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Knowledge prior to this research? Questions addressed? Experimental approaches used? and what outcome? Impact of these findings? Future experiments? Research.

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Presentation on theme: "Knowledge prior to this research? Questions addressed? Experimental approaches used? and what outcome? Impact of these findings? Future experiments? Research."— Presentation transcript:

1 Knowledge prior to this research? Questions addressed? Experimental approaches used? and what outcome? Impact of these findings? Future experiments? Research paper for class discussion: Marchand et al. “Identification of protein partners of the HIV-1 tat/rev exon3 leads to the discovery of a new HIV-1 splicing regulator hnRNP K” RNA Biol. 8: 325-342, 2011.

2 Rambaut Nature Genet 5:53, 2004 LIFE CYCLE OF HIV RETROVIRUS

3 Trkola Curr Opin Microbiol. 7:407, 2004 HIV-1 retroviral genome: > 40 different RNAs & ~16 proteins from one primary transcript

4 Jager et al. Nature 481:365, 2012 “Global landscape of HIV-human protein complexes” Network representation of protein-protein interactions using 2 different cell lines (HEK293 and Jurkat)

5 Jacquenet Retrovirol. 2:33, 2005 HIV-1 mRNAs generated by alternative splicing

6 Frankel Ann Rev Genet 67:1, 1998 Early RNA processing events - multiply-spliced mRNAs (for regulatory proteins like Tat, Rev) exported to cytoplasm Later expression events - singly-spliced & unspliced transcripts exported for translation (eg gal-pol mRNA) Alberts Fig.7-97 or packaging (full-length RNA genome into virion)

7 Role of Tat at transcriptional level Brady Retrovirol. 2:69, 2005 Tat - transcription activator which binds to Tar (response element) downstream of promoter in 5’ LTR (hairpin with 3 nt bulge) - recruitment or activation of factors which hyperphosphorylate CTD of RNA pol II …

8 Amendt Mol Cell Biol 14: 3960, 1994 5’ splice sites (donor sites) = 5 3’ splice sites (acceptor sites) = 8 - 9 ~ 40 different processed RNA species (strong) (weak, non-consensus)

9 Tange EMBO J 20: 5748, 2001 “Five splicing inhibitory sequences in HIV-1 pre-mRNA have been identified...” Zahler (2004) Approaches to find such cis- elements (& trans factors)?

10 Figure 1 RNA constructs used in this study

11 RNA affinity chromatography Alberts Fig. 7-30 ESS2 RNA RNA immobilized on beads

12 Figure 2 C

13 Figure 3

14 RNA footprinting Alberts Fig.8-54... RNA region bound to protein will be protected from RNase attack (conceptually similar to DNA footprinting) - single stranded RNA, tagged at one end - incubated with protein - treated ‘gently’ with RNase so that on average only one cleavage per molecule

15 Figure 4 RNase T1 cleaves after Gs

16 Figure 5 Figure 6

17 Figure 7 “Possible physical and functional interactions between the identified protein partners of SLS2-A7 RNA and their possible links with HIV-1 RNA biology”

18 “The ways in which HIV can subvert cellular processes for its own ends seem boundless. The latest discovery – a cellular enzyme DDX3 that helps to export HIV from the nucleus – reveals a possible drug target.” Cullen Nature 433:26, 2005

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