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Table 3 Pollen haplotypes and their respective frequencies for a male ABCD1234 with tetrasomic inheritance

From: PollenCALC: Software for estimation of pollen compatibility of self-incompatible allo- and autotetraploid species

Tetrasomic inheritance: β = 1 all Δ = 0 α = 0

    
  

0.17

0.17

0.17

0.17

0.17

0.17

    
  

AB

AC

AD

BC

BD

CD

    

0.17

12

AB12

AC12

AD12

BC12

BD12

CD12

    

0.17

13

AB13

AC13

AD13

BC13

BD13

CD13

    

0.17

14

AB14

AC14

AD14

BC14

BD14

CD14

    

0.17

23

AB23

AC23

AD23

BC23

BD23

CD23

    

0.17

24

AB24

AC24

AD24

BC24

BD24

CD24

    

0.17

34

AB34

AC34

AD34

BC34

BD34

CD34

    

Tetrasomic Inheritance + Chromatid Segregation + Double Reduction β = 1 all Δ = 0 α = 0.14

  

0.14

0.14

0.14

0.14

0.14

0.14

0.04

0.04

0.04

0.04

  

AB

AC

AD

BC

BD

CD

AA

BB

CC

DD

0.17

12

AB12

AC12

AD12

BC12

BD12

CD12

AA12

BB12

CC12

DD12

0.17

13

AB13

AC13

AD13

BC13

BD13

CD13

AA13

BB13

CC13

DD13

0.17

14

AB14

AC14

AD14

BC14

BD14

CD14

AA14

BB14

CC14

DD14

0.17

23

AB23

AC23

AD23

BC23

BD23

CD23

AA23

BB23

CC23

DD24

0.17

24

AB24

AC24

AD24

BC24

BD24

CD24

AA24

BB24

CC24

DD24

0.17

34

AB34

AC34

AD34

BC34

BD34

CD34

AA34

BB34

CC34

DD34

0.04

11

AB11

AC11

AD11

BC11

BD11

CD11

AA11

BB11

CC11

DD11

0.04

22

AB22

AC22

AD22

BC22

BD22

CD22

AA22

BB22

CC22

DD22

0.04

33

AB33

AC33

AD33

BC33

BD33

CD33

AA33

BB33

CC33

DD33

0.04

44

AB44

AC44

AD44

BC44

BD44

CD44

AA44

BB44

CC44

DD44

  1. Pure tetrasomic inheritance produces all 36 possible genotypes are shown in regular format. Haplotypes in bold are the ones formed by chromatid segregation and haplotypes in italic are formed by double reduction. The probabilities of each S or Z allele combination are given; the gamete frequency can be calculated as joined probability of the frequency at each locus.