1 / 37

Biotechnolgy

Biotechnolgy. Basic Molecular Biology. Core of biotechnology. Began in 1940’s. Scientists studying animal and plant viruses. 1953. James Watson and Francis Crick identified the structure of DNA. 1960’s. The genetic code was worked out. 1970’s. Restriction enzymes were discovered.

ovid
Download Presentation

Biotechnolgy

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. Biotechnolgy

  2. Basic Molecular Biology • Core of biotechnology

  3. Began in 1940’s • Scientists studying animal and plant viruses

  4. 1953 • James Watson and Francis Crick identified the structure of DNA

  5. 1960’s • The genetic code was worked out

  6. 1970’s • Restriction enzymes were discovered.

  7. Broad range of studies • DNA-RNA • genetic engineering • cloning • gene therapy • recombinant DNA • gene splicing

  8. Nucleotides • composed of three parts • a phosphate molecule • a sugar molecule • a nitrogen base molecule

  9. Sugar molecules • ribose as in RNA • deoxyribose as in DNA

  10. Nitrogen bases • five bases in RNA and DNA

  11. DNA • Cytosine - C • Thymine - T • Adenine - A • Guanine - G

  12. RNA • A, C, G & • Uracil - U • found only in RNA • Substitutes for Thymine

  13. Structure of DNA • genetic material of the cell - makes up the genes • genes are organized in chromosomes

  14. Chromosomes • make up the genetic info of the cell or genome

  15. The nucleotides….. • ACT&G form two long strands • The strands are complimentary • Bases on one strand are paired with those on the other strand

  16. Base Pairing • A with T • C with G • ALWAYS this way!

  17. Double Helix • forms when the two strands intertwine • like a ribbon around a pole

  18. Antiparallel • The two strands run antiparallel • They face each other and run in opposite directions

  19. Strands run in different directions • one strand runs from 5’ to 3’ • the other strand runs 3’to 5’

  20. Prime ends • 3’ & 5’ are differentiated by the arrangement of the sugar on each nucleotide • 5’ ends in a Phosphate (P) • 3’ ends in a Hydroxide (OH)

  21. DNA Structure • unique for three reasons • complimentarity of the two strands - base pairing • variability of base sequence along the two linear strands

  22. DNA Structure • independence of the two strands • their ability to separate and rejoin without destroying the molecule.

  23. DNA in Humans • 6 billion base pairs in a human cell • 100 trillion cells in human body. • DNA in a human would reach to the moon and back 250,000 times

  24. Turns of the helix • There are ten base pairs per complete turn of the helix • Distance of one complete turn of the helix is 10 A ( Angstrums)

  25. Functions of DNA • carry genetic information • express genetic information

  26. Express genetic info • directs the synthesis of proteins • proteins determine the traits of an organism

  27. Eukaryotic Cells • having a true membrane bound nucleus • DNA of nucleus is stored by wrapping it around five proteins to form a nucleosome.

  28. Nucleosome • forms the chromosome • the genes are located along the DNA molecule • chromosomes occur in pairs

  29. Prokaryotic Cells • chromosome is not associated with proteins • exists as a single, circular chromosome of double stranded DNA. • Also contain smaller circular DNA called a plasmid

  30. Plasmids • can pass between bacteria • are vehicles for introducing new genes into bacteria in nature and in the lab

  31. Transcription • Replication • goes from the 5’ to the 3’ end of DNA

  32. Reading DNA • DNA is read from 3’ to 5”

  33. Synthesis of DNA • synthesized only in the 5’ to 3’ direction • Cannot initiate synthesis of a new strand - requires a 3’OH as a primer

  34. Types of RNA • messenger - mRNA carries the code for a protein

  35. Codon • sequence of three bases • each three bases represents an amino acid

  36. Transfer RNA • tRNA • carries appropriate Amino Acid with it • anticodon - pairs with the codon

  37. Ribosomal RNA • rRNA • required for bonding to occur by Amino Acids • Ribosome has two parts • big • small

More Related