Skip to main content
Journal ArticleOPEN ACCESS

A purification method for a molecular complex in which a scaffold molecule is fully loaded with heterogeneous molecules

PLoS ONE (2015) 10(3)
DOI: 10.1371/journal.pone.0120576
3Citations
Citations of this article
9Readers
Mendeley users who have this article in their library.

Abstract

An affinity resin-based pull-down method is convenient for the purification of biochemical materials. However, its use is difficult for the isolation of a molecular complex fully loaded with multiple components from a reaction mixture containing the starting materials and intermediate products. To overcome this problem, we have developed a new purification procedure that depends on sequential elimination of the residues. In practice, two affinity resins were used for purifying a triangular-shaped RNP (RNA-protein complex) consisting of three ribosomal proteins (L7Ae) bound to an RNA scaffold. First, a resin with immobilized L7Ae protein captured the incomplete RNP complexes and the free RNA scaffold. Next, another resin with an immobilized chemically modified RNA of a derivative of Box C/D motif, the binding partner of L7Ae, was used to capture free protein. The complete triangular RNP was successfully purified from the mixture by these two steps. Obviously, the purified triangular RNP displaying three protein-binding peptides exhibited an improved performance when compared with the unrefined product. Conceptually, this purification procedure should be applicable for the purification of a variety of complexes consisting of multiple components other than RNP.

Figures

  • Fig 1. Schematic diagram of the purification procedures for the triangular RNP. Left and Right lines indicate the sequential affinity purification and the sequential affinity elimination procedures, respectively. The sequential affinity purification of the triangular RNP is performed with a metal (i.e., Ni2+ or Co2+)-chelated resin to capture the hexa-histidine-tagged L7Ae, followed by treatment with a triplex-forming oligonucleotideimmobilized resin to capture the RNA (left line). The sequential affinity elimination is performed with the L7Aeimmobilized resin to eliminate the incomplete RNP complexes and the free RNA component, followed by elimination of the free L7Ae protein with the box C/D RNA-immobilized resin (right line). Gray and black regions on the RNA indicate the box C/D motif and the stem, respectively.
  • Fig 2. RNAs with original (A) andmodified (B and C) box C/Dmotifs. (A) BCD35 RNA with the original box C/D motif. (B) BCD35a RNA with the C to A base replacement at the L3 position. (C) BCD35g RNA with the C to G base replacement at the L3 position. The replaced bases are indicated by gray circles. Additional base replacements for the retention of two-dimensional structures are indicated by Italics.
  • Table 1. Kinetic parameters of the original and modified box C/D motifs.
  • Fig 3. 3D structure of the complex of L7Ae protein and the box C/D RNA. (A) Crystal structure of the L7Ae-box C/D complex (PDB ID 1RLG). L7Ae protein and the box C/D RNA are shown as ribbon model
  • Fig 4. Purification of the triangular RNP by sequential affinity elimination. (A) Analysis of the RNA and RNP complexes by EMSA. The crude RNP samples (3rd lane) were prepared by mixing 150 nM of the Alexa633 labelled L7Ae (1st lane) and 100 nM of Tri26L/S RNA (2nd lane). The RNP samples were subjected to the purification treatment noted above the gel image. The gel was stained with SYBR green to scan for the RNAs. The three upshifted bands in the 3rd and 4th lanes correspond to the RNPs with one, two and three L7Ae molecules bound, respectively. (B) Analysis of L7Ae protein and the RNP complexes by EMSA. The purification treatment was conducted as noted above except that the gel was scanned for the Alexa633 fluorescence.
  • Fig 5. AFM analysis of the triangular RNP purification. AFMwas used to visualize Tri26L/S RNA (A), L7Ae protein (B), the crude RNP sample composed of 25 nM Tri26L/S RNA and 75 nM L7Ae (C), the RNP sample after the treatment with L7Ae-immobilized resin (D), and the RNP sample after the treatment with the L7Ae- and fBCD35g-immobilized resins (E). The white bars indicate 100 nm.
  • Fig 6. Improved binding profile of the purified sample of the triangular RNP displaying the affinity peptide. The triangular RNP was constituted with 1 nM of [32P]-labelled Tri26L/S RNA and 100 nM of L7Ae (2nd lane) or L7Ae-ST2 fusion protein (3rd and 4th lanes). Under these conditions, the RNP sample was a mixture of the complete triangular RNP, incomplete RNP complexes, and free components. As a control, the RNA sample without L7Ae protein was also prepared (1st lane). The triangular RNP with L7Ae-ST2 fusion protein was purified by the sequential affinity elimination (4th lane). The RNP samples were transferred into Strep-Tactin coated plates, and percentage of the bound RNP was determined based on radioactivity of the labeled RNA. The data shown is the average value for the three independent experiments. “ST2”means L7Ae-ST2 fusion protein.

References Powered by Scopus

View more at Scopus

Cited by Powered by Scopus

RNA and RNP as Building Blocks for Nanotechnology and Synthetic Biology

Progress in Molecular Biology and Translational Science
12Citations
41Readers
Get full text
Get full text
View more at Scopus

Register to see more suggestions

Mendeley helps you to discover research relevant for your work.

Already have an account?

Cite

CITATION STYLE

APA

Ohuchi, S. J., Sagawa, F., Ohno, H., & Inoue, T. (2015). A purification method for a molecular complex in which a scaffold molecule is fully loaded with heterogeneous molecules. PLoS ONE, 10(3). https://doi.org/10.1371/journal.pone.0120576

Readers over time

‘15‘17‘18‘20‘2102468

Readers' Seniority

Tooltip

PhD / Post grad / Masters / Doc 6

67%

Researcher 3

33%

Readers' Discipline

Tooltip

Agricultural and Biological Sciences 5

56%

Biochemistry, Genetics and Molecular Bi... 2

22%

Social Sciences 1

11%

Chemistry 1

11%

Save time finding and organizing research with Mendeley

Sign up for free
0