1 / 11

2008 Nobel Prize in Chemistry Green fluorescent protein, GFP

2008 Nobel Prize in Chemistry Green fluorescent protein, GFP. Marty Chalfie Obtained the GFP gene ( gfp ) clone from Prasher in 1992. Made promoter::GFP And Promoter::GFP::Gene expression vectors to show the When and where genes are expressed. Osamu Shimomura Jellyfish/

ckoopman
Download Presentation

2008 Nobel Prize in Chemistry Green fluorescent protein, GFP

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. 2008 Nobel Prize in Chemistry Green fluorescent protein, GFP Marty Chalfie Obtained the GFP gene (gfp) clone from Prasher in 1992. Made promoter::GFP And Promoter::GFP::Gene expression vectors to show the When and where genes are expressed. Osamu Shimomura Jellyfish/ bioluminescence Purified and characterized GFP (1974) Roger Tsien Figured out how GFP glows Made variants with different colors

  2. 2008 Nobel Prize in Chemistry the other guys Sergey A. Lukyanov Identified and cloned GFP-like proteins in corals Douglas Prasher The first person to realize the potential of GFP as a tracer molecule. Cloned GFP in 1992!

  3. GFP Jellyfish Aequorea victoria Aequorea victoria photoorgans

  4. nm GFP Figure 2. Fluorescence excitation (full-line curve) and emission (dashed curve) spectra of native GFP from Aequorea victoria (Tsien et al., 1998).

  5. GFP MSKGEELFTGVVPVLVELDGDVNGQKFSVSGEGEGDATYGKLTLNFICTTGKLPVPWPTLVTTFSYGVQCFSRYPDHMKQHDFFKSAMPEGYVQERTIFYKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKMEYNYNSHNVYIMGDKPKNGIKVNFKIRHNIKDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQSALSKDPNEKRDHMILLEFVTAARITHGMDELYK 1 atgagtaaag gagaagaact tttcactgga gtggtcccag ttcttgttga attagatggc 61 gatgttaatg ggcaaaaatt ctctgtcagt ggagagggtg aaggtgatgc aacatacgga 121 aaacttaccc ttaattttat ttgcactact gggaagctac ctgttccatg gccaacactt 181 gtcactactt tctcttatgg tgttcaatgc ttctcaagat acccagatca tatgaaacag 241 catgactttt tcaagagtgc catgcccgaa ggttatgtac aggaaagaac tatattttac 301 aaagatgacg ggaactacaa gacacgtgct gaagtcaagt ttgaaggtga tacccttgtt 361 aatagaatcg agttaaaagg tattgatttt aaagaagatg gaaacattct tggacacaaa 421 atggaataca actataactc acataatgta tacatcatgg gagacaaacc aaagaatggc 481 atcaaagtta acttcaaaat tagacacaac attaaagatg gaagcgttca attagcagac 541 cattatcaac aaaatactcc aattggcgat ggccctgtcc ttttaccaga caaccattac 601 ctgtccacac aatctgccct ttccaaagat cccaacgaaa agagagatca catgatcctt 661 cttgagtttg taacagctgc taggattaca catggcatgg atgaactata caaa

  6. Figure 3. The tertiary structure of GFP, displaying its can-like shape with the α-helix, containing the chromophore, threading up through the can. (Brejc et al., 1997)

  7. GFP color variants Have altered absorbsion/emission spectra.

More Related