Mandel, the father of genetics, was able to draw the ideas of segregation and that of independent assortment as a result of his under study of peas. This study allowed Independent assortment is elemental in the continuation of the species.
because of the assortment from the homolog
No, because genetic diversity has nothing to do with the sex chromosomes but is due to crossing-over of chromosomes independent assortment of chromosomes, and segregation of chromosomes
The principles that govern heredity were discovered by a monk named Gregor Mendel in the 1860's. One of these principles, now called Mendel's law of independent assortment, states that allele pairs separate independently during the formation of gametes. This means that traits are transmitted to offspring independently. Novanet answer Different traits are passed on to the offspring seperately from one another.....Good Luck *****Mendel's Law of Independent Assortment states that factors for different characteristics are distributed to reproductive cells independently. It does NOT state that the alleles separate during the forming of gametes. That is the Law of Segregation. Another answer: Mendel's law of independent assortment says that chromosomes in a cell line up and then separate randomly. In other words, the orientation of the homologous chromosomes is accidental and not fixed. Mendel's law of independent assortment makes sense with the events of meiosis-it explains that meiosis produces multiple varieties of gene combinations. Because of this randomness, the distribution of genes for one trait does not affect the distribution of genes for any other traits on a different chromosome. ~N.C.
Mendel's principle of independent assortment does not apple to linked genes. (ex. X-linked genes)
The mother cell has 4n the chromosomes. The daughter cells each have n. The chromosomes are also not identical because of independent assortment and crossing over.
because of the assortment from the homolog
No, because genetic diversity has nothing to do with the sex chromosomes but is due to crossing-over of chromosomes independent assortment of chromosomes, and segregation of chromosomes
Yes, independent assortment is important in humans because it helps generate genetic variation within a population by shuffling and recombining genes during meiosis. This process contributes to genetic diversity and plays a role in evolution and adaptability to changing environments.
The principles that govern heredity were discovered by a monk named Gregor Mendel in the 1860's. One of these principles, now called Mendel's law of independent assortment, states that allele pairs separate independently during the formation of gametes. This means that traits are transmitted to offspring independently. Novanet answer Different traits are passed on to the offspring seperately from one another.....Good Luck *****Mendel's Law of Independent Assortment states that factors for different characteristics are distributed to reproductive cells independently. It does NOT state that the alleles separate during the forming of gametes. That is the Law of Segregation. Another answer: Mendel's law of independent assortment says that chromosomes in a cell line up and then separate randomly. In other words, the orientation of the homologous chromosomes is accidental and not fixed. Mendel's law of independent assortment makes sense with the events of meiosis-it explains that meiosis produces multiple varieties of gene combinations. Because of this randomness, the distribution of genes for one trait does not affect the distribution of genes for any other traits on a different chromosome. ~N.C.
The principles that govern heredity were discovered by a monk named Gregor Mendel in the 1860's. One of these principles, now called Mendel's law of independent assortment, states that allele pairs separate independently during the formation of gametes. This means that traits are transmitted to offspring independently. Novanet answer Different traits are passed on to the offspring seperately from one another.....Good Luck *****Mendel's Law of Independent Assortment states that factors for different characteristics are distributed to reproductive cells independently. It does NOT state that the alleles separate during the forming of gametes. That is the Law of Segregation. Another answer: Mendel's law of independent assortment says that chromosomes in a cell line up and then separate randomly. In other words, the orientation of the homologous chromosomes is accidental and not fixed. Mendel's law of independent assortment makes sense with the events of meiosis-it explains that meiosis produces multiple varieties of gene combinations. Because of this randomness, the distribution of genes for one trait does not affect the distribution of genes for any other traits on a different chromosome. ~N.C.
Mendel's principle of independent assortment does not apple to linked genes. (ex. X-linked genes)
The principles that govern heredity were discovered by a monk named Gregor Mendel in the 1860's. One of these principles, now called Mendel's law of independent assortment, states that allele pairs separate independently during the formation of gametes. This means that traits are transmitted to offspring independently. Novanet answer Different traits are passed on to the offspring seperately from one another.....Good Luck *****Mendel's Law of Independent Assortment states that factors for different characteristics are distributed to reproductive cells independently. It does NOT state that the alleles separate during the forming of gametes. That is the Law of Segregation. Another answer: Mendel's law of independent assortment says that chromosomes in a cell line up and then separate randomly. In other words, the orientation of the homologous chromosomes is accidental and not fixed. Mendel's law of independent assortment makes sense with the events of meiosis-it explains that meiosis produces multiple varieties of gene combinations. Because of this randomness, the distribution of genes for one trait does not affect the distribution of genes for any other traits on a different chromosome. ~N.C.
Counting large numbers of plants was important for Mendel because it allowed him to observe patterns and ratios in the inheritance of traits. By analyzing a large sample size, he was able to establish the fundamental principles of genetics, such as the segregation and independent assortment of alleles. This laid the foundation for our understanding of heredity and paved the way for future research in the field.
The principles that govern heredity were discovered by a monk named Gregor Mendel in the 1860's. One of these principles, now called Mendel's law of independent assortment, states that allele pairs separate independently during the formation of gametes. This means that traits are transmitted to offspring independently. Novanet answer Different traits are passed on to the offspring seperately from one another.....Good Luck *****Mendel's Law of Independent Assortment states that factors for different characteristics are distributed to reproductive cells independently. It does NOT state that the alleles separate during the forming of gametes. That is the Law of Segregation. Another answer: Mendel's law of independent assortment says that chromosomes in a cell line up and then separate randomly. In other words, the orientation of the homologous chromosomes is accidental and not fixed. Mendel's law of independent assortment makes sense with the events of meiosis-it explains that meiosis produces multiple varieties of gene combinations. Because of this randomness, the distribution of genes for one trait does not affect the distribution of genes for any other traits on a different chromosome. ~N.C.
Independent assortment happens at random when alleles are taken from different homlogous chromosomes or when the same pair of chroosomes are far apart during meiosis; this results in diversity in genetic combinations.
The segregation did stop because of Rosa Parks
In meiosis, one source of genetic variation is crossing-over, which is the exchange of corresponding segments of DNA between non-sister chromatids, in other words chromatids of two different homologous chromosomes. This process recombines segments of maternal and paternal DNA along the molecule. It occurs during prophase I.Another source is independent assortment of chromosomes. This simply means that when two chromosomes separate and go to opposite poles at anaphase I, the separation of one pair of chromosomes has no influence on the separation of another pair. Even without crossing-over, one individual human could, in theory, produce more than eight million genetically different haploid cells through independent assortment. (It's a bit like dealing a hand of cards. There are many different possible combinations.)