We're going to build a A:T (adenine-thymine) DNA base pair, to study hydrogen-bonding between the bases.
Construct the A:T base pair by clicking on the benzene ring within AMSinput, then select [DNA]:[AT] and click
Choose the following setup:
XC functional: S12g-D3 (GGA-D)
Relativity: Scalar
Basis set: TZ2P
Frozen core: Small
Numerical quality: Good
Go to [Model]:[Regions]
Select one molecule, and click on the [+] sign
Select the other molecule, and click again on [+]
Go to [Multilevel]:[Fragments], and select [Use fragments]:[Yes]
Save
Run
Analysis
Once the job has run, go to [SCM]:[Levels], to see how the molecular orbitals of the two fragments are combined into the MOs of the base pair
Go to [SCM]:[Output] to see the output, and then go to [Properties]:[Bonding Energy Decomposition] to inspect the bonding energy (-19.2 kcal·mol-1), and its components
Go to [SCM]:[Output] to see the output, then to [Properties]:[Voronoi Charge Analysis] to inspect the Voronoi Deformation Density (VDD) charges
Further reading
M. Swart, C. Fonseca Guerra and F.M. Bickelhaupt
"Hydrogen Bonds of RNA Are Stronger than Those of DNA,
But NMR Monitors Only Presence of Methyl Substituent in Uracil/Thymine" J. Am. Chem. Soc.2004, 126, 16718-16719
10.1021/ja045276b
C. Fonseca Guerra, F.M. Bickelhaupt, J.G. Snijders, and E.J. Baerends
"The Nature of the Hydrogen Bond in DNA Base Pairs: The Role of Charge Transfer and Resonance Assistance" Chem. Eur. J.1999, 5, 3581-3594
[abstract] DOI: 10.1002/(SICI)1521-3765(19991203)5:12<3581::AID-CHEM3581>3.0.CO;2-Y
C. Fonseca Guerra, F.M. Bickelhaupt, J.G. Snijders, and E.J. Baerends
"Hydrogen Bonding in DNA Base Pairs: Reconciliation of Theory and Experiment" J. Am. Chem. Soc.2000, 122, 4117-4128
[abstract] DOI: 10.1021/ja993262d
