Yes, if both alleles for a trait are short stem alleles and the trait follows simple Mendelian inheritance, the offspring will typically express the short stem phenotype. In this case, the short stem trait is likely dominant, meaning the presence of two short stem alleles will result in a short-stemmed plant. However, it's essential to consider any potential interactions with other genes or environmental factors that could influence growth.
Yes, in pea plants the tall-stem and short-stem alleles are different forms of the same gene that controls stem length. These different forms, or alleles, result in the observable variations in stem height seen in pea plants.
In this scenario, the inheritance of flower color and stem height follows Mendelian genetics, where each trait is controlled by alleles. The tall blue flower and the short purple flower likely have genotypes that include dominant and recessive alleles for both traits. When crossed, the resulting offspring exhibit a combination of these traits, producing tall blue flowers. This outcome suggests that the tall allele is dominant over the short allele, and the blue color allele is dominant over the purple color allele.
If you mean one allele for short stems, then it would probably be something similar to Ss, where S is a tall stem allele and s is a short stem allele. The letters chosen to represent the alleles are not universally agreed on (there are far too many genes, let alone alleles, to name with only letters), so they are specified in each case by the geneticist. Also, make sure that the letters match each trait - s and S are the same letter for the same trait, the stems. For color, you would use another pair - say perhaps C for green peas, c for yellow peas, et cetera.
Yes, bromeliads have a stem. The stem is usually short and hidden by the leaves in the center of the rosette. It helps support the plant and connect the roots with the leaves.
some examples are daisies , grasses , herbaceous etc
Yes, in pea plants the tall-stem and short-stem alleles are different forms of the same gene that controls stem length. These different forms, or alleles, result in the observable variations in stem height seen in pea plants.
The plan's alleles are written as (Tt) for tall stem and (Tt) for short stem in this case, indicating that it has one allele for tall stems (T) and one allele for short stems (t).
In this scenario, the inheritance of flower color and stem height follows Mendelian genetics, where each trait is controlled by alleles. The tall blue flower and the short purple flower likely have genotypes that include dominant and recessive alleles for both traits. When crossed, the resulting offspring exhibit a combination of these traits, producing tall blue flowers. This outcome suggests that the tall allele is dominant over the short allele, and the blue color allele is dominant over the purple color allele.
Having one allele for tall stems and one allele for short stems is a heterozygous genotype and could be represented as Tt, where T represents the tall allele, and t represents the short allele, if the tall allele has complete dominance over the short allele.
The dominant trait for height in a pea plant is tall (TT or Tt). The only instance in which a pea plant will be short is if it carries both recessive alleles (tt).
If you mean one allele for short stems, then it would probably be something similar to Ss, where S is a tall stem allele and s is a short stem allele. The letters chosen to represent the alleles are not universally agreed on (there are far too many genes, let alone alleles, to name with only letters), so they are specified in each case by the geneticist. Also, make sure that the letters match each trait - s and S are the same letter for the same trait, the stems. For color, you would use another pair - say perhaps C for green peas, c for yellow peas, et cetera.
yea for sizzle
Gk, gk
long stem
A stem is a cross between a stud and a femme. Like me, for example... I have short hair and dress more masculine.. But I wear makeup & parfume & get pedicures etc. I guess this makes me a stem :)
yes.but short stem
yes.but short stem