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Volume 102, Issue 12, Pages (June 2012)

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1 Volume 102, Issue 12, Pages 2818-2827 (June 2012)
Cotranslational Protein Folding within the Ribosome Tunnel Influences Trigger-Factor Recruitment  Ku-Feng Lin, Chia-Sui Sun, Yi-Chen Huang, Sunney I. Chan, Jiri Koubek, Tzong-Huah Wu, Joseph J.-T. Huang  Biophysical Journal  Volume 102, Issue 12, Pages (June 2012) DOI: /j.bpj Copyright © 2012 Biophysical Society Terms and Conditions

2 Figure 1 Experimental design of the TR-FRET experiments on poly-A-containing RNCs. (A) Schematic of RNCs in the presence and absence of poly-A segments within the ribosome tunnel. The poly-A fragments are shown in rectangles, with the fluorescent donor and acceptor indicated by red and blue circles, respectively. (B) Sequences of sG, 2A, 8A, and 17A. The parent sequences from GFP are in black and the poly-A inserts are in red. (C) Chemical structures of the fluorescent donor (BODIPYFL) and acceptor (BODIPY576) attached tRNAs. The fluorophores attached to Lys and Met are colored in green (donor) and red (acceptor), respectively. (D) Schematic of 2A with the poly-A insert in a totally helical (left) or extended (right) conformation. The correlation between EFRET and the donor-acceptor separation distance (R) is described by Eq. 9. Biophysical Journal  , DOI: ( /j.bpj ) Copyright © 2012 Biophysical Society Terms and Conditions

3 Figure 2 PAGE analysis of fluorophore-labeled RNCs. (A) Fluorescence scanning of doubly labeled nascent chains and a blank experiment on SDS-PAGE with scanning of the donor (left panel) and acceptor (right panel) channels (see Materials and Methods). (B) Fluorescence image analysis of the donor-labeled RNCs with puromycin or RNase A treatment. By comparing sG and the free fluorophore-labeled tRNA (denoted C) on the PAGE, one can visualize the fluorescent bands of p-tRNA-sG, puromycin-sG, and fluorescent tRNA (BODIPYFL-Lys-tRNALys) and identify them by comparing the fluorescent signals before (−) and after (+) the addition of puromycin or RNase A. The smear band observed in the bottom is the hydrolyzed fluorophore during the electrophoresis. Biophysical Journal  , DOI: ( /j.bpj ) Copyright © 2012 Biophysical Society Terms and Conditions

4 Figure 3 Poly-A-containing nascent chains form a compacted conformation in the tunnel. (A) The lifetime measurements of the RNCs (sG, 2A, 8A, and 17A) were determined with the use of a frequency-domain fluorimeter. Data are shown for the donor-labeled samples (solid line) and double-labeled samples (dashed line). (B) The distance between the fluorophore pairs in different RNCs, derived from Eq. 9 and the measured EFRET (Table 1) with R0 = 57 Å. (C) Representations of the structures of the nascent chains associated with the different RNCs. The poly-A fragments are shown as compacted helices in 2A, 8A, and 17A. Biophysical Journal  , DOI: ( /j.bpj ) Copyright © 2012 Biophysical Society Terms and Conditions

5 Figure 4 Poly-A and signal peptide containing RNCs decrease the recruitment of TF. (A) A schematic of the generation and characterization of the TF-RNCs. (B) Amino acid sequence alignment of the extended poly-A peptide (2A+, 8A+, and 17A+) and the signal peptide (SA and SS) on the RNCs. The parent amino acid sequences from GFP are in black and the inserted/substituted amino acids are in red. (C) Western blotting of the TF recruited by different RNCs (sG, 2A, 8A, 17A, 2A+, 8A+, 17A+, SA, and SS) with varying amounts of external TF (for details see Materials and Methods). (D) Ratios of the recruited TF relative to that recruited by sG with a 4 μM TF supplement. All experiments were repeated three to nine times, and the data are represented by means ± SD. Nascent chains that showed a significant difference (p smaller than 0.01) in TF recruitment from the sG control according to the t-test are highlighted by an asterisk (TF recruitments were performed with the same amount of TF supplement). Biophysical Journal  , DOI: ( /j.bpj ) Copyright © 2012 Biophysical Society Terms and Conditions

6 Figure 5 Possible interacting zones between the ribosome tunnel and the nascent chains suggested by the ribosome crystal structure (5,6) and our experimental results. (A) Possible locations of our nascent chains in the tunnel. The ribosome tunnel is colored in light blue, and the three ribosomal proteins that may interact directly with nascent chains in the tunnel are in yellow (L4), blue (L22), and red (L23) block, respectively. For easier comparison, the compact poly-A and signal sequence fragments on the nascent chains are shown as tubes and the parent GFP fragments are shown as dotted lines. The region of the ribosome tunnel 35 Å from the tunnel exit that includes the L23 is proposed to be important for TF recruitment. (B) A model of the compacted nascent chains (e.g., 8A) within the bottom of the tunnel that may interact with L23 and influence TF recruitment. Biophysical Journal  , DOI: ( /j.bpj ) Copyright © 2012 Biophysical Society Terms and Conditions

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