342330 It is said that Mendel proposed that the factor controlling any character is discrete and independent. His proposition was based on the

342331 The law of dominance is applicable in inheritance of

342333 When alleles of two contrasting characters are present together and one of the character expresses itself during the cross in a monohybrid cross while the other remains hidden gives the

342334 The allele which express itself in both homozygous and heterozygous condition is called

342335 In order to explain the mode of inheritance of character through successive generations, Mendel proposed that the two alternative factors for each character become separated during the formation of gametes and each factor has an equal chance of being transferred the offsprings. This phenomenon is known as :

342330 It is said that Mendel proposed that the factor controlling any character is discrete and independent. His proposition was based on the

342331 The law of dominance is applicable in inheritance of

342333 When alleles of two contrasting characters are present together and one of the character expresses itself during the cross in a monohybrid cross while the other remains hidden gives the

342334 The allele which express itself in both homozygous and heterozygous condition is called

342335 In order to explain the mode of inheritance of character through successive generations, Mendel proposed that the two alternative factors for each character become separated during the formation of gametes and each factor has an equal chance of being transferred the offsprings. This phenomenon is known as :

342330 It is said that Mendel proposed that the factor controlling any character is discrete and independent. His proposition was based on the

342331 The law of dominance is applicable in inheritance of

342333 When alleles of two contrasting characters are present together and one of the character expresses itself during the cross in a monohybrid cross while the other remains hidden gives the

342334 The allele which express itself in both homozygous and heterozygous condition is called

342335 In order to explain the mode of inheritance of character through successive generations, Mendel proposed that the two alternative factors for each character become separated during the formation of gametes and each factor has an equal chance of being transferred the offsprings. This phenomenon is known as :

342330 It is said that Mendel proposed that the factor controlling any character is discrete and independent. His proposition was based on the

342331 The law of dominance is applicable in inheritance of

342333 When alleles of two contrasting characters are present together and one of the character expresses itself during the cross in a monohybrid cross while the other remains hidden gives the

342334 The allele which express itself in both homozygous and heterozygous condition is called

342335 In order to explain the mode of inheritance of character through successive generations, Mendel proposed that the two alternative factors for each character become separated during the formation of gametes and each factor has an equal chance of being transferred the offsprings. This phenomenon is known as :

342330 It is said that Mendel proposed that the factor controlling any character is discrete and independent. His proposition was based on the

342331 The law of dominance is applicable in inheritance of

342333 When alleles of two contrasting characters are present together and one of the character expresses itself during the cross in a monohybrid cross while the other remains hidden gives the

342334 The allele which express itself in both homozygous and heterozygous condition is called

342335 In order to explain the mode of inheritance of character through successive generations, Mendel proposed that the two alternative factors for each character become separated during the formation of gametes and each factor has an equal chance of being transferred the offsprings. This phenomenon is known as :