all daughtersof a malewith the traitwill have thetraitexample ofa somewhatadditivehuman traitheterozygousindividualshaveintermediatephenotypeallele that doesnot affect thereproductivefitness ofindividuals whocarry the allelemovement ofalleles from onepopulation intoanother throughinterbreedingquantitativechanges inallelefrequenciesover timeheterozygousindividualsare “carriers”favors an allelethat isbeneficial tpindividuals in agivenenvironmentdrift effect on allelefrequencies whena populationoriginates via asmaller number ofpeople from alarger populationheritable butnot readilypredictableformpedigreewhen selectionfavorsheterogeneousoverhomozygousindividualsresults in theremoval ofnew mutationsare harmful tofitnessrate at whichdrift occurs isinverselyproportional topopulation sizesystematic differentialreproductivecontribution amonggenotypes due to thegenotypes’ effect onsurvival or fertilityone fertilized egg(ovum) splits anddevelops into twobabies with exactlythe same geneticinformationquantify traitconcordancebetween apair of twinsproportion ofobservabledifferences in a traitbetween individualsin a population thatis due to geneticdifferencesthe ultimatesource ofall newvariation50% of thesons of afemale carrierexpected tohave the trait express thetrait if have twocopies of theassociatedgenetic variantchance (random)element inreproduction,whose impactdepends onpopulationstructure and lucktwo eggs (ova)are fertilized bytwo sperm andproduce twogeneticallyunique children“Mendelian”inheritancepattern,dominant,recessive, oradditiveset of allgenomes ina specifiedpopulationall daughtersof a malewith the traitwill have thetraitexample ofa somewhatadditivehuman traitheterozygousindividualshaveintermediatephenotypeallele that doesnot affect thereproductivefitness ofindividuals whocarry the allelemovement ofalleles from onepopulation intoanother throughinterbreedingquantitativechanges inallelefrequenciesover timeheterozygousindividualsare “carriers”favors an allelethat isbeneficial tpindividuals in agivenenvironmentdrift effect on allelefrequencies whena populationoriginates via asmaller number ofpeople from alarger populationheritable butnot readilypredictableformpedigreewhen selectionfavorsheterogeneousoverhomozygousindividualsresults in theremoval ofnew mutationsare harmful tofitnessrate at whichdrift occurs isinverselyproportional topopulation sizesystematic differentialreproductivecontribution amonggenotypes due to thegenotypes’ effect onsurvival or fertilityone fertilized egg(ovum) splits anddevelops into twobabies with exactlythe same geneticinformationquantify traitconcordancebetween apair of twinsproportion ofobservabledifferences in a traitbetween individualsin a population thatis due to geneticdifferencesthe ultimatesource ofall newvariation50% of thesons of afemale carrierexpected tohave the trait express thetrait if have twocopies of theassociatedgenetic variantchance (random)element inreproduction,whose impactdepends onpopulationstructure and lucktwo eggs (ova)are fertilized bytwo sperm andproduce twogeneticallyunique children“Mendelian”inheritancepattern,dominant,recessive, oradditiveset of allgenomes ina specifiedpopulation

Complex Traits / Evolutionary Theory - Call List

(Print) Use this randomly generated list as your call list when playing the game. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


1
I
2
O
3
B
4
B
5
O
6
N
7
O
8
B
9
G
10
G
11
O
12
G
13
N
14
N
15
I
16
G
17
I
18
I
19
B
20
I
21
O
22
B
23
G
24
N
  1. I-all daughters of a male with the trait will have the trait
  2. O-example of a somewhat additive human trait
  3. B-heterozygous individuals have intermediate phenotype
  4. B-allele that does not affect the reproductive fitness of individuals who carry the allele
  5. O-movement of alleles from one population into another through interbreeding
  6. N-quantitative changes in allele frequencies over time
  7. O-heterozygous individuals are “carriers”
  8. B-favors an allele that is beneficial tp individuals in a given environment
  9. G-drift effect on allele frequencies when a population originates via a smaller number of people from a larger population
  10. G-heritable but not readily predictable form pedigree
  11. O-when selection favors heterogeneous over homozygous individuals
  12. G-results in the removal of new mutations are harmful to fitness
  13. N-rate at which drift occurs is inversely proportional to population size
  14. N-systematic differential reproductive contribution among genotypes due to the genotypes’ effect on survival or fertility
  15. I-one fertilized egg (ovum) splits and develops into two babies with exactly the same genetic information
  16. G-quantify trait concordance between a pair of twins
  17. I-proportion of observable differences in a trait between individuals in a population that is due to genetic differences
  18. I-the ultimate source of all new variation
  19. B-50% of the sons of a female carrier expected to have the trait
  20. I-express the trait if have two copies of the associated genetic variant
  21. O-chance (random) element in reproduction, whose impact depends on population structure and luck
  22. B-two eggs (ova) are fertilized by two sperm and produce two genetically unique children
  23. G-“Mendelian” inheritance pattern, dominant, recessive, or additive
  24. N-set of all genomes in a specified population