yes. no matter whether they are homozygous dominant or recessive.
The offspring of two true-breeding plants is also true-breeding, meaning they will consistently display the same traits as the parents. This is because true-breeding plants are homozygous for a particular trait, so when they are crossed, their offspring will also be homozygous for that trait.
"True breeding" in genetics refers to organisms that always produce offspring with the same traits as themselves when self-pollinated or crossed with another true-breeding organism. This term is used to describe organisms that are homozygous for a particular trait, meaning they have two identical alleles for that trait.
A true-breeding plant is one that produces offspring with the same traits as the parent when self-pollinated or cross-pollinated with another true-breeding plant. This indicates that the plant is homozygous for a particular trait and will consistently pass on that trait to its offspring.
A heterozygous genotype (e.g. Aa) is not true-breeding because it carries two different alleles for a trait and can produce offspring with different genotypes when crossed. True-breeding genotypes are homozygous for a particular trait (e.g. AA or aa) and will consistently produce offspring with the same genotype when crossed.
Organisms or genotypes that are homozygous for a specific trait and always produce offspring of the same phenotype are said to be true breeding. This means that when bred with another organism of the same genotype for that trait, all offspring will display the same characteristic.
Homozygous
The offspring of two true-breeding plants is also true-breeding, meaning they will consistently display the same traits as the parents. This is because true-breeding plants are homozygous for a particular trait, so when they are crossed, their offspring will also be homozygous for that trait.
A homozygous trait is expressed when 2 of the same alleles make up the genotype. For example, if two alleles (A and a) were present, the homozygous trait would be either AA or aa. In general, a fully recessive trait is only expressed when it's homozygous.
True-breeding is an organisms or genotypes that are homozygous for a specific trait and thus always produce offspring that have the same phenotype for that trait.
"True breeding" in genetics refers to organisms that always produce offspring with the same traits as themselves when self-pollinated or crossed with another true-breeding organism. This term is used to describe organisms that are homozygous for a particular trait, meaning they have two identical alleles for that trait.
A true-breeding plant is one that produces offspring with the same traits as the parent when self-pollinated or cross-pollinated with another true-breeding plant. This indicates that the plant is homozygous for a particular trait and will consistently pass on that trait to its offspring.
A heterozygous genotype (e.g. Aa) is not true-breeding because it carries two different alleles for a trait and can produce offspring with different genotypes when crossed. True-breeding genotypes are homozygous for a particular trait (e.g. AA or aa) and will consistently produce offspring with the same genotype when crossed.
True-breeding
Referring to organisms for which sexual reproduction produces offspring with inherited traits identical to those of the parents. The organisms are homozygous for the characteristics under consideration.
Organisms or genotypes that are homozygous for a specific trait and always produce offspring of the same phenotype are said to be true breeding. This means that when bred with another organism of the same genotype for that trait, all offspring will display the same characteristic.
A true breeding pea plant means that when it self-pollinates, it produces offspring with the same trait as the parent plant. This indicates that the plant is homozygous for that particular trait and will consistently pass it on to its offspring.
Purebred organisms are the organisms in the off springs for many generations which have the same traitA true-breeding organism, sometimes also called a purebred, is an organism that always passes down certain phenotypic traits (i.e. physically expressed traits) to its offspring.