2L8L image
Deposition Date 2011-01-19
Release Date 2012-01-04
Last Version Date 2024-05-15
Entry Detail
PDB ID:
2L8L
Keywords:
Title:
Structure of an engineered splicing intein mutant based on Mycobacterium tuberculosis RecA
Biological Source:
Source Organism(s):
Expression System(s):
Method Details:
Experimental Method:
Conformers Calculated:
200
Conformers Submitted:
20
Selection Criteria:
structures with the lowest energy
Macromolecular Entities
Structures with similar UniProt ID
Protein Blast
Polymer Type:polypeptide(L)
Molecule:Endonuclease PI-MtuI
Chain IDs:A
Chain Length:139
Number of Molecules:1
Biological Source:Mycobacterium tuberculosis
Ligand Molecules
Primary Citation
pK(a) coupling at the intein active site: implications for the coordination mechanism of protein splicing with a conserved aspartate.
J. Am. Chem. Soc. 133 10275 10282 (2011)
PMID: 21604815 DOI: 10.1021/ja203209f

Abstact

Protein splicing is a robust multistep posttranslational process catalyzed by inteins. In the Mtu RecA intein, a conserved block-F aspartate (D422) coordinates different steps in protein splicing, but the precise mechanism is unclear. Solution NMR shows that D422 has a strikingly high pK(a) of 6.1, two units above the normal pK(a) of aspartate. The elevated pK(a) of D422 is coupled to the depressed pK(a) of another active-site residue, the block-A cysteine (C1). A C1A mutation lowers the D422 pK(a) to normal, while a D422G mutation increases the C1 pK(a) from 7.5 to 8.5. The pK(a) coupling and NMR structure determination demonstrate that protonated D422 serves as a hydrogen bond donor to stabilize the C1 thiolate and promote the N-S acyl shift, the first step of protein splicing. Additionally, in vivo splicing assays with mutations of D422 to Glu, Cys, and Ser show that the deprotonated aspartate is essential for splicing, most likely by deprotonating and activating the downstream nucleophile in transesterification, the second step of protein splicing. We propose that the sequential protonation and deprotonation of the D422 side chain is the coordination mechanism for the first two steps of protein splicing.

Legend

Protein

Chemical

Disease

Primary Citation of related structures
Feedback Form
Name
Email
Institute
Feedback