How many types of gametes can be produced by a diploid organism who is homozygous for 3 loci?

Thus, gametes produced by a diploid organism could be 24=16.

How many types of gametes are produced by a diploid organism who is homozygous for two loci and heterozygous for 4 loci?

Number of gametes produced will be 2n, where ‘n’ is the number of loci, 2n = 16 types of gametes will be produced.

How many different types of gametes are produced by diploid organism which are homozygous for five loci and heterozygous for two loci?

The types of gametes produced will be 32.

How many gametes can be produced by a diploid organism?

Complete answer:

But diploid organisms will produce 16 different gametes if the genes are not linked. But the gametes will reduce their number as the genes that are linked together during the meiosis in case of genes are linked.

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How many types of gametes can be produced by a diploid organism?

Types of gametes =2n where n is number of heterozygous loci. Thus, gametes produced by a diploid organism could be 24=16.

How many types of gametes can be produced by?

Therefore, the correct answer is ‘Four’.

How many gametes can be produced by a diploid organism if it is heterozygous for 4 loci?

If a diploid organism is heterozygous for 4 loci then it will have four contrasting traits Aa, Bb, Cc, Dd and during meiosis 16 different kinds of gametes will be formed.

How many gametes can be produced by a diploid organism if it is heterozygous for three loci?

Hence, 8 gametes are formed by the diploid organism.

How many types of gametes can be produced by a diploid organism with genotype Aabbccdd?

The number of different possible gametes produced by the diploid genotype (AaBbCcDdEe) is 2 x 2 x 2 x 2 x 2 = 32 (2 for each pair of heterozygous genes).

How many types of gametes are possible from a diploid organism having genotype AABbcc?

Complete answer: AABbcc will produce 2 types of gametes which are as follows- ABc, Abc. The number of gametes formed is set by the number of heterozygous alleles present within the given genotype.