one parent was pure dominant and one parent was pure recesive .
It depends which one is the dominant gene, and which is recessive. Dominant always over rules recessive. I probably spelled recessive wrong so yeah... :P
The appearance of lawrencium is not known.
recessive alleles get masked to show the difference in a dominant gene and a recessive gene. the dominate genes masks the recessive genes to show that the dominate gene is more dominate or more likely to be the outcome than the reccessive gene but the masked gene is not always recessive.
Californium has a silvery metallic appearance.
Each person have 2 genes for almost all characters we own. Blond hair and blue eyes are traits that are determined genetically by recessive gene variants. Such genes can express only in the absence of the dominant genes (in this case the genes for black/red hair or dark/green eyes). The dominant gene always suppresses the recessive ones. So If both parents have blond hair and blue eye, thus none of them posses dominant genes, it means that their offspring cannot show a dominant character, and yes he/she will also have blond hair and probably blue eyes. Probably blue, as for eyes the grey color is more recessive then blue, and parents might carry its gene as well.
A cross between a homozygous recessive and an individual of unknown genotype is called a test cross.The homozygous recessive can only pass on a recessive allele to the offspring, and so any recessive in the other parent will show up in the phenotype (detectable characteristics) of some of the offspring.
A+ It is probably homozygous for the recessive allele.
This is probably the result of the brown genes being dominant and the white genes being recessive. this is correct.
probably dominant
A google search will probably answer your question.
It depends which one is the dominant gene, and which is recessive. Dominant always over rules recessive. I probably spelled recessive wrong so yeah... :P
Wllie Mays' offspring would be his children. You probably mean his "off-season".
The appearance of lawrencium is not known.
it is probably homozygone for the recessive allele.
it is probably homozygous for the recessive allele
Phenotype: Black Bear x Brown Bear Genotype: BB x bb Possible gametes: B B b b Possible B B crosses: b Bb Bb b Bb Bb Phenotype of offspring: Only Black bears
50 percent