1 / 17

When DNA Changes – Chap. 17

When DNA Changes – Chap. 17. http://www.rottentomatoes.com/m/xmen/trailers.php.

marlin
Télécharger la présentation

When DNA Changes – Chap. 17

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. When DNA Changes – Chap. 17 http://www.rottentomatoes.com/m/xmen/trailers.php Left: A normal fruit fly (drosophila). Middle: A fruit fly with its legs jutting from its head; a mutation induced by radiation. Right: A disastrous effect of mutations on the human body. The boy is a Chernobyl nuclear plant accident victim.

  2. DNA is stable • bases (A,T,C,G) are protected inside of sugar-phosphate backbone • tight wrapping around proteins called histones (eukaryotes) and coiling do not allow for direct access to DNA • complimentary base pairing to fix any accidental “changes”

  3. DNA is not stable • mutations can be beneficial, neutral, or harmful for the organism • mutations are random • there are lots of places for mutations to occur; however, not all mutations matter for evolution • somatic mutations occur in non-reproductive cells and won’t be passed onto offspring

  4. only mutations that matter to large-scale evolution are those that can be passed on to offspring • these occur in reproductive cells like eggs and sperm and are called germline mutations

  5. chromosomal defects are surprisingly frequent events • about 20% of all human conceptions have them  • many, if not most, irregular chromosomes are the result of a failure of meiosis in the production of sperm and ova (egg) • most are so severe as to cause spontaneous abortions early in pregnancies • mutations in the DNA molecules that make up chromosomes are not usually detected

  6. Frequency of Mutations • in humans and other mammals, mutations occur at the rate of about 1/50 million nucleotides added to the chain • with 3 billion base pairs in a human cell, that means that each new cell contains about 120 new mutations. • however, not that big of a deal because of synonomous codons and “junk DNA” • for eukaryotes this often happens during interphase where all DNA is replicated into two copies before mitosis or meiosis

  7. Damaging DNA mutagens are agents that cause mutations – a failure to repair DNA • radiation—forms of energy (gamma rays, x-rays, UV) that penetrate the cells and damage DNA • chemical—damage DNA through chemical reactions

  8. Three levels of mutational change Level 1. Point or Single-Base Mutations • Involves changes in one or only a few nucleotides in DNA. • 3 Types: I. (Base) Substitutions (Fig. 17.5 in text) – substitutions of a single base pair. Threeoutcomes are... • Silent mutations – has no effect on the structure of the resulting protein since it still codes for the same a.a. because of synonymous codons

  9. Neutral mutations – changes an a.a. in the protein but has no effect its performance • “Drastic” mutations-- has serious effects on future structure and performance of proteins. • Ex) Sickle cell – a codon for an amino acid in hemoglobin mutates from GAA (glutamic acid) to GUA (valine) • Ex) Tay Sacs disease NOVA. One Wrong Letter

  10. II. Chain-Termination Mutations – a new stop codon is produced or a stop codon is mutated into a codon other than a stop III.Frameshift Mutations(Fig. 17.6) result from the deletions and additions of bases into a nucleotide sequence. These cause shifts in the reading of codons during transcription and result in an abnormal protein

  11. Level 2. Chromosomal Mutations • major changes in chromosomal structure rather than simple DNA sequence changes • a complete breaking, misalignment, and rejoining of the double helix in one or more chromosomes

  12. 3 Types: • Deletions – entire sections of the chromosome are left out • Inversions – a middle fragment may flip over and then rejoin

  13. Translocations – two nonhomologous • chromosomes break, swap segments, and fuse • together (ex. human #9 and #22 resulting in a type • of lukemia)

  14. Level 3. Transpositions • certain segments of DNA frequently “jump” (sometimes called "jumping genes“) to new locations in the same DNA molecule or a different one • not caused by mutagens but are considered mutagens themselves because they cause the mutation • could an organism “purposely” evolve? • discovered by Barbara Clintock (nobel prize 1983)

  15. http://www.youtube.com/watch?v=qLnr_3J1IT8&feature=related

More Related