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molecular genetics
- 1. DNA is a polymer of nucleotides. That means it is a complex molecule composed of nucleotides.
- 2. These nucleotides form chemical interactions as such: There are four types of nucleotides in DNA: Adenine, Cytosine, Guanine and Thymine.
- 3. Nucleotides match to form base pairs. Adenine pairs with thymine and cytosine pairs with guanine.
- 4. DNA works like a set of instructions which makes proteins. These proteins are necessary for your body to function correctly. Different proteins which have the same function imply different phenotypes.
- 7. The instructions are found in the DNA´s sequence of nucleotides, present in all cells of living organisms.
- 8. The process follows this sequence: DNA RNA proteins
- 9. In eukaryotic cells information travels from the nucleus to the cytoplasm where ribosomes are present.
- 10. Not all genetic information is needed at all times in all cells.
- 11. • The process involves transcribing and passing information from the DNA to a RNA molecule which sends the information to the cytoplasm.
- 12. • Meaning: the code of nucleotides is read in groups of three, which forms a code of amino acids
- 13. Biotechnology groups all methods of analysing living organisms with some practical methods of analysing human beings. Important: methods of manipulating the genetic code are included
- 14. Biotechnology produces therapeutic substances such as hormones (insulin for example) or vaccines.
- 15. It produces food
- 16. It produces energy such as methane or ethanol through fermentation.
- 17. A combination of methods which modify an organism´s DNA. One or more genes are transfered. Transgenetic organisms are produced.
- 18. In order to obtain the new DNA, enzymes (proteins) break the DNA´s chain in specific places (restriction enzymes) and other enzymes bind these fragments (elastic enzymes) together.
- 19. Uses: •Obtaining pharmaceuticals such as insulin. •Obtaining better crops and livestock. Transgenetic products. •Therapeutic genes: substituting faulty genes by healthy ones to cure illnesses.
- 20. Gene therapy: for example, treating immunodeficiency disorder (SCID).