Y. Luo et al., Photocrosslinking of benzophenone-labeled single cysteine troponin I mutants to other thin filament proteins, J MOL BIOL, 296(3), 2000, pp. 899-910
The interaction sites of rabbit skeletal troponin I (TnI) with troponin C (
TnC), troponin T (TnT), tropomyosin (Tm) and actin were mapped systematical
ly using nine single cysteine residue TnI mutants with mutation sites at po
sitions 6, 48, 64, 89, 104, 121, 133, 155 or 179 (TnI6, TnI48 etc.). Each m
utant was labeled with the heterobifunctional photocrosslinker 4-maleimidob
enzophenone (BP-Mal), and incorporated into the TnI-TnC binary complex, the
TnI . TnC . TnT ternary troponin (Tn) complex, and the Tn . Tm . F-actin s
ynthetic thin filament. Photocrosslinking reactions carried out in the pres
ence and absence of Ca2+ yielded the following results: (1) BP-TnI6 photocr
osslinked primarily to TnC with a small degree of Ca2+-dependence in all th
e complex forms. (2) BP-TnI48, Tn164 and TnI89 photocrosslinked to TnT with
no Ca2+-dependence. Photocrosslinking to TnC was reduced in the ternary ve
rsus the binary complex. BP-TnI89 also photocrosslinked to actin with highe
r yields in the absence of Ca2+ than in its presence. (3) BP-TnI104 and TnI
133 photocrosslinked to actin with much higher yields in the absence than i
n the presence of Ca2+ (4) BP-TnI121 photocrosslinked to TnC with a small d
egree of Ca2+-dependence, and did not photocrosslink to actin. (5) BP-TnI15
5 and TnI179 photocrosslinked to TnC, TnT and actin, but all with low yield
s. All the labeled mutants photocrosslinked to TnC with varying degrees of
Ca2+-dependence, and none to Tm. These results, along with those published
allowed us to construct a structural and functional model of TnI in the Tn
complex: in the presence of Ca2+, residues 1-33 of TnI interact with the C-
terminal domain hydrophobic cleft of TnC, similar to 48-89 with TnT, simila
r to 90-113 with TnC's central helix, similar to 114-125 with TnC's N-termi
nal domain hydrophobic cleft, and similar to 130-150 with TnC's A-helix. In
the absence of Ca2+, residues similar to 114-125 move out of TnC's N-termi
nal domain hydrophobic cleft and trigger the movements of residues similar
to 89-113 and similar to 130-150 away from TnC and towards actin. (C) 2000
Academic Press.