342205
The allele which does not express in the \({F_1}\) generation in presence of another allele is
1 Dominant
2 Co-dominant
3 Incompletely dominant
4 Recessive
Explanation:
Only dominant characters are expressed by dominant genes, in \({F_1}\) generation, while recessive genes and their expressions are suppressed.
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342206
Mendel gave us ___
1 Five principles of inheritance
2 Four principles of inheritance
3 Two principles of inheritance
4 Three principles of inheritance
Explanation:
Law of dominance, law of segregation and law of independent assortment are the three major principles of inheritance enunciated by Mendel .
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342207
The cross between two parents differing in one contrasting character is called _________
1 Dihybrid cross
2 Monohybrid cross
3 Pleoitropy
4 Multiple allelism
Explanation:
The cross between two parents differing in one contrasting character is called Monohybrid cross
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342208
A cross in which an organism showing a dominant phenotype is crossed with the recessive parent in order to know its genotype is called
1 Test cross
2 Monohybrid cross
3 Back cross
4 Dihybrid cross
Explanation:
A test cross is a cross that involves the mating of \({F_1}\) individual with the homozygous recessive parent. A test cross can help decide whether a dominant phenotype is homozygous or heterozygous for a specific allele. The genotype of an organism with a dominant phenotype is either homozygous or heterozygous for the dominant allele.
342205
The allele which does not express in the \({F_1}\) generation in presence of another allele is
1 Dominant
2 Co-dominant
3 Incompletely dominant
4 Recessive
Explanation:
Only dominant characters are expressed by dominant genes, in \({F_1}\) generation, while recessive genes and their expressions are suppressed.
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342206
Mendel gave us ___
1 Five principles of inheritance
2 Four principles of inheritance
3 Two principles of inheritance
4 Three principles of inheritance
Explanation:
Law of dominance, law of segregation and law of independent assortment are the three major principles of inheritance enunciated by Mendel .
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342207
The cross between two parents differing in one contrasting character is called _________
1 Dihybrid cross
2 Monohybrid cross
3 Pleoitropy
4 Multiple allelism
Explanation:
The cross between two parents differing in one contrasting character is called Monohybrid cross
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342208
A cross in which an organism showing a dominant phenotype is crossed with the recessive parent in order to know its genotype is called
1 Test cross
2 Monohybrid cross
3 Back cross
4 Dihybrid cross
Explanation:
A test cross is a cross that involves the mating of \({F_1}\) individual with the homozygous recessive parent. A test cross can help decide whether a dominant phenotype is homozygous or heterozygous for a specific allele. The genotype of an organism with a dominant phenotype is either homozygous or heterozygous for the dominant allele.
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BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342205
The allele which does not express in the \({F_1}\) generation in presence of another allele is
1 Dominant
2 Co-dominant
3 Incompletely dominant
4 Recessive
Explanation:
Only dominant characters are expressed by dominant genes, in \({F_1}\) generation, while recessive genes and their expressions are suppressed.
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342206
Mendel gave us ___
1 Five principles of inheritance
2 Four principles of inheritance
3 Two principles of inheritance
4 Three principles of inheritance
Explanation:
Law of dominance, law of segregation and law of independent assortment are the three major principles of inheritance enunciated by Mendel .
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342207
The cross between two parents differing in one contrasting character is called _________
1 Dihybrid cross
2 Monohybrid cross
3 Pleoitropy
4 Multiple allelism
Explanation:
The cross between two parents differing in one contrasting character is called Monohybrid cross
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342208
A cross in which an organism showing a dominant phenotype is crossed with the recessive parent in order to know its genotype is called
1 Test cross
2 Monohybrid cross
3 Back cross
4 Dihybrid cross
Explanation:
A test cross is a cross that involves the mating of \({F_1}\) individual with the homozygous recessive parent. A test cross can help decide whether a dominant phenotype is homozygous or heterozygous for a specific allele. The genotype of an organism with a dominant phenotype is either homozygous or heterozygous for the dominant allele.
342205
The allele which does not express in the \({F_1}\) generation in presence of another allele is
1 Dominant
2 Co-dominant
3 Incompletely dominant
4 Recessive
Explanation:
Only dominant characters are expressed by dominant genes, in \({F_1}\) generation, while recessive genes and their expressions are suppressed.
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342206
Mendel gave us ___
1 Five principles of inheritance
2 Four principles of inheritance
3 Two principles of inheritance
4 Three principles of inheritance
Explanation:
Law of dominance, law of segregation and law of independent assortment are the three major principles of inheritance enunciated by Mendel .
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342207
The cross between two parents differing in one contrasting character is called _________
1 Dihybrid cross
2 Monohybrid cross
3 Pleoitropy
4 Multiple allelism
Explanation:
The cross between two parents differing in one contrasting character is called Monohybrid cross
BIOXII05: PRINCIPLES OF INHERITANCE AND VARIATION
342208
A cross in which an organism showing a dominant phenotype is crossed with the recessive parent in order to know its genotype is called
1 Test cross
2 Monohybrid cross
3 Back cross
4 Dihybrid cross
Explanation:
A test cross is a cross that involves the mating of \({F_1}\) individual with the homozygous recessive parent. A test cross can help decide whether a dominant phenotype is homozygous or heterozygous for a specific allele. The genotype of an organism with a dominant phenotype is either homozygous or heterozygous for the dominant allele.