vs. genotype• 2 organisms can have the same phenotype
but have different genotypes
homozygous dominantPPpurple
Pp heterozygouspurple
How do you determine the genotype of an individual withwith a dominant phenotype?
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Test cross• Breed the dominant phenotype —
the unknown genotype — with a homozygous recessive (pp) to determine the identity of the unknown allele
ppis itPP or Pp?
x
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PP pp
How does a Test cross work?
Pp pp
x x
100% purple 50% purple:50% white or 1:1
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Mendel’s 1st law of heredity• Law of segregation – during meiosis, alleles segregate• homologous chromosomes separate
– each allele for a trait is packaged into a separate gamete
PP
P
P
pp
p
p
Pp
P
p
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Monohybrid cross• Some of Mendel’s experiments followed
the inheritance of single characters – flower color– seed color – monohybrid crosses
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Dihybrid cross• Other of Mendel’s
experiments followed the inheritance of 2 different characters – seed color and
seed shape– dihybrid crosses
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Dihybrid crosstrue-breedingyellow, round peas
true-breedinggreen, wrinkled peasx
_____ _____P
_____100%F1
generation(hybrids)
yellow, round peas
9:3:3:1
Y = yellowR = round
y = greenr = wrinkled
self-pollinate
F2generation 9/16
yellowround peas
3/16greenround peas
3/16yellowwrinkledpeas
1/16greenwrinkledpeas
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What’s going on here?• If genes are on different chromosomes…– how do they assort in the gametes?– together or independently?
YyRr
YR yr
YyRr
Yr yRYR yr
Is it this?
Or this?
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9/16yellowround
3/16greenround
3/16yellowwrinkled
1/16greenwrinkled
Dihybrid crossYyRr YyRr
YR yr
YR
yr
x
YyRr
Yr yRYR yr
YyRr
YR yr
or
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Dihybrid crossYyRr YyRr
YR Yr yR yr
YR
Yr
yR
yr
x9/16yellowround
3/16greenround
3/16yellowwrinkled
1/16greenwrinkled
YyRr
Yr yRYR yr
YyRr
YR yr
or
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Mendel’s 2nd law of heredity
roundwrinkled
• Law of independent assortment– different loci (genes) separate into gametes
independently • non-homologous chromosomes align independently• classes of gametes produced in equal amounts– YR = Yr = yR = yr
• only true for genes on separate chromosomes or on same chromosome but so far apart that crossing over happens frequently
yellowgreen
: 1 1 : 1:1Yr Yr yR yR YR YR yr yr
YyRr
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Law of Independent Assortment Which stage of meiosis creates
the law of independent assortment?
Metaphase 1
EXCEPTION If genes are on same chromosome &
close together will usually be inherited together rarely crossover separately “linked”
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The chromosomal basis of Mendel’s laws…
Trace the genetic events through meiosis, gamete formation & fertilization to offspring
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Review: Mendel’s laws of heredity • Law of segregation– monohybrid cross
• single trait– each allele segregates into separate gametes
• established by Metaphase 1
• Law of independent assortment– dihybrid (or more) cross
• 2 or more traits – genes on separate chromosomes
assort into gametes independently• established by Metaphase 1
metaphase1