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All traits are inherited through patterns found by Mendel.
Two common traits are the plants division into shoots and roots which simply mean the functions of the stems leaves and roots. Also photosynthesis is another common trait.
its 3:1
In all of Mendel's crosses, only one form of the trait appeared in the f1 generation.
Mendel was considered as the father of genetics because he showed that inheritance follows certain patterns. He was famous for working with pea plants. He bred different kinds of pea plants to get particular traits, such as tall or short.
All the traits that Mendel tested had clearly dominant forms.
All the traits that Mendel tested had clearly dominant forms.
All the traits that Mendel tested had clearly dominant forms.
He wondered if testing for two separate characteristics would cause them to somehow interact. This law only applies when two traits are tested like seed color and texture. Traits are independent ONLY if they occur on separate chromosomes. Lucky for Mendel that the 7 traits he tested all occurred on 7 separate chromosomes.
Mendel called the more common traits "dominant" and the less common ones "recessive."-Sami. (:
f2 generation
All of the traits that he studied were determined by genes on autosomes. Most traits in sexually reproducing organisms result in autosomal genes
All of the genes controlling the traits behaved as if they were on different chromosomes.
All traits are inherited through patterns found by Mendel.
All traits are inherited through patterns found by Mendel.
All traits are inherited through patterns found by Mendel.
No, the traits Mendel studied (by chance) were all controlled by single genes. There are some traits that depend on interactions between multiple genes, sometimes even on different chromosomes. The phenotypes they generate are much more difficult to match to genotypes and inheritance than Mendel's laws directly explain.