1 / 13

Nucleic Acids

Biochemistry Unit. Nucleic Acids. Nucleic Acids.

maja
Télécharger la présentation

Nucleic Acids

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Biochemistry Unit Nucleic Acids

  2. Nucleic Acids • Nucleic acids direct the growth and development of every living organism. Included in this group is DNA, RNA, and ATP. As well, the nucleotide coenzymes FAD, NAD, and NADP are also included in this group. (These molecules are an essential part of the process of cellular respiration and photosynthesis). Can also act as a messenger between hormone interactions (cAMP). • DNA and RNA are polymers that are made up of monomer units called nucleotides.They are the only molecules that can produce identical copies of themselves. • ATP and nucleotide coenzymes aremonomers.

  3. Nucleotide Structure A nucleotide is made up of three main components: a sugar, a phosphate group, and a nitrogen containing base.

  4. DNA:DeoxyribonucleicAcid • DNA is the source of genetic information for every living organism. • Directs all cellular activities and is able to replicate itself so that new cells and organisms can be created. • DNA is a polymer of many nucleotides. • ATP, NAD+, FAD, NADP+ are monomers.

  5. DNA Structure • Phosphate: • Deoxyribose sugar: • Nitrogenous base (one of four)…

  6. DNA Structure: Nitrogenous Bases • Divided into two groups based upon the number of rings in the structure. • Purines: two rings, adenine and guanine. • Pyrimidines:one ring, thymine and cytosine.

  7. DNA: linkagesPhosphodiester Bonds • DNA nucleotides are joined together at the phosphate group through phosphodiester bonds between carbon five (5') of one molecule to the hydroxyl group at carbon three (3') from another molecule. • Additional nucleotides are always added on to the 3' end of the previous nucleotide (5'→3').

  8. DNA: linkagesHydrogen Bonds • Hydrogen bonds unite strands of DNA together. • Adenine will always bind to thymine by two hydrogen bonds. • Guanine and cytosine will always bind together by three hydrogen bonds. • A purine will only pair up with its complementary pyrimidine.

  9. RNA:RibonucleicAcid • RNA is also a polymer made up of nucleotides. Composed of a: • Ribose sugar • Phosphate group • Four nitrogen containing bases (C G A and U) • All of the bases are the same as those found in DNA except Uracil replaces thymine in RNA. • RNA is single stranded and its function is to translate and transcribe the genetic information into proteins.

  10. RNA: linkagesPhosphodiester Bonds • RNA is also synthesized in the 5'→3' direction in a condensation reaction. • A phosphodiester bond forms between the phosphate group from one nucleotide and the hydroxyl group from the second nucleotide.

  11. DNA vs. RNA Structure

  12. ATP • ATP is composed of a single nucleotide, a monomer unit Composed of: • nitrogen base called adenosine • a ribose sugar • three phosphate groups • ATP is the energy providing molecule of the cell. High energy bonds are formed between each phosphate group and the ribose sugar. When these bonds break, energy is released. ATP is one of the products of cellular respiration.

More Related