Model compounds for hemoglobin and related hemoproteins will be prepared and the effect of their structure on the dynamics of reaction with dioxygen, carbon monoxide, and isonitriles studied. Geminate recombination of isocyanides, nitric oxide and dioxygen to various model compounds for R- and T-state hemoglobins and hemes with different extents of steric, electronic and polar effects at the site will be studied using femptosecond, picosecond, and nanosecond kinetic methods. Photolysis quantum yields will be determined for correlation with the kinetic studies. Special efforts will be made to determine relative rates of binding and conformational change in both the heme cyclophanes and in heme proteins. New compounds will be designed to explore the effects of porphyrin flexibility, distortion of """"""""stiffness"""""""" upon dioxygen and other ligand binding. Cooperatively binding heme compounds now in hand and newly designed systems will be studied with regard to kinetics and equilibria of carbon monoxide and dioxygen binding in order to mimic the cooperativity in hemoglobin. This study will define those characteristics of heme compounds and their environment which control the varied reactivities of such hemes in hemoproteins. This information will provide the means of understanding the cooperativity in hemoglobin, the conformational changes in proteins, and other effects which govern ligand affinity. The cyclophane porphyrins and the dimer heme compounds will also be used to probe the effect of intervening molecular structure on porphyrin-to-porphyrin electron transfer.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL013581-22
Application #
3334664
Study Section
Biophysics and Biophysical Chemistry A Study Section (BBCA)
Project Start
1979-02-01
Project End
1992-02-28
Budget Start
1989-03-01
Budget End
1990-02-28
Support Year
22
Fiscal Year
1989
Total Cost
Indirect Cost
Name
University of California San Diego
Department
Type
Schools of Arts and Sciences
DUNS #
077758407
City
La Jolla
State
CA
Country
United States
Zip Code
92093
Peterson, Linda R; Herrero, Pilar; McGill, Janet et al. (2008) Fatty acids and insulin modulate myocardial substrate metabolism in humans with type 1 diabetes. Diabetes 57:32-40
Saeed, Ibrahim M; Barry, Michael; Peterson, Linda R et al. (2007) Positron emission tomography imaging in the cardiometabolic syndrome. J Cardiometab Syndr 2:67-9
Peterson, Linda R; Soto, Pablo F; Herrero, Pilar et al. (2007) Sex differences in myocardial oxygen and glucose metabolism. J Nucl Cardiol 14:573-81
de las Fuentes, Lisa; Brown, Angela L; Mathews, Santhosh J et al. (2007) Metabolic syndrome is associated with abnormal left ventricular diastolic function independent of left ventricular mass. Eur Heart J 28:553-9
Cresci, Sharon; Gropler, Robert J (2007) Image-guided cardiovascular functional genomics: finding the needle in the haystack. J Nucl Cardiol 14:275-6
Glover, David K; Gropler, Robert J (2007) Journey to find the ideal PET flow tracer for clinical use: are we there yet? J Nucl Cardiol 14:765-8
Herrero, Pilar; Peterson, Linda R; McGill, Janet B et al. (2006) Increased myocardial fatty acid metabolism in patients with type 1 diabetes mellitus. J Am Coll Cardiol 47:598-604
Peterson, Linda R; Waggoner, Alan D; de las Fuentes, Lisa et al. (2006) Alterations in left ventricular structure and function in type-1 diabetics: a focus on left atrial contribution to function. J Am Soc Echocardiogr 19:749-55
Srinivasan, Muthayyah; Herrero, Pilar; McGill, Janet B et al. (2005) The effects of plasma insulin and glucose on myocardial blood flow in patients with type 1 diabetes mellitus. J Am Coll Cardiol 46:42-8
Herrero, Pilar; Dence, Carmen S; Sharp, Terry L et al. (2004) Impact of reversible trapping of tracer and the presence of blood metabolites on measurements of myocardial glucose utilization performed by PET and 18F-fluorodeoxyglucose using the Patlak method. Nucl Med Biol 31:883-92

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