1. 9
2. 27
3. 64
4. More than 100
64
1. There is a 50% probability that a gamete will get a dominant allele
2. Gene pairs segregate independently of other genes in gamete formation
3. Allele pairs separate in gamete formation
4. The laws of probability determine gamete formation
Allele pairs separate in gamete formation
1. ½
2. 1/6
3. ¼
4. 1/8
½
1. ½
2. 1/8
3. 3/8
4. ¾
3/8
1. Has a phenotypic ratio of 3:1
2. Is the result of the self-fertilization of crossing of F1 individuals
3. Can be used to determine the genotype of individuals with dominant phenotype
4. Has a phenotypic ratio that equals its genotypic ratio
Is the result of the self-fertilization of crossing of F1 individuals
1. 4
2. 9
3. 16
4. 12
9
1. The alleles are dominant
2. One parent must have been homozygous recessive
3. The dominant phenotype parent parent was a heterozygote
4. The alleles are codominant
The dominant phenotype parent parent was a heterozygote
1. Are indicated by solid symbols on a family pedigree
2. Will produce children with the disease
3. Have homozygous recessive genotype
4. Are heterozygous for the gene that can cause the disorder
Are heterozygous for the gene that can cause the disorder
1. The fossil record found in the stromatolities
2. The discovery of ribosomes, showing that prebiotic RNA molecules may have been autocatalytic
3. The production of organic compounds within a labouratory apparatus simulating conditions of early earth
4. The relative ease with which liposomes can be synthesized in laboratories
The relative ease with which liposomes can be synthesized in laboratories
1. The fossil record found in the stromatolities
2. The discovery of ribosomes, showing that prebiotic RNA molecules may have been autocatalytic
3. The production of organic compounds within a labouratory apparatus simulating conditions of early earth
4. The relative ease with which liposomes can be synthesized in laboratories
The relative ease with which liposomes can be synthesized in laboratories