TY - CHAP
T1 - Structure of the recombinant BPTI/Kunitz-type inhibitor rShPI-1A from the marine invertebrate Stichodactyla helianthus
AU - García-Fernández, Rossana
AU - Pons, Tirso
AU - Meyer, Arne
AU - Perbandt, Markus
AU - González-González, Yamile
AU - Gil, Dayrom
AU - De Los Angeles Chávez, María
AU - Betzel, Christian
AU - Redecke, Lars
PY - 2012/11
Y1 - 2012/11
N2 - The BPTI/Kunitz-type inhibitor family includes several extremely potent serine protease inhibitors. To date, the inhibitory mechanisms have only been studied for mammalian inhibitors. Here, the first crystal structure of a BPTI/Kunitz-type inhibitor from a marine invertebrate (rShPI-1A) is reported to 2.5A resolution. Crystallization of recombinant rShPI-1A required the salt-induced dissociation of a trypsin complex that was previously formed to avoid intrinsic inhibitor aggregates in solution. The rShPI-1A structure is similar to the NMR structure of the molecule purified from the natural source, but allowed the assignment of disulfide-bridge chiralities and the detection of an internal stabilizing water network. A structural comparison with other BPTI/Kunitz-type canonical inhibitors revealed unusual angles at positions 17 and 30 to be a particular characteristic of the family. A significant clustering of and angle values in the glycine-rich remote fragment near the secondary binding loop was additionally identified, but its impact on the specificity of rShPI-1A and similar molecules requires further study.
AB - The BPTI/Kunitz-type inhibitor family includes several extremely potent serine protease inhibitors. To date, the inhibitory mechanisms have only been studied for mammalian inhibitors. Here, the first crystal structure of a BPTI/Kunitz-type inhibitor from a marine invertebrate (rShPI-1A) is reported to 2.5A resolution. Crystallization of recombinant rShPI-1A required the salt-induced dissociation of a trypsin complex that was previously formed to avoid intrinsic inhibitor aggregates in solution. The rShPI-1A structure is similar to the NMR structure of the molecule purified from the natural source, but allowed the assignment of disulfide-bridge chiralities and the detection of an internal stabilizing water network. A structural comparison with other BPTI/Kunitz-type canonical inhibitors revealed unusual angles at positions 17 and 30 to be a particular characteristic of the family. A significant clustering of and angle values in the glycine-rich remote fragment near the secondary binding loop was additionally identified, but its impact on the specificity of rShPI-1A and similar molecules requires further study.
U2 - 10.1107/S1744309112039085
DO - 10.1107/S1744309112039085
M3 - Chapter
C2 - 23143234
SN - 1744-3091
T3 - Acta Crystallographica Section F: Structural Biology and Crystallization Communications
SP - 1289
EP - 1293
BT - Acta Crystallographica Section F: Structural Biology and Crystallization Communications
ER -