Explain mono hybrid and dihybrid cross???
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A monohybrid cross is when the offspring of homozygous parents that only differ on a single trait are bred to come up with the second generation. On the other hand, a dihybrid cross is pretty similar to amonohybrid cross except that the parents of the first generation differ in two traits.
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Gregor Mendel, after rigorous studies on peas, found that genetic traits are passed from parents to their offspring in a specific manner. Known as father of modern genetics, his experiments led to the discovery of Mendel's Laws of Inheritance.
Monohybrid: Definition
In biology, a monohybrid cross is defined as the breeding experiment conducted between parents, which differ in one specific trait ('mono' meaning one). Or in other words, the parents are heterozygous (having dissimilar alleles) at only one locus. Over here, one parent has a dominant gene for a specific phenotypic character (e.g. tall trait), while the other has recessive gene for the particular phenotype (e.g. dwarf trait).
Dihybrid: Definition
Contrary to monohybrid cross, parents that differ in two traits ('di' meaning two) are bred in a dihybrid cross. To be more precise, the parental organisms are heterozygous for two different characters. In this case, one parent has dominant genes for two characters (e.g. tall plant bearing red flowers) and the other parent has recessive genes for the two characters (dwarf plant bearing white flowers) in the chromosome.
Difference Between the Two
Needless to remind, genetic science would not have been the same without the findings of Gregor Mendel. He did several experiments to study the trend for genetic inheritance in green peas. By applying basic rules of inheritance, you can explain the difference between the two.
Application
In biology experiments, a monohybrid cross is used to study the pattern of inheritance in the first and second generation offspring. The first filial generation (F1 generation) yields all heterozygous offspring that shows dominant character. From these, two heterozygous organisms are used for crossing, and the result is 3 offspring with dominant character and one offspring with recessive trait. Whereas, dihybrid is helpful for studying inheritance pattern of dominant and recessive characters for two different traits. Over here, we can find out all possible genotypic combinations.
Examples
Monohybrid :
When a cross is made between a tall plant (TT) and a dwarf plant (tt), the two resulting F1 offspring are tall (Tt). Then, a cross is again made between the two tall members of the F1 generation (Tt x Tt). In this F2 generation, the expected offspring along with their genetic component are three tall plants (TT, Tt, Tt) and one dwarf plant (tt). Thus, the ratio of dominant to recessive phenotype is 3:1.
Dihybrid :
In dihybrid cross, a tall plant having red flower (TTRR) is crossed with another dwarf plant having white flower (ttrr). After the first F1 generation, we get four heterozygous offspring that exhibit both tall height and red color flower (TtRr). A second cross is made between offspring of the F1 generation (TtRr x TtRr), resulting in 16 offspring. The ratio of phenotype character is 9:3:3:1, with 9 tall plants having red flower, 3 tall plants with white flower, 3 dwarf plants with red flower and 1 dwarf plant with white flower.
Thus, with monohybrid cross, inheritance of a single trait can be traced easily, while dihybrid type is useful for studying the pattern of genetic inheritance in organisms for two different traits.
Monohybrid: Definition
In biology, a monohybrid cross is defined as the breeding experiment conducted between parents, which differ in one specific trait ('mono' meaning one). Or in other words, the parents are heterozygous (having dissimilar alleles) at only one locus. Over here, one parent has a dominant gene for a specific phenotypic character (e.g. tall trait), while the other has recessive gene for the particular phenotype (e.g. dwarf trait).
Dihybrid: Definition
Contrary to monohybrid cross, parents that differ in two traits ('di' meaning two) are bred in a dihybrid cross. To be more precise, the parental organisms are heterozygous for two different characters. In this case, one parent has dominant genes for two characters (e.g. tall plant bearing red flowers) and the other parent has recessive genes for the two characters (dwarf plant bearing white flowers) in the chromosome.
Difference Between the Two
Needless to remind, genetic science would not have been the same without the findings of Gregor Mendel. He did several experiments to study the trend for genetic inheritance in green peas. By applying basic rules of inheritance, you can explain the difference between the two.
Application
In biology experiments, a monohybrid cross is used to study the pattern of inheritance in the first and second generation offspring. The first filial generation (F1 generation) yields all heterozygous offspring that shows dominant character. From these, two heterozygous organisms are used for crossing, and the result is 3 offspring with dominant character and one offspring with recessive trait. Whereas, dihybrid is helpful for studying inheritance pattern of dominant and recessive characters for two different traits. Over here, we can find out all possible genotypic combinations.
Examples
Monohybrid :
When a cross is made between a tall plant (TT) and a dwarf plant (tt), the two resulting F1 offspring are tall (Tt). Then, a cross is again made between the two tall members of the F1 generation (Tt x Tt). In this F2 generation, the expected offspring along with their genetic component are three tall plants (TT, Tt, Tt) and one dwarf plant (tt). Thus, the ratio of dominant to recessive phenotype is 3:1.
Dihybrid :
In dihybrid cross, a tall plant having red flower (TTRR) is crossed with another dwarf plant having white flower (ttrr). After the first F1 generation, we get four heterozygous offspring that exhibit both tall height and red color flower (TtRr). A second cross is made between offspring of the F1 generation (TtRr x TtRr), resulting in 16 offspring. The ratio of phenotype character is 9:3:3:1, with 9 tall plants having red flower, 3 tall plants with white flower, 3 dwarf plants with red flower and 1 dwarf plant with white flower.
Thus, with monohybrid cross, inheritance of a single trait can be traced easily, while dihybrid type is useful for studying the pattern of genetic inheritance in organisms for two different traits.
SouvikBaidya:
thanks !
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