Go on story mode and do all the levels starting with level 2 because level 1 won't give you anyone. I think there will have extra characters out, so I been waiting to see If they'll put AA Out Break Game 2, but they haven't. Good Luck.
Yes you can, you will start of your campain with templar but as you progress you will unlock lugar,rico and hakha and they all have special abilities such as rico cannot climb ladders howerver lugar,templar and hakha can. hakha also cant handle AA gun which has umlimited bullets, yet the rest of the characters can.
If ALL offspring are Aa, The parents are AA and aa.
If the parents are both AA, which results in the cross AA X AA, then the offspring will all be AA. If both parents are AA, resulting in the cross AA X AA, then all offspring will be AA. If BOTH parents are Aa, resulting in the cross Aa X Aa, then the offspring will be 25% AA, 50% Aa, and 25% AA. This is only true if the alleles are not sex-linked.
He wore shades and leather shoes
Inbreeding (and sometime back breeding) is used to reinforce or strengthen certain genetic traits - making them dominant. For example this process is used extensively in agricultural seed development, where you want to breed seed-lines that are identical when grown by farmers.
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Recorder: For One And AllAA BB AA GG AA BB A B A AA BB AA GG AA BB A B A BB BB AA G G BB B A A G A BB BB AA G G BB B A A G A AA BB AA GG AA BB A B A AA BB AA GG AA BB A B A
aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa aa
Heterozygotes. If AA X AA, or AA X AA, is all the mating allowed, then Aa will lose frequency in the population.
it always depends....
Blood group A phenotype can be as a result of AA or AO. Going by Mendelian rules of inherittance, Group A father can be AA or AO and, Group A mother can be AA or AO. IF parents are AA & AA then all children will be AA = Group A only. IF one parent is AA & the other AO, then the children can be AA,AO,AA,AO = Group A only phenotypically. IF both are AO & AO, then the kids can be AA,AO,OA (all = Group A) and OO = Group O. So depending upon if the parents are AA or AO, the children can only be Group A or Group O (when both parents are AO).
Albinism is a recessive trait, meaning that an albino person has the genotype AA, while a person who isn't albino has the trait Aa or AA. Two albino people (AA x AA) will have all albino children. Aa x AA will have a 50% probability of albino children, and 50% normal children who are carriers (Aa). AA x AA will have all normal children who are carriers (Aa). Aa x Aa will have 25% AA (normal/non carriers), 25% AA (albino), and 50% Aa (normal/carriers) offspring. AA x AA will have all normal children who are not carriers (AA).*A person who has the genotype Aa is a carrier because they carry the allele (a) for albinism but they are not albino. The allele (A) is dominant so it covers the (a) allele.