true
chromosomes are thread like structures which contain the hereditary material i.e; genes on it.
Yes, a gene is a complex length of DNA that is in our body. A gene is a length of DNA that codes for a living life form. Genes are found on chromosomes which are in the body nucleus.
a. They are usually double stranded DNA. b. They are composed of DNA synthesized with the use of reverse transcriptase. c. They are composed of DNA synthesized from an mRNA template. d. They contain introns and exons. e. They contain DNA that is complementary to the mRNA from which it was synthesized.
A cell's DNA is like books in a library because it contains information that is organized and stored in a specific location. Just like books are arranged on shelves and can be accessed individually, the DNA in a cell is organized into chromosomes and can be accessed by the cell's machinery to read and interpret the genetic instructions.
No, this is completely false. Scientists all over the world, including a German scientist (but not a Nazi), have made notable contributions to DNA research; here are the most cited milestones.The history of genetics begins in 1857, in the former country of Moravia, historically part of Czechoslovakia, and part of the Czech Republic today. Gregor Mendel, a Roman Catholic monk, mathematician, and biologist, is called the "Father of Genetics" for his experiments with plants.Twelve years later, in 1869, Swiss biochemist Friedrich Miescher, identified DNA as a substance and called it, "nuclein." He eventually isolated a pure sample from salmon sperm. In 1879, German biologist Walther Flemming observed cell division and the thread-like chromosomes in cell nuclei that house DNA. In 1889, Dr. Miescher's Swiss student, Richard Altmann, renamed nuclein "nucleic acid."In 1928, British bacteriologist Frederick Griffith's experiments with mice and pneumonia viruses led him to postulate that this molecule could pass on characteristics. And the following year, Lithuanian-American biochemist Phoebus Levene, working at the Rockefeller Institute in the United States, showed in what order DNA parts link, and coined the term, "nucleotide." Levene had studied with the Russian chemist and composer, Alexander Borodin, building on their joint scientific work. And in 1944 the Rockefeller Institute reported the results of the Avery-MacLeod-McCarty experiment. Oswald Avery, Colin MacLeod, and Maclyn McCarty had shown that DNA is the substance causing bacterial transformation, and not protein as was widely believed at the time.But scientists didn't know much about the molecular structure of any substance, DNA included, until the 1950's.Linus Pauling of the United States, who was the world's leading structural biochemist in 1950, also believed genes were made of protein. In 1951 Dr. Pauling became known as the founder of molecular biology when he published his discoveries that proteins are spiral (helix) structures (Taton, 1964). Pauling's work made it possible for geneticists to crack the DNA code of all organisms and begin to develop techniques to help prevent the inheritance of genetic disorders.In 1953, building on Pauling's work, two teams of scientists, US zoologist James Watson working with British molecular biologist Francis Crick at Cambridge, and New Zealand biophysicist Maurice Wilkins, working at King's College London with British chemist Rosalind Franklin, concurrently figured out that the DNA molecule is a double helix structure, or two chains twisted around each other. The four scientists announced the structure of DNA in articles that appeared together in the same issue of Nature.DNA (deoxyribonucleic acid), carries genetic information. It is dubbed the blueprint for life as it holds the recipe for making all living things. It is a self-replicating material and the main constituent of chromosomes.
It's true that crossing over is the exchange of reciprocal DNA parts between homologous chromosomes.
It's true, it's in the book
That is false. All body cells, including heart muscle cells have 46 chromosomes. Sex cells have 23 chromosomes.
True. Mitochondria contain their own DNA - and the chromosomes present in mitochondria are much smaller than those found in the nucleus (they are much more similar to Prokaryotic chromosomes). Mitochondrial DNA is not involved in the central processes of the cell.
True
true
If you're looking for the answer to a 7th grade Science crossword puzzle, it's GENE.
DNA in the human genome is arranged into 24 distinct chromosomes. It is because of DNA's natural structure. DNA is composed of nucleic acids and it looks like a twisted ladder or a double helix.
True
DNA is DNA however how it is arranged is different from organism to organism. The differences can be slight or substantial as can the number of chromosomes.
true
Chromosomes carry DNA which passes on the traits of the parents to the offspring.