REGENTS OF THE UNIVERSITY OF MINNESOTA
Nuclear magnetic resonance (NMR) spectroscopy is the single most important experimental technique used by chemists to deduce the structure of new organic compounds. It capitalizes on the fact that certain types of atomic nuclei, most importantly hydrogen (1H) and carbon (13C), are highly sensitive to their local chemical and magnetic environments. Thus, subtle differences in chemical structure at the molecular level are reflected in the spectroscopic characteristics of these nuclei, most importantly in the position that each atom absorbs energy in the NMR spectrum of that particular compound. This parameter is called the chemical shift, and each compound gives rise to a collection of unique chemical shift values. Advances in theoretical and computational chemistry have brought experts to the level of being able to compute NMR chemical shifts, and these theoretical spectral properties can then be applied to questions of structure. These developments have not yet been adopted by the broader community of experimentalists-the organic chemists who make or isolate new chemical substances on a daily basis and who, on occasion, are faced with challenging structure assignment problems.
The driving hypothesis statement for the proposed studies is: A reliable (and user-friendly)protocol for structure determination of small organic compounds,involving comparison of experimental 1H NMR chemical shift data sets with those computed for candidate structures, can be developed. Research is about process as well as product. The educational component of research is an integral and equally important element. The Hoye group appreciates the role that undergraduate research plays in sparking the scientific interests of young students. The group will involve both graduate and undergraduate students in this project, the latter to include some who will be recruited from one of the Community Colleges in the Twin Cities. The proposed studies lend themselves well to this plan. Overall, the group's record of dissemination and engagement is the best indicator that outcomes
from these studies will have broad impact.
Choose a quarter and click "Go."
| AWARD OVERVIEW |
| Award Number |
0911696 |
Funding Agency |
National Science Foundation |
| Total Award Amount |
$416,456 |
Project Location - City |
Minneapolis |
| Award Date |
06/12/2009 |
Project Location - State |
MN |
| Project Status |
More than 50% Completed |
Project Location - Zip |
55455-0240
|
| Jobs Reported |
0.04 |
Congressional District |
05 |
| Project Location - Country |
US |
|
|
Recipient Information
(Grants)
| Recipient Information (Grants) |
|
Recipient Name
|
REGENTS OF THE UNIVERSITY OF MINNESOTA |
| Recipient DUNS Number |
555917996
|
| Recipient Address |
200 OAK ST SE |
| Recipient City |
MINNEAPOLIS |
| Recipient State |
Minnesota |
| Recipient Zip |
55455-2009 |
| Recipient Congressional District |
05 |
| Recipient Country |
USA |
Required to Report Top 5
Highly Compensated Officials |
No |
Projects and Jobs Information
| Projects and Jobs Information |
| Project Title |
Structure Determination by Computation of 1H NMR Chemical Shifts |
| Project Status |
More than 50% Completed |
| Final Project Report Submitted |
No |
| Project Activities Description |
Medical Research, General/Other |
| Quarterly Activities/Project Description |
One of the important drivers of this research has been our hypothesis that proton chemical shifts are more useful at discerning small structural differences than are carbn chemical shift data. We have explored this point in some detail with a set of caprolactone derivatives. These were chosen in part because they are conformationally illy defined, which adds to the challenge and opportunity for instructive discovery. We are well along with writing a manuscript to report these results.
We continue to refine our manuscript for submission to Nature Protocols. The current working remains "Structure Assignment Through Computation of (1H and 13C) NMR Chemical Shifts: A 'How To' Guide for Synthetic Organic and Natural Products Chemists." It is intended as a tutorial to guide experimental organic chemists who otherwise lack the ability to use these powerful computational tools. We are in a phase of having others unfamiliar with the technique use the manuscript draft to guide their initial forays. We have then incorporated their feedback to improve the document. |
| Jobs Created |
0.04 |
| Description of Jobs Created |
PhD Candidate Research Asst |
Purchaser Information
(Grants)
| Purchaser Information |
| Contracting Office ID |
Not Reported |
| Contracting Office Name |
Not Available |
| Contracting Office Region |
Not Available |
| TAS Major Program |
49-0101 |
| Award Information |
| Award Date |
06/12/2009 |
| Award Number |
0911696 |
| Order Number |
|
| Award Type |
Grants |
| Funding Agency ID |
49 |
| Funding Agency Name |
National Science Foundation |
| Funding Office Name |
Not Available |
| Awarding Agency ID |
49 |
| Awarding Agency Name |
National Science Foundation |
| Amount of Award |
$416,456 |
| Funds Invoiced/Received |
$375,713 |
| Expenditure Amount |
$376,459 |
| Infrastructure Expenditure Amount |
$0 |
| Infrastructure Purpose and Rationale |
Not Reported |
| Infrastructure Point of Contact Name |
Not Reported |
| Infrastructure Point of Contact Email |
Not Reported |
| Infrastructure Point of Contact Phone |
Not Reported |
| Infrastructure Point of Contact Address |
Not Reported |
| Infrastructure Point of Contact City |
Not Reported |
| Infrastructure Point of Contact State |
Not Reported |
| Infrastructure Point of Contact Zip |
Not Reported |
Product or Service Information
(Grants)
| Product or Service Information |
| Primary Activity Code |
H01 |
| Activity Description |
Medical Research, General/Other |
| Sub-Awards Information |
| Sub-awards to Organizations |
0 |
| Sub-award Amounts to Organizations |
$0 |
| Sub-Awards to Individuals |
0 |
| Sub-Award Amounts to Individuals |
$0 |
| Number of Sub-awards less than $25,000/award |
0 |
| Amount of Sub-awards less than $25,000/award |
$0 |
| Number of payments to vendors greater than $25,000 |
0 |
| Total Amount of payments to vendors greater than $25,000/award |
$0 |
| Number of payments to vendors less than $25,000/award |
0 |
| Total Amount of payments to vendors less than $25,000/award |
$0 |
| Location Information |
| Latitude, Longitude |
44º 58' 30",
-93º 14' 12" |
| Congressional District |
05 |
| Address 1 |
|
| Address 2 |
|
| City |
Minneapolis |
| County |
Hennepin |
| State |
MN |
| Zip |
55455-0240 |
|
 |