TY - JOUR
T1 - Imidazole-imidazole pair as a minor groove recognition motif for T:G mismatched base pairs
AU - Yang, Xiang Lei
AU - Hubbard IV, Richard B.
AU - Lee, Moses
AU - Tao, Zhi Fu
AU - Sugiyama, Hiroshi
AU - Wang, Andrew H.J.
N1 - Funding Information:
We thank Dr Howard Robinson for the SPEDREF structure refinement package and Mr Dong Guo for the discussion on the biological relevance of T:G mismatches. This work was supported by American Cancer Society grant RPG-94-014-05 to A.H.-J.W., NIH grant R15 CA56901-01) to M.L., and a Grant-in-Aid for Priority Research from the Ministry of Education, Science, Sports, and Culture, Japan to H.S. The Varian VXR500 NMR spectrometer at UIUC was supported in part by NIH shared instrumentation grant 1S10RR06243. The 750 MHz NMR spectra were obtained in the Varian Oxford Instrument Center for Excellence in NMR Laboratory. Funding for this instrumentation was provided in part from the W.M. Keck Foundation, the National Institutes of Health (PHS 1 S10RR10444-01), and the National Science Foundation (NSF CHE 96-10502).
PY - 1999/11/1
Y1 - 1999/11/1
N2 - The T:G mismatched base pair is associated with many genetic mutations. Understanding its biological consequences may be aided by studying the structural perturbation of DNA caused by a T:G base pair and by specific probing of the mismatch using small molecular ligands. We have shown previously that AR-1-144, a tri-imidazole (Im-Im-Im) minor groove binder, recognizes the sequence CCGG. NMR structural analysis of the symmetric 2:1 complex of AR-1-144 and GAACCGGTTC revealed that each AR-1-144 binds to four base pairs with the guanine N2 amino group forming a bifurcated hydrogen bond to a side-by-side Im/Im pair. We predicted that the free G-N2 amino group in a T:G wobble base pair can form two individual hydrogen bonds to a side-by-side Im/Im pair. Thus an Im/Im pair may be a good recognition motif for a T:G base pair in DNA. Cooperative and tight binding of an AR-1-144 homodimer to GAACTGGTTC permits a detailed structural analysis by 2D NOE NMR refinement and the refined structure confirms our prediction. Surprisingly, AR-1-144 does not bind to GAATCGGTTC. We further show that both the Im-Im-Im/Im-Py-Im heterodimer and the Im-Im-Im/Im-Im-Im homodimer bind strongly to the CACGGGTC + GACTCGTG duplex. These results together suggest that an Im/Im pair can specifically recognize a single T:G mismatch. Our results may be useful in future design of molecules (e.g. linked dimers) that can recognize a single T:G mismatch with specificity.
AB - The T:G mismatched base pair is associated with many genetic mutations. Understanding its biological consequences may be aided by studying the structural perturbation of DNA caused by a T:G base pair and by specific probing of the mismatch using small molecular ligands. We have shown previously that AR-1-144, a tri-imidazole (Im-Im-Im) minor groove binder, recognizes the sequence CCGG. NMR structural analysis of the symmetric 2:1 complex of AR-1-144 and GAACCGGTTC revealed that each AR-1-144 binds to four base pairs with the guanine N2 amino group forming a bifurcated hydrogen bond to a side-by-side Im/Im pair. We predicted that the free G-N2 amino group in a T:G wobble base pair can form two individual hydrogen bonds to a side-by-side Im/Im pair. Thus an Im/Im pair may be a good recognition motif for a T:G base pair in DNA. Cooperative and tight binding of an AR-1-144 homodimer to GAACTGGTTC permits a detailed structural analysis by 2D NOE NMR refinement and the refined structure confirms our prediction. Surprisingly, AR-1-144 does not bind to GAATCGGTTC. We further show that both the Im-Im-Im/Im-Py-Im heterodimer and the Im-Im-Im/Im-Im-Im homodimer bind strongly to the CACGGGTC + GACTCGTG duplex. These results together suggest that an Im/Im pair can specifically recognize a single T:G mismatch. Our results may be useful in future design of molecules (e.g. linked dimers) that can recognize a single T:G mismatch with specificity.
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U2 - 10.1093/nar/27.21.4183
DO - 10.1093/nar/27.21.4183
M3 - Article
C2 - 10518609
AN - SCOPUS:0033230137
SN - 0305-1048
VL - 27
SP - 4183
EP - 4190
JO - Nucleic Acids Research
JF - Nucleic Acids Research
IS - 21
ER -