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A monohybrid cross involves two alleles from each parent.
There is not enough information to answer this questions. 10 alleles in 1 loci? 10 alleles total? 10 alleles for that gene in the population?
Only one allele of that gene. remember, meiosis halves the genetic material so that in sperm and egg there is a haploid count and only half the genetic material is passed on to the children; one half from each parent is is proper in sexually reproducing species. ( generally )
It depends on the organism but humans have two alleles.
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Genotypes consist of two alleles for every trait. You inherit one allele from one parent, and another from the other parent.
There are three common Blood type alleles: A, B, and O. We all have two alleles, one inherited from each parent. The possible combinations of the three alleles are: OO; AO; BO; AB; AA; BB.
Two, one from each parent.
1 allele per parent per gene ................. that is wrong you inherit 23 alleles from each parent in total of 46 alleles no sorry that's chromosomes. its true the second person was talking about chromosomes the first one is correct
the last supperMona lisamadonna and childand many more but i forgot.. ;p
A monohybrid cross involves two alleles from each parent.
Every sex cell has one allele for each trait. after meiosis, pairs of chromosomes separate and alleles for each trait also separate into different sex cells.
There is not enough information to answer this questions. 10 alleles in 1 loci? 10 alleles total? 10 alleles for that gene in the population?
Only one allele of that gene. remember, meiosis halves the genetic material so that in sperm and egg there is a haploid count and only half the genetic material is passed on to the children; one half from each parent is is proper in sexually reproducing species. ( generally )
It depends on the organism but humans have two alleles.
Even identical twins are heterozygous for many alleles. Recombination would produce gametes with many different combinations of those alleles in each individual. Their offspring, as a result, could have very different genotypes than either parent, and thus look different as well.