If four o' clock plants, the gene for red flower colour (R) is incompletely dominant over the gene for white flower colour (r), hence the plants heterozygous for flower colour (Rr) have pink flower. What will be the ratio of offsprings in a cross between the red flowers and pink flowers ?

Tall(T) is completely dominant over dwarf(t). Red flower colour ( R) is incompletely dominant over white ( r), the heterozygous being pink. Plant having genotype of TrRr is self pollinated. What would be the proportion of plants with dwarf and pink characters in the progeny

Tall(T) is completely dominant over dwarf(t). Red flower colour ( R) is incompletely dominant over white ( r), the heterozygous being pink. Plant having genotype of TrRr is self pollinated. What would be the proportion of plants with dwarf and pink characters in the progeny

Tall(T) is completely dominant over dwarf(t). Red flower colour ( R) is incompletely dominant over white ( r), the heterozygous being pink. Plant having genotype of TrRr is self pollinated. What would be the proportion of plants with dwarf and pink characters in the progeny

There is a plant, in which genes for black or white flower colour do not show complete dominance or recessiveness. If a plant carrying only black flower colour genes is crossed with a plant with only white flower colour genes, all the offsprings have grey flowere. If two of these grey flowered plants were crossed, the theoretical progeny ratio would be

Red ( dominant) flowered heterozygous crossed with white flower:

In a cross of four O'clock plants in the progeny half pink flower plant and halt white flower plants are produced, the genotype of plants crossed is

In four o' clock plant crossing of red flowered strain with a white flowered strain yield pink flowered F_(1) progenies. This plant exhibits co-dominanace with respect to flower colour.