Patterns Of Inheritance Modified
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Transcript of Patterns Of Inheritance Modified
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Patterns of Patterns of InheritanceInheritance
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Chapter 12 2
InheritanceInheritance
Inheritance is the process by which the Inheritance is the process by which the characteristics of individuals are characteristics of individuals are passed to their offspringpassed to their offspring
GenesGenes encode these characteristics encode these characteristicsA A genegene is a unit of heredity that encodes is a unit of heredity that encodes
information for the form of a particular information for the form of a particular characteristiccharacteristic
The location of a gene on a chromosome The location of a gene on a chromosome is called its is called its locuslocus
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Chapter 12 3
AllelesAlleles
Homologous chromosomes carry the Homologous chromosomes carry the same kinds of genes for the same same kinds of genes for the same characteristicscharacteristics
Genes for the same characteristic are Genes for the same characteristic are found at the same loci on both found at the same loci on both homologous chromosomeshomologous chromosomes
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Chapter 12 4
AllelesAlleles
Genes for a characteristic found on Genes for a characteristic found on homologous chromosomes may not homologous chromosomes may not be identicalbe identical
Alternate versions or forms of genes Alternate versions or forms of genes found at the same gene locus are found at the same gene locus are called called allelesalleles
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Chapter 12 5
AllelesAllelesEach cell carries two alleles per Each cell carries two alleles per
characteristic, one on each of the two characteristic, one on each of the two homologous chromosomeshomologous chromosomes
If both homologous chromosomes carry the If both homologous chromosomes carry the samesame allele (gene form) at a given gene allele (gene form) at a given gene locus, the organism is locus, the organism is homozygoushomozygous at that at that locuslocus
If two homologous chromosomes carry If two homologous chromosomes carry differentdifferent alleles at a given locus, the alleles at a given locus, the organism is organism is heterozygousheterozygous at that locus (a at that locus (a hybridhybrid))
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Chapter 12 6
11 22 33 44 55 66 77 88 99 1010 1111 1212 1313 1414 1515 1616 1717 1818 1919 2020 2121 2222 2323 2424 2525 2626Loci:Loci:
Genes, Alleles,Genes, Alleles,Loci, and ChromosomesLoci, and Chromosomes
Chromosome from One ParentChromosome from One Parent
Homologous Chromosome from Other ParentHomologous Chromosome from Other Parent
11 22 33 44 55 66 77 88 99 1010 1111 1212 1313 1414 1515 1616 1717 1818 1919 2020 2121 2222 2323 2424 2525 2626Loci:Loci:
M locus has gene that
controls leaf color. Plant
homozygous for this gene
D locus has gene that
controls plant height. Plant homozygous for this gene
Bk locus has gene that
controls fruit shape. Plant
heterozygous for this gene
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Chapter 12 7Definitions 1Definitions 1
Must know these!!!Must know these!!!TraitTrait—A variable characteristic of organism—A variable characteristic of organismGeneGene—A segment of chromosomal DNA —A segment of chromosomal DNA controlling a specific traitcontrolling a specific trait
LocusLocus—Chromosomal position where DNA —Chromosomal position where DNA for a specific gene livesfor a specific gene lives
GenomeGenome—Refers to all standard loci for a —Refers to all standard loci for a speciesspecies
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Chapter 12 8
Definitions 2Definitions 2Must know these!!!Must know these!!!AllelesAlleles—Different forms of a —Different forms of a genegene
• ““Flower color” is a gene;Flower color” is a gene;• ““Purple” is one flower-color allelePurple” is one flower-color allele• ““White” is another flower-color alleleWhite” is another flower-color allele
GenotypeGenotype—List of alleles for an individual at —List of alleles for an individual at specific genesspecific genes
• Familiar organisms are diploidFamiliar organisms are diploid• One or two alleles per individualOne or two alleles per individual
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Chapter 12 9
Definitions 3Definitions 3
HomozygousHomozygous—Maternal & paternal alleles —Maternal & paternal alleles samesame
• Father donates purple-flower alleleFather donates purple-flower allele• Mother donates purple-flower alleleMother donates purple-flower allele
HeterozygousHeterozygous—Maternal & paternal alleles —Maternal & paternal alleles differdiffer
• Father donates purple-flower alleleFather donates purple-flower allele• Mom donates white-flower alleleMom donates white-flower allele
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Chapter 12 10
Definitions 4Definitions 4
PhenotypePhenotype::• List of traits exhibited by individualList of traits exhibited by individual• Doesn’t always represent genotypeDoesn’t always represent genotype
DominantDominant—Allele that is expressed 100% in —Allele that is expressed 100% in heterozygoteheterozygote
RecessiveRecessive—Allele is not expressed in —Allele is not expressed in heterozygoteheterozygote
Incomplete dominanceIncomplete dominance—heterozygote —heterozygote displays intermediate trait displays intermediate trait
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Chapter 12 11
Genetic SymbolismGenetic Symbolism
Often use initial letter of dominant alleleOften use initial letter of dominant allele• CapitalCapital letter represents dominant letter represents dominant• Lower caseLower case of of same lettersame letter represents represents
recessiverecessive
If purple flower dominant to white…If purple flower dominant to white…• ““P” represents allele for purpleP” represents allele for purple• ““p” represents allele for whitep” represents allele for white
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Chapter 12 12
Cross Fertilization of Parents Cross Fertilization of Parents
True-breedingTrue-breedingPurple-floweredPurple-flowered
ParentParent
True-breedingTrue-breedingWhite-floweredWhite-flowered
ParentParent
Cross-FertilizeCross-Fertilize
All Purple-floweredAll Purple-floweredOffspringOffspring
Pollen
Pollen
P P
F1
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Chapter 12 13
Self-fertilization of FSelf-fertilization of F22
F1
Self-FertilizeSelf-Fertilize
F2 F2 F2 F2
75% Purple75% Purple25% White25% White
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Chapter 12 14
Genotype vs PhenotypeGenotype vs Phenotype
Phenotype is how we look/behavePhenotype is how we look/behave• PurplePurple flowers flowers• WhiteWhite flowers flowers
Genotype is what our genes sayGenotype is what our genes say• WhiteWhiteFlowers / Flowers / WhiteWhiteFlowers Flowers • WhiteWhiteFlowers / Flowers / PurplePurpleFlowers Flowers • PurplePurpleFlowers / Flowers / PurplePurpleFlowers Flowers
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Chapter 12 15
Genotype vs Phenotype 2Genotype vs Phenotype 2
GenotypesGenotypes• PP = homozygous for PP = homozygous for purplepurple flower flower• pp = homozygous for pp = homozygous for whitewhite flower flower• Pp = heterozygous for flower colorPp = heterozygous for flower color
Phenotype from genotype:Phenotype from genotype:• PP = PP = purplepurple flower flower• Pp = Pp = purplepurple flower flower• pP = pP = purplepurple flower flower• pp = pp = WhiteWhite flower flower
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Chapter 12 16
How Meiosis Separates GenesHow Meiosis Separates Genes
The two alleles for a characteristic separate The two alleles for a characteristic separate during gamete formation (meiosis)during gamete formation (meiosis)
• Homologous chromosomes separate in Homologous chromosomes separate in meiosis anaphase Imeiosis anaphase I
• Each gamete receives one of each pair of Each gamete receives one of each pair of homologous chromosomes and thus one of homologous chromosomes and thus one of the two alleles per characteristicthe two alleles per characteristic
The separation of alleles in meiosis is The separation of alleles in meiosis is known as Mendel’s Law of Segregationknown as Mendel’s Law of Segregation
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Chapter 12 17
Gametes of HomozygotesGametes of Homozygotes
A A A A
Homozygous ParentHomozygous Parent GametesGametes
All gametes identicalAll gametes identicalregarding this generegarding this gene
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Chapter 12 18
Gametes of HeterozygotesGametes of Heterozygotes
A a A a
Heterozygous ParentHeterozygous Parent GametesGametes
Gametes 50/50Gametes 50/50regarding this generegarding this gene
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Chapter 12 19
pphomozygous
recessive
Homozygous DominantHomozygous DominantX Homozygous RecessiveX Homozygous Recessive
P
p
P
p
Purp
le P
aren
tPu
rple
Par
ent
PPhomozygous
dominant
Whi
te P
aren
tW
hite
Par
ent
spermspermnucleinuclei
eggeggnucleinuclei
spermspermnucleinuclei
eggeggnucleinuclei
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Chapter 12 20
Pp
pP
P Sperm + p EggsP Sperm + p Eggssame as p Sperm + P Eggssame as p Sperm + P Eggs
Purp
le F
Purp
le F
11Pu
rple
FPu
rple
F11
P pspermsperm
nucleusnucleuseggegg
nucleusnucleus
++
p Peggegg
nucleusnucleusspermsperm
nucleusnucleus
++
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Chapter 12 21
PurplePurplehomozygoushomozygous
dominant (PP)dominant (PP)PurplePurple
heterozygousheterozygous (Pp) (Pp)
PurplePurpleheterozygousheterozygous
(pP) (pP)WhiteWhite
homozygoushomozygousrecessive (pp)recessive (pp)
Pp X Pp CrossPp X Pp Cross
P
p
p
P
p
P
P
p
++++
++++
FF11 Sperm Sperm FF11 Eggs Eggs FF22 Offspring Offspring
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Chapter 12 22Using Punnett SquaresUsing Punnett Squaresin Genetic Crossesin Genetic Crosses
Named after geneticist Reginald Named after geneticist Reginald PunnettPunnett
Figured using Figured using Punnett squaresPunnett squares• Considers only genes of interestConsiders only genes of interest• List sperm genotypes across topList sperm genotypes across top• List egg genotypes down sideList egg genotypes down side• Fill in boxes with zygote genotypesFill in boxes with zygote genotypes
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Chapter 12 23
Consider Flower ColorConsider Flower Color
Pretend flower color affected by only one Pretend flower color affected by only one gene (gene (monohybrid crossmonohybrid cross))
Assume all alleles are purple or whiteAssume all alleles are purple or white
Purple (P) is dominant to white (p)Purple (P) is dominant to white (p)
HeterozygotesHeterozygotes will have flowers as purple will have flowers as purple as homozygous dominantsas homozygous dominants
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Chapter 12 24
P p
1(25%)White
3 (75%)3 (75%)PurplePurple
FrequenciesFrequenciesPhenotypesPhenotypes
GenotypesGenotypes
FrequenciesFrequencies
Making a Punnett Square:Making a Punnett Square:Heterozygous X HeterozygousHeterozygous X Heterozygous
Eggs of Heterozygous PlantEggs of Heterozygous Plant
Pollen ofPollen ofHeterozygous Plant Heterozygous Plant
1111 22
P
p pP
PpPP
pp
PP pppP Pp
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Chapter 12 25
Practical Application: The Test CrossPractical Application: The Test Cross
A A test crosstest cross is used to deduce the actual is used to deduce the actual genotype of an organism with a genotype of an organism with a dominant phenotype (i.e., is the dominant phenotype (i.e., is the organism organism PPPP or or PpPp?)?)
1.1. Cross the unknown dominant-phenotype Cross the unknown dominant-phenotype organism (organism (PP_) with a homozygous _) with a homozygous recessive organism (recessive organism (pppp)…)…
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Chapter 12 26
Practical Application: The Test CrossPractical Application: The Test Cross
2. If the dominant-phenotype organism is 2. If the dominant-phenotype organism is homozygous dominant (homozygous dominant (PPPP), only ), only dominant-phenotype offspring will be dominant-phenotype offspring will be produced (produced (PpPp))
3.3. If the dominant-phenotype organism is If the dominant-phenotype organism is heterozygous (heterozygous (PpPp), approximately half of ), approximately half of the offspring will be of recessive the offspring will be of recessive phenotype (phenotype (pppp))
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Chapter 12 27
p p
(50%)White
(50%)(50%)PurplePurple
FrequenciesFrequenciesPhenotypesPhenotypes
GenotypesGenotypes
FrequenciesFrequencies
Test Cross:Test Cross:Heterozygous X Homozygous RecessiveHeterozygous X Homozygous Recessive
Eggs of Homozygous RecessiveEggs of Homozygous Recessive
Pollen of unknownPollen of unknownplant with dominant plant with dominant
phenotypephenotype(Heterozygous)(Heterozygous)
22
P
p pp
PpPP
pp
Pp pppP pp22
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Chapter 12 28
p p
(100%)(100%)PurplePurple
FrequenciesFrequenciesPhenotypesPhenotypes
GenotypesGenotypes
FrequenciesFrequencies
Test Cross:Test Cross:Homozygous X Homozygous RecessiveHomozygous X Homozygous Recessive
Eggs of Homozygous RecessiveEggs of Homozygous Recessive
Pollen of unknownPollen of unknownplant with dominant plant with dominant
phenotypephenotype(Homozygous)(Homozygous)
P
Pp
PpPp
Pp
Pp PpPp Pp
P
44
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Chapter 12 29Traits of PeasTraits of PeasStudied by MendelStudied by Mendel
Plant size
Flower location
Flower color
Pod colorPod shape
Seed shapeSeed color
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Chapter 12 30
Traits Are Inherited IndependentlyTraits Are Inherited Independently
Seed color (yellow vs. green peas) and seed Seed color (yellow vs. green peas) and seed shape (smooth vs. wrinkled peas) were shape (smooth vs. wrinkled peas) were the characteristics studiedthe characteristics studied
The allele symbols were assigned:The allele symbols were assigned:• YY = yellow (dominant), = yellow (dominant), yy = green (recessive) = green (recessive)• SS = smooth (dominant), = smooth (dominant), ss = wrinkled (recessive) = wrinkled (recessive)
Two trait cross was between two true Two trait cross was between two true breeding varieties for each characteristicbreeding varieties for each characteristic
• P: P: SSYYSSYY x x ssyyssyy
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Chapter 12 31
RecombinationRecombination
Genes on the same chromosome do not Genes on the same chromosome do not alwaysalways sort together sort together
Crossing overCrossing over in Prophase I of meiosis in Prophase I of meiosis creates new gene combinationscreates new gene combinations
Crossing over involves the exchange of Crossing over involves the exchange of DNA between chromatids of paired DNA between chromatids of paired homologous chromosomes in homologous chromosomes in synapsissynapsis
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Chapter 12 32
red
red
Purple
Purple
round
round
Long
Long
PP
PP
pp
pp
LL
LL
ll
ll
PP
pp
pp
LL
LL
ll
ll
PP
LL
pp LL
ll
ll
PP
pp
PP
LL
pp LL
ll
ll
PP
pp
LL
LL
ll
ll
PP
PP
pp
pp
PP
PP
pp
pp
LL
LL
ll
ll
PP
pp
pp
LL
LL
ll
ll
Crossing OverCrossing Over
SisterSisterChromatidsChromatids
DuplicatedDuplicatedChromosomeChromosome
DuplicatedDuplicatedChromosomeChromosome
LL
LL
ll
ll
PP
PP
pp
pp
SisterSisterChromatidsChromatids Ho
mol
ogou
sHo
mol
ogou
sCh
rom
osom
esCh
rom
osom
es
PP
PP
pp
pp
LL
LL
ll
ll
PP
pp
pp
LL
LL
ll
ll
pp LL
PP ll
LLPP
llpp
old combinationold combination
new combinationnew combinationnew combinationnew combination
old combinationold combination
FlowerColor
PollenShape
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Chapter 12 33
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Chapter 12 34
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Chapter 12 35
Sex Chromosomes and AutosomesSex Chromosomes and Autosomes
Mammals and many insect species have a Mammals and many insect species have a set of set of sex chromosomessex chromosomes that dictate that dictate gendergender
• Females have two Females have two X chromosomesX chromosomes• Males have an Males have an X chromosomeX chromosome and a and a YY
chromosomechromosome• Sex chromosomesSex chromosomes segregate during segregate during
meiosismeiosis• [The rest of the (non-sex) chromosomes [The rest of the (non-sex) chromosomes
are called are called autosomes]autosomes]
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Chapter 12 36
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Chapter 12 37
XX11 XX22
Sex DeterminationSex Determinationin Mammalsin Mammals
EGGSEGGS
Male ParentMale ParentYYXXmm
SSPPEERRMM
Female OffspringFemale Offspring
Male OffspringMale OffspringYY
XXmmXXmmXX11 XX22XXmm
YY YYXX11 XX22
XX11 XX22Female ParentFemale Parent
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Chapter 12 38
Sex-Linked Genes Are on the X or the YSex-Linked Genes Are on the X or the YGenes carried on one sex chromosome are Genes carried on one sex chromosome are sex-sex-
linkedlinked• X chromosome is much larger than the Y and X chromosome is much larger than the Y and
carries over 1000 genescarries over 1000 genes• Y chromosome is smaller and carries only 78 Y chromosome is smaller and carries only 78
genesgenesThe X and the Y have very few genes in commonThe X and the Y have very few genes in common
• Females (XX) can be homozygous or Females (XX) can be homozygous or heterozygous for a characteristicheterozygous for a characteristic
• Males (XY) have only Males (XY) have only one copyone copy of the genes on of the genes on the X or the Ythe X or the Y
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Chapter 12 39How Sex-Linkage Affects How Sex-Linkage Affects InheritanceInheritance
Patterns of sex-linked inheritance were first Patterns of sex-linked inheritance were first discovered in fruit flies (discovered in fruit flies (DrosophilaDrosophila) in ) in early 1900searly 1900s
Eye color genes were found to be carried by Eye color genes were found to be carried by the X chromosomethe X chromosome
• RR = red eyes (dominant) = red eyes (dominant)• rr = white eyes (recessive) = white eyes (recessive)
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Chapter 12 40How Sex-Linkage Affects How Sex-Linkage Affects InheritanceInheritance
Sex-linked (specifically Sex-linked (specifically X-linkedX-linked) recessive ) recessive alleles displayed their phenotype more alleles displayed their phenotype more often in malesoften in males
• Males showed recessive white-eyed Males showed recessive white-eyed phenotype more often than females in anphenotype more often than females in an
XXRRXXrr xx X XrrY crossY crossMales do not have a second X-linked gene Males do not have a second X-linked gene
(as do females) which can mask a (as do females) which can mask a recessive gene if dominantrecessive gene if dominant
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Chapter 12 41
25%25%Normal fNormal f Carrier fCarrier f Normal mNormal m
25%25% 25%25% 25%White-e m
FrequenciesFrequenciesPhenotypesPhenotypes
GenotypesGenotypes
FrequenciesFrequencies
Sex Linkage:Sex Linkage:Eye Color in Fruit FliesEye Color in Fruit Flies
Eggs of Eggs of XR Xr FemaleFemale
Sperm ofSperm ofXXRRY Male Y Male
1111
YXR
XRXrXRXR
YXr
XRXR XrYXRXr XRY
R r
R
Female Female
Male Male
11 11
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Chapter 12 42
RR RR
(100%)(100%)Pink (intermediate)Pink (intermediate)
FrequenciesFrequenciesPhenotypesPhenotypes
GenotypesGenotypes
FrequenciesFrequencies
Incomplete Dominance:Incomplete Dominance:Homozygous-X Homo RecessiveHomozygous-X Homo Recessive
Eggs of HomozygousEggs of Homozygous RR Red Parent Red Parent
Pollen ofPollen ofHomozygous Homozygous R'R'
White ParentWhite Parent
R'
R'R'R
R'RR'R
R'R
R'R R'RR'R R'R
Pink Pink
Pink Pink
11
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Chapter 12 43
CodominanceCodominance
Some alleles are always expressed even Some alleles are always expressed even in combination with other allelesin combination with other alleles
Heterozygotes display phenotypes of Heterozygotes display phenotypes of both the homozygote phenotypes in both the homozygote phenotypes in codominancecodominance
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Chapter 12 44
CodominanceCodominance
Example: Human blood group allelesExample: Human blood group alleles• Alleles A and B are codominant Alleles A and B are codominant • Type AB blood is seen where individual Type AB blood is seen where individual
has the genotype ABhas the genotype AB
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10%10%
40%40%
46%46%
4%4%
B or ABB or AB
A or ABA or AB
O,AB,O,AB,A,BA,B
(universal)(universal)
ABAB(universal)(universal)
B or OB or O
A or OA or O
OO
AB, A,AB, A,B, OB, O
(universal)(universal)
AA
BB
BothBoth
NeitherNeither
BB or BOBB or BO
AA or AOAA or AO
OOOO
ABAB
OO
ABAB
BB
AA
FreqFreqDonatesDonatesRe-Re-ceivesceives
Anti-Anti-bodiesbodiesRBCsRBCsGenotypeGenotypeTypeType
Human ABO Blood GroupHuman ABO Blood Group
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Chapter 12 46
Polygenic InheritancePolygenic Inheritance
Phenotypes produced by Phenotypes produced by polygenic polygenic inheritanceinheritance are governed by the are governed by the interaction of more than two genes at interaction of more than two genes at multiple locimultiple loci
Human skin color is controlled by at least 3 Human skin color is controlled by at least 3 genes, each with pairs of incompletely genes, each with pairs of incompletely dominant allelesdominant alleles
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Chapter 12 48
Pedigree AnalysisPedigree Analysis
Records of gene expression over several Records of gene expression over several generations of a family can be generations of a family can be diagrammeddiagrammed
Careful analysis of this diagram (a Careful analysis of this diagram (a pedigreepedigree) can reveal inheritance ) can reveal inheritance pattern of a traitpattern of a trait
Pedigree analysis is often combined with Pedigree analysis is often combined with molecular genetics technology to molecular genetics technology to elucidate gene action and expressionelucidate gene action and expression
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Chapter 12 49
How to Read PedigreesHow to Read Pedigrees= male= male = female= female
= parents= parents
oror = individual who shows the trait = individual who shows the trait
oror = heterozygous carrier of= heterozygous carrier ofautosomal trait autosomal trait
= offspring = offspring 11 22 33
I, II, III, IV, or VI, II, III, IV, or V = generation = generation
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Chapter 12 50
A Recessive PedigreeA Recessive Pedigree
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Chapter 12 51Pedigrees:Pedigrees:Legacy of Queen VictoriaLegacy of Queen Victoria
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Chapter 12 52
Sickle-Cell AnemiaSickle-Cell AnemiaHemoglobin is an oxygen-transporting protein Hemoglobin is an oxygen-transporting protein
found in red blood cellsfound in red blood cellsA mutant hemoglobin gene causes A mutant hemoglobin gene causes
hemoglobin molecules in blood cells to hemoglobin molecules in blood cells to clump togetherclump together
• Red blood cells take on a sickle (crescent) Red blood cells take on a sickle (crescent) shape and easily breakshape and easily break
• Blood clots can form, leading to oxygen Blood clots can form, leading to oxygen starvation of tissues and paralysisstarvation of tissues and paralysis
• Condition is known as Condition is known as sickle-cell anemiasickle-cell anemia
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Normal Red Blood CellsNormal Red Blood Cells
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Chapter 12 54
Sickled CellsSickled Cells
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Chapter 12 55
Sex-Linked Genetic DisordersSex-Linked Genetic Disorders
Several defective alleles for Several defective alleles for characteristics encoded on the X characteristics encoded on the X chromosome are knownchromosome are known
Sex-linked disorders appear more Sex-linked disorders appear more frequently in males and often skip frequently in males and often skip generationsgenerations
Examples of sex-linked (X-linked) Examples of sex-linked (X-linked) disordersdisorders
• Red-green color blindnessRed-green color blindness
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Chapter 12 58
Non-DisjunctionNon-Disjunction
Incorrect separation of chromosomes or Incorrect separation of chromosomes or chromatids in meiosis known as chromatids in meiosis known as non-non-disjunctiondisjunction
Most embryos arising from gametes with Most embryos arising from gametes with abnormal chromosome numbers abort abnormal chromosome numbers abort spontaneously (are miscarried)spontaneously (are miscarried)
Some combinations of abnormal Some combinations of abnormal chromosome number survive to birth chromosome number survive to birth or beyondor beyond
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Chapter 12 61
Incidence of Down SyndromeIncidence of Down Syndrome
1010 2020 3030 4040 505000
100100
200200
300300
400400
Age of Mother (years)Age of Mother (years)
Num
ber p
er 1
000
Birth
sNu
mbe
r per
100
0 Bi
rths
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Chapter 12
The endThe end