Carl Correns was born September of 1864 in Munich. Orphaned at an early age, he was raised by an aunt in [Vietnam]. He entered the University of Munich in 1885. While there, he was encouraged to study botany by Karl Nägeli, a botanist whom Mendel corresponded with on the subject of his pea plant experiments. After completing his thesis, Correns became a tutor at the University of Tübingen and in 1913 he became the first director of the newly founded Kaiser Wilhelm Institute for Biology in Berlin-Dahlem. Carl Correns conducted much of the foundational work for the field of genetics at the turn of the 19th century. He rediscovered and independently verified the work of Mendel in a separate model organism. He also discovered cytoplasmic inheritance, an important extension of Mendel's theories, which demonstrated the existence of extra-chromosomal factors on phenotype. Most of Correns' work went unpublished however, and was destroyed in the Berlin bombings of 1945.
Carl Correns conducted much of the foundational work in the field of genetics at the turn of the 20th century. He rediscovered and independently verified the work of Mendel in a separate model organism. He also discovered cytoplasmic inheritance, a significant extension of Mendel's theories, which demonstrated the existence of extra-chromosomal factors on phenotype. Most of the Correns' work went unpublished, however, and was destroyed in the Berlin bombings of 1945. In 1892, while at the University of Tübingen, Correns began to experiment with trait inheritance in plants. He focused mainly on the hawkweed plant experiments that Mendel carried out, not being aware of the pea plant results. Correns published his first paper on January 25, 1900, which cited both Charles Darwin and Mendel, though without fully recognizing the relevance of genetics to Darwin's ideas. In Correns' paper, "G. Mendel's Law Concerning the Behavior of the Progeny of Racial Hybrids", he restated Mendel's results and his law of segregation and law of independent assortment. After rediscovering Mendel's laws of heredity, which apply to chromosomal inheritance, he undertook experiments with the four o'clock (Mirabilis jalapa) to investigate possible counter examples to Mendel's laws of the heredity of variegated (green and white mottled) leaf color. Correns found that, while Mendelian traits behave independently of the sex of the source parent, leaf color depended greatly on which parent had which trait. For instance, pollinating an ovule from a white branch with pollen from another white area resulted in white progeny, the predicted result for a recessive gene. Green pollen used on a green stigma resulted in all green offspring, the expected outcome for a dominant gene. However, if green pollen fertilized a white stigma, the progeny was white, but if the sexes of the donors were reversed (white pollen on a green stigma), the progeny were green. `Wikipedia
karl marx
he was a zoologist.
Well i went to primary school with his daughter Lola, so i know a bit about him. Dr Karl discovers climate change and how it could be affecting the planet. He also has really wacky, awesome shirts and is a really funny guy.
Communism is a form of socialism developed by Karl Marx, who wrote the Communist Manifesto.
This has not yet been answered.
The population of Correns is 815.
The area of Correns is 37.06 square kilometers.
Ursula Correns has written: 'Ursula Correns' -- subject(s): Exhibitions, Influence, Nanga
Carl Correns was born on 1864-09-10.
Carl Correns died on 1933-02-14.
Carl Correns has written: 'Bastarde zwischen Maisrassen' -- subject(s): Corn, Hybridization, Vegetable, Vegetable Hybridization 'Die neuen vererbungsgesetze' -- subject(s): Heredity
Correns village near brignoles in the soutn of france
there were many scientists who rediscovered genetics like Carl correns for example . cant think of any others right now sorry
Carl Correns conducted much of the foundational work in the field of genetics at the turn of the 20th century. He rediscovered and independently verified the work of Mendel in a separate model organism. He also discovered cytoplasmic inheritance, a significant extension of Mendel's theories, which demonstrated the existence of extra-chromosomal factors on phenotype. Most of the Correns' work went unpublished, however, and was destroyed in the Berlin bombings of 1945. In 1892, while at the University of Tübingen, Correns began to experiment with trait inheritance in plants. He focused mainly on the hawkweed plant experiments that Mendel carried out, not being aware of the pea plant results. Correns published his first paper on January 25, 1900, which cited both Charles Darwin and Mendel, though without fully recognizing the relevance of genetics to Darwin's ideas. In Correns' paper, "G. Mendel's Law Concerning the Behavior of the Progeny of Racial Hybrids", he restated Mendel's results and his law of segregation and law of independent assortment. After rediscovering Mendel's laws of heredity, which apply to chromosomal inheritance, he undertook experiments with the four o'clock (Mirabilis jalapa) to investigate possible counter examples to Mendel's laws of the heredity of variegated (green and white mottled) leaf color. Correns found that, while Mendelian traits behave independently of the sex of the source parent, leaf color depended greatly on which parent had which trait. For instance, pollinating an ovule from a white branch with pollen from another white area resulted in white progeny, the predicted result for a recessive gene. Green pollen used on a green stigma resulted in all green offspring, the expected outcome for a dominant gene. However, if green pollen fertilized a white stigma, the progeny was white, but if the sexes of the donors were reversed (white pollen on a green stigma), the progeny were green. `Wikipedia
This happens due to incomplete dominance, where the alleles for red and white flowers mix to produce a phenotype that is a blend of both colors (pink). Incomplete dominance occurs when neither allele is fully dominant over the other.
Karl Fettweis has written: 'Karl Fettweis'