. Author manuscript; available in PMC: 2017 Sep 14.

Published in final edited form as: J Am Chem Soc. 2016 Sep 1;138(36):11890–11895. doi: 10.1021/jacs.6b06843

Table 2.

Electric field projected along the carbonyl of 19NT from DFT calculations

	WT	KSI-Cl-Y¹⁶	KSI-Cl-Y⁵⁷	KSI-Cl-Y³²
O-H₁₆ dipole (D)^a	2.74	2.62	2.89	2.71
O₁₆ – O_L (Å)	2.48	2.58	2.49	2.49
Electric field calculated (MV/cm)^b	−74.5 (−50.8, −23.7)	−53.4 (−33.6, −19.8)	−80.9 (−55.0, −25.9)	−75.5 (−51.8, −23.7)
Observed from VSE (MV/cm)	−141.3 ± 4.3	−118.5 ± 3.7	−121.6 ± 3.9	−131.3 ± 4.0

The dipole moments are calculated from ESP charges derived using Merz-Kollman scheme.

The electric field is calculated via Coulomb’s law from the O-H dipoles of the two residues (16, 103) that are directly H-bonded with 19NT. The first number in the parenthesis refers to the contribution to the electric field from residue 16 and the second to residue 103.