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PopulationGenetics群体遗传HumanOriginsmtDNA——夏娃(Eve)Ychromosome——亚当(Adam)BiologicalEvolutionHumandiversityOverviewsz
Medicalpopulationgeneticsmainlystudiesthebehaviorofgeneinhumanpopulation,includingtheestimationofgenefrequenciesandheterozygotefrequencies(杂合子频率).z
--Broadsensepopulation(广义群体):allpersons(6
billions)intheworld.z
--Narrowsensepopulation(狭义群体):Mendel
populationinsomeareas.MedicalpopulationgeneticsF1:DDxdd
~Dd
(Dominant)F2:DdxDd
3/4willbeDD/Dd(Dominant)ThefrequencyofDgeneinpopulation↑?Whiledgene↓?Withthedeathofddaffected,dgenewilldisappearfromthepopulation
?Topicsz
TheHardy-Weinbergequilibriumz
ApplicationoftheHardy-Weinbergequilibriumz
FactorsaffectingtheHardy-Weinbergequilibriumz
InbreedingcoefficientTheHardy-WeinbergEquilibriumz
HardyG.H.wasanEnglishmathematicianandWeinbergW.wasaGermanphysician.In1908,theydevelopedindependentlyamathematicalmodel.Theymadethefollowingassumptions:---Thegenotypescouldbedistinguishedunequivocally,meaningthatthefrequenciesofthephenotypeswerethesameasthoseofthegenotypes.---Nomutation,noselection,andnomigration.---Randommatingatthesametimeinapopulationofinfinitesize.EvidenceoftheH-Wlawz
Assumeonelocuswithtwoalleles:A
anda,theformerbeingdominantandthelatterbeingrecessive.z
Lettherelativefrequenciesofthetwoallelesbepandqrespectively.Asthereareonlytwoalleles,p+q=1.Thenthespermsproducedbythemalepopulationandeggsproducedbythefemalepopulationwillcontaintheminthesameproportions.EvidenceoftheH-Wlawz
Withrandommatingthevariousgameticcombinationscanberepresentedas:ThefrequenciesofthreegenotypesamongF1offspringfromsuchmatingsarep2
(AA),2pq(Aa),q2(aa).EvidenceoftheH-Wlawz
GenefrequenciesinF1offspring:AA:p2;Aa:pq+qp=2pq;aa:q2A
=
p2+1/2(2pq)=p2+pq=p(p+q)=pa=q2+1/2(2pq)=q2+pq=q(p+q)=qEvidenceoftheH-Wlawz
NowconsiderthatF1offspringmatewitheachother.Thefrequenciesofvariousmatingscanberepresentedas:AA(p2)
Aa(2pq)
aa(q2)AA(p2)
AA×AA
AA×Aa
AA×aap4Aa(2pq)
Aa×AA
Aa×Aa
Aa×aa2p3q
4p2q2
2pq3aa×AA
aa×Aa
aa×aa2p3qp2q2aa(q2)p2q22pq3q4z
Grouptogetherreciprocalmatings,AA×AaandAa×AA,forexample,andsumuptheirrespectivefrequencies.Wethusobtainsixmatingtypesandtheirfrequencies.z
Theexpectedproportionsofthethreegenotypesamongtheprogenyofthesesixmatingscanbecalculatedaccordingtoapriorisegregationratio.Matingtype
FrequencyAAAa-aaAA×AAAA×AaAa×AaAA×aaAa×aaaa×aap4p4--4p3q4p2q22p2q24pq3q42p3q2p3q2p2q22p2q22pq3-p2q2p2q2----2pq3q4EvidenceoftheH-Wlawz
WehavethepredictedfrequencydistributionofgenotypeamongtheF2progenyofallmatings.z
Frequency
of
AA
=
p4
+2p3q+p2q2=p2(p2+2pq+q2)=p2;z
FrequencyofAa=2p3q+4p2q2
+2pq3=
2pqz
Frequencyofaa=p2q2
+2pq3+q4=q2z
TherelativefrequenciesofthreegenotypesamongF2progenyarethesameasthoseamongF1generation:p2(AA),2pq(Aa)andq2(aa).Soaregenefrequencies.FrequencyofA=p;Frequencyofa=q.TheHardy-Weinbergtheoremz
Apopulationundergoingrandommatingreaches,inonegeneration,adistributionofgenotypefrequenciesgivenbythebinomialexpansionof[p(A)+q(a)]2
=
p2(AA)+2pq(Aa)+q2
(aa)z
OneofthemostimportantfeatureoftheHardy-Weinbergtheoremisthatitenablesustoexpressthedistributionofgenotypesandphenotypesinapopulationentirelyintermsofthegenefrequencies.z
Foralocusoftwoalleles,Aanda,withgenefrequenciespandqrespectively:Relativegenotypefrequencies:p2+2pq+q2=1Relativephenotypefrequencies,assumingcompletedominanceofAovera:(p2+2pq)(”A”)+q2
(”a”)
=1z
TheH-Wtheoremcanbeextendedquiteeasilytocovermultiplealleles.ForthreeallelesoftheABOlocus,IA,IB
andi,withgenefrequenciesp,qandrrespectively:then(p+q+r)2=p2+q2+r2+2pq+2pr+2qrTheHardy-Weinbergtheoremz
Foralocushavingnalleles(A1,A2,...,A
)withgenefrequenciesp
,p
,...,pn1
2nrespectively,thegeneticequilibriumofthislocusunderrandommatingcanbeexpressedas:[p
(A
)+p
(A
)+...,+p
(A
)]21
12
2n
n=∑pi2(AiAi)+∑2pipj(AiAj)ApplicationsoftheH-Wlawz
Estimationofgenefrequencyandheterozygotefrequency:z
Countingmethodforestimatingfrequenciesofcodominantalleles:
suchasMNbloodgroup.z
Phenotypes:M(+)N(-);M(+)N(+);M(-)N(+)z
Genotypes:
MM(M);
MN(MN);NN(N)p=(2M+1MN)/2n=0.4628q=1–p=0.5372ApplicationsoftheH-Wlawz
Squarerootmethodforestimatingfrequencyofrecessivesallelewhenthereiscompletedominance:z
Populationincidenceofalcaptonuria(尿黑酸尿症):x=1/1000000=q2so
[a]q=
√x=1/1000[A]p=1–q=1,[Aa]2pq=2×1×
(1/1000)=1/500ApplicationsoftheH-Wlawz
ABObloodgrouplocushavethreeallele:accordingtoH-Wlaw,weassumeIA
(p),IB
(q)
,i(r),then(p+q+r)2=p2
+2pq+q2+2qr+r2
+2prwehaver=√
O,
B=q2+2qr,
O=r2
thereforez
B
+
O
=
q2+2qr+r2=(q+r)2=(1-p)2z
Thenwehave
p=1–√B+Oz
Thus
wehave
q=1–p–rThen,wecanestimateIA,IB
andigenefrequency.e.g.
q=0.2115,
p=0.2324,
r=0.5555ApplicationsoftheH-Wlawz
XgbloodgrouplocusisX-linked
andhastwoalleleswithXga
beingdominantoverXg.z
Inmalepopulation,thegenefrequenciesarethesameasthephenotype&genotypefrequencies.z
Infemalepopulation,thegenefrequenciescanbeestimatedwithsquarerootmethod.z
Note:thegenefrequencyfrommale&femalepopulationhasnotsignificantdifference(P>0.05).ApplicationsoftheH-WlawSex
Blood
Genotype
No.
Of
Freq.
Freq.ofgrouppopula
of-tion
pheno-typegeneMale
Xg(a+)
XgaYXg(a-)
XgY1880.631
0.6311100.369
0.369Fema-
Xg(a+)
XgaXgale260310.893
0.6730.107
0.327XgaXgXg(a-)
XgXgSomeconceptsderivedfromtheH-Wtheoremz
Forararedominantgene,p2
is
negligible,then
2pq/p2
+2pq≈
1.Nearlyalloftheaffectedindividualsareheterozygotes.z
Forararerecessivegene,q2
is
very
muchsmallerthanpwhichisclosetoone.2pq=2(1-q)q=2q-2q2≈2q.q≈(2pq)/2=2or(2pq)/q≈2z
Forararerecessivegene,pisclosetoone.Then,
2pq/q2
=2p/q=2/qSomeconceptsderivedfromH-Wtheoremz
ForarareX-linkeddominantgene,pisNegligible,sop/(p2+2pq)=1/(2–p)≈
1/2z
ForarareX-linkedrecessivegene,thereoccurmoreaffectedmalesthanaffectedfemales,q/q2=1/qTestofgenetichypothesisz
Phenylthiocarbamide(PTC)tasting.z
Givingagenetichypothesis:allelesTandt,
then,z
TastergenotypeisTTorTt,nontasteristtz
PTCtastingwithfamilydata:z
a.Observedfamilydataz
b.Expectedphenotypedistributionamongoffspring.IfitisTaster×
Taster,theoverallproportionofrecessivesamongoffspringisp2q2
/p2(1+q)2
=(q/1+q)2.Mating
Freq.of
Freq.
Freq.type
mating
of
ofTaster
Non-taster-TT×TT
p4p433TT×Tt
4p
q
4p
q
-2
22
22
2Tt×Tt
4p
q
3p
q
p
qIfitisTaster×Nontaster,theoverallproportionofrecessivesamongoffspringis2pq3
/2pq2(1+q)=q/1+qMating
Freq.
Freq.
Freq.
oftype
of
of
Non-mating
Taster
taster2
22
2TT×tt
2p
q
4p
q
-333Tt×tt
4pq
2pq
2pqTestofgenetichypothesisz
Estimationofqfrompopulationdata:q=
0.2981=0.5460,
p=0.4540z
Chisquaretestforgoodnessoffitz
---Taster×Taster:χ2
=
|O-E|2
/
E
=
0.0487,z
P>0.05z
---Taster×non-taster:χ2
=
0.5048,
df
=
1,z
P>0.05z
TheobservedfamilydatasupportsthehypothesisInbreedingCoefficient(IorF)z
ICistheprobabilitythatanindividualreceivesatagivenlocustwogenesthatareidenticalbydescent.z
ICforautosomallocusinprogenyoffirst-cousinmarriage:I=1/16Evaluatingthedeleteriouseffectofconsanguineousmarriagesz
Thetotalprobabilitythatafirst-cousinmarriagewillproduceagene“a”withfrequencyq=Theprobabilitythatthegenescometogetherfromtheircommonancestor+theprobabilitythatthegenescometogetherfromsomeothersource=(1/16)q+(15/16)q2.z
Theprobabilitythatarandommarriagewillproduceahomozygousrecessiveforagene“a”withfrequencyq=q2Evaluatingthedeleteriouseffectofconsanguineousmarriagesz
Thedeleteriouseffectofthefirst-cousinmarriage=[(1/16)q+(15/16)q2]/q2z
Suggestionfromthedeleteriouseffectofconsanguineousmarriages.z
Ifadiseaseisrare,ahighincidenceofconsanguineousmarriagesamongtheparentscanbeconsideredquiteconclusiveevidence.Namely:i.Thatitisinherited.ii.Thattheresponsiblegeneisanautosomalrecessive.DeleteriouseffectofconsanguineousmarriagesGenefre.
q2
(1/16)pq
q2+(pq/
1+15q/(q)16)16q0.20
0.0400
0.010
0.050
1.250.10
0.0100
0.0056
0.015
1.560.04
0.0016
0.0024
0.004
2.500.02
0.0004
0.0012
0.002
4.060.01
0.0001
0.0006
0.0007
7.190.001
0.00000
0.00006
0.00006
63.5FactorAffectingtheH-Wlawz
Deviationfromrandommatingz
Assortativemating(positiveornegative):thetendencyforhumanbeingstochoosepartnerswhosharecharacteristicssuchasheightintelligenceandracial.z
Inbreeding:marriagebetweencloselyrelatedindividuals.z
MutationTherateofmutationforanyparticulargeneisprobablyfairlyconstant.FactorAffectingtheH-Wlawz
Selection(s)Itoperatesbyincreasing(positionselection)ordecreasing(negativeselection)the
reproductivefitness(f).
s+f=1.Relativelyhighfrequenciesofsomemutantgenesarebelievedtobemaintainedbyaselectiveadvantage
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