Mohammed A. Matlib , PhD

I.Sc.: Murari Chand College 1960 (Chemistry, Physics, Zoology, Botany )

Bachelor's Degree: Dacca University Dhaka, Bangladesh, 1963 (Chemistry, Mathematics, Botany)

Master's Degree: Dacca University Dhaka, Bangladesh, 1965 (Biochemical Genetics: Identification of Accumulated Metabolites in Tryptophan 3 Mutants of N. cassa)

Doctoral Degree: University of Strathclyde Glasgow, United Kingdom, 1971 (Biochemistry: Mechanism of Action of Phenoxy Compounds on Mitochondria)

Biochemistry: Memorial University Newfoundland, Canada, 1973 (Mentor - Dr. Peter J. O'Brien)

Visiting Fellow: John Hopkins University School of Medicine Baltimore, Maryland, 1974 (Department of Physiological Chemistry. Sponsor: Dr. Albert Lehninger)

Biochemistry: University of Texas Southwestern Medical School Dallas, Texas, 1976 (Mentor: Dr. Paul A. Srere)

Visiting Assistant Professor: Shimane Medical University Izumo, Japan, 1982 (Visiting Assistant Professor, Department of Pathology: Sponsor: Dr. Yuko Yamori)

Visiting Associate Professor: University of Massachusetts Medical Center Worchester, Massachusetts, 1989 (Department of Physiology Sponsor: Dr. Fredric Fay)

Techniques in DNA Screening: Indiana University Bloomington, Indiana, 1991

Research Methods in Somatic Cell and Molecular Genetics: Eleanor Roosevelt Institute Denver, Colorado, 1991

My research concerns the following:Role of sodium-calcium exchange across the cell membrane in the development and maintenance of hypertension:The role of sodium and calcium ions in the development of hypertension is well documented. However, it was not know whether a sodium-calcium exchange process exists and plays any role in vascular smooth muscle. We have demonstrated a sodium-calcium exchange process in cell membrane vesicles isolated from rat and dog mesenteric arteries. The goal of our research is to elucidate the role of the sodium-calcium exchange process of cell membrane in the regulation of cytosolic calcium ion and its role in the development or maintenance of hypertension in animal models.Role of benzodiazepine receptor in vascular smooth muscle:A second major area involves the physiological role of a peripheral-type benzodiazepine receptor in vascular smooth muscle. We have identified a high-affinity and high-density benzodiazepine receptor in vascular smooth muscle cells. Our goal now is to determine its role in cell function.Mechanism of action of anti-ischemic and anti-hypertensive drugs:A third major area of research is to determine the mechanism of action of new and potentially therapeutic agents to prevent or treat cardiac ischemia and hypertension.

09-01-1993 -To Present Professor, Department of Pharmacology and Cell Biophysics, University of Cincinnati College of Medicine, Cincinnati, OH

09-01-1984 -08-31-1993 Associate Professor, Tenured 9/1/85. Elected to Graduate Faculty 9/1/86. Department of Pharmacology and Cell Biophysics, University of Cincinnati College of Medicine, Cincinnati, OH

08-01-1977 -08-31-1984 Assistant Professor , Department of Pharmacology and Cell Biophysics , University of Cincinnati College of Medicine, Cincinnati, OH

07-01-1976 -07-31-1977 Professional Assistant, Smooth Muscle Research Group Department of Neurosciences , McMaster University , Hamilton, Ontario, Canada

Grant: #PO1 HL22619 Investigators:Arnold Schwartz, P.I. 1978 -1981 NIH Mitochondria in Heart and Smooth Muscles

Grant: #PO1 HL22619 Investigators:Arnold Schwartz, P.I. 1983 -1986 NIH Mechanism of Action of Diltiazem and Benzodiazepines on Na+-Ca2+ Exchange Process of Mitochondria

Grant: #RO1 HL34664 1985 -1988 NIH Sodium Calcium Exchange in Vascular Smooth Muscle

Grant: #RO1 HL34664 1988 -1993 NIH Sodium Calcium Exchange in Vascular Smooth Muscle Role:PI

1982 -1988 American Heart Association (Ohio Affiliate) Role:PI

1987 -1988 Biomedical Research Support Grant The Role of the Peripheral Benzodiazepine Receptor in Vascular Smooth Muscle Role:PI

1989 -1992 American Heart Association (Ohio Affiliate) Role of Peripheral Type Benzodiazepine Binding Site in Vascular Smooth Muscle Role:PI

Grant: #2T32 HL07417 Investigators:Frederic N. James, Program Director 1988 -1993 NIH Role:Faculty Trainer

1993 -1995 American Heart Association National Center Role of mitochondrial Na+/Ca2+ exchange in heart muscle Role:PI

Investigators:Co-Principal Investigator (with Dr. Brian Hoit) 1996 Cardiovascular Center Interdepartmental Research Award Doppler echocardiography in the assessment of cardiac contractile dysfunction in diabetic rats

1996 -1998 American Diabetic Association Mechanisms of energy deprivation in diabetic cardiomyopathy Role:PI

U.C. Faculty Development Award Training in Fluorescence Technology at Loyola University, Chicago

1997 OBR Research Challenge Program Role of mitochondrial calcium transport in the heart. Principal Investigator

Grant: #RO1 HL56782 1998 -2003 NIH Energy deprivation mechanisms in diabetic cardiomyopathy Role:PI

Grant: #5T32 HL0732 Investigators:Arnold Schwartz, Program Director 1988 -To Present NIH

07-01-2001 -06-30-2004 American Diabetes Association Cytosolic Ca2+ Dysregulation Underlying Cardiomyopathy in Diabetes Role:PI

01-01-2006 -01-01-2007 Diabetes Action Research and Education Foundation Generation of mitochondrial thioesterase-1 knockout diabetic mice Role:PI

Grant: #SRS 001802 Investigators:Matlib, Mohammed 01-01-2006 -06-30-2007 Diabetes Action Research and Education Foundation Role of Mitochondria on the Development of Diabetic Cardiomyopathy Role:PI $20,000.00 Closed Level:Private Non-Profit

Grant: #ADA 1-06-RA-90 Investigators:Matlib, Mohammed 01-01-2006 -12-31-2008 American Diabetes Association Role of Mitochondria on Diabetic Cardiomyopathy Role:PI $300,000.00 Closed Level:Private Non-Profit

Investigators:Matlib, Mohammed 07-01-2001 -06-30-2004 American Diabetes Association Cytosolic Ca2+ Dysregulation Underlying Cardiomyopathy in Diabetes Role:PI $300,000.00 Closed Level:Private Non-Profit

Grant: #ADA-19-02-A0-S0-E0 Investigators:Matlib, Mohammed 07-01-1996 -12-31-2000 American Diabetes Association Studies on the Mechanisms of Energy Deprivation in Diabetic Cardiomyopathy Role:PI $100,000.00 Closed Level:Private Non-Profit

Grant: #5-R01-HL-56782-03-A0-S0-E0 Investigators:Matlib, Mohammed 01-01-1998 -12-31-2001 National Heart, Lung and Blood Institute Energy Deprivation Mechanisms in Diabetic Cardiomyopathy Role:PI $923,883.00 Closed Level:Federal

Grant: #R01 DK069967 Investigators:Hui, David; Matlib, Mohammed; Tschoep, Matthias 05-01-2011 -04-30-2015 National Inst of Diabetes and Digestive and Kidney Disease Role of Group 1B Phospholipase A2 on Diet-Induced Metabolic Diseases Role:Collaborator $1,040,361.00 Active Level:Federal

Peer Reviewed Publications

Gerber, Lamar K; Aronow, Bruce J; Matlib, Mohammed A (2006. ) Activation of a novel long-chain free fatty acid generation and export system in mitochondria of diabetic rat hearts.American journal of physiology. Cell physiology, , 291 (6 ) ,C1198-207 More Information

Zhong, Yan; Reiser, Peter J; Matlib, Mohammed A (2003. ) Gender differences in myosin heavy chain-beta and phosphorylated phospholamban in diabetic rat hearts.American journal of physiology. Heart and circulatory physiology, , 285 (6 ) ,H2688-93 More Information

Choi, Kin M; Zhong, Yan; Hoit, Brian D; Grupp, Ingrid L; Hahn, Harvey; Dilly, Keith W; Guatimosim, Silvia; Lederer, W Jonathan; Matlib, Mohammed A (2002. ) Defective intracellular Ca(2+) signaling contributes to cardiomyopathy in Type 1 diabetic rats.American journal of physiology. Heart and circulatory physiology, , 283 (4 ) ,H1398-408 More Information

Sánchez, J A; García, M C; Sharma, V K; Young, K C; Matlib, M A; Sheu, S S (2001. ) Mitochondria regulate inactivation of L-type Ca2+ channels in rat heart. The Journal of physiology, , 536 (Pt 2 ) ,387-96

Zhong, Y; Ahmed, S; Grupp, I L; Matlib, M A (2001. ) Altered SR protein expression associated with contractile dysfunction in diabetic rat hearts. American journal of physiology. Heart and circulatory physiology, , 281 (3 ) ,H1137-47

Hoit, B D; Castro, C; Bultron, G; Knight, S; Matlib, M A (1999. ) Noninvasive evaluation of cardiac dysfunction by echocardiography in streptozotocin-induced diabetic rats. Journal of cardiac failure, , 5 (4 ) ,324-33

Spindler, M; Saupe, K W; Tian, R; Ahmed, S; Matlib, M A; Ingwall, J S (1999. ) Altered creatine kinase enzyme kinetics in diabetic cardiomyopathy. A(31)P NMR magnetization transfer study of the intact beating rat heart.Journal of molecular and cellular cardiology, , 31 (12 ) ,2175-89 More Information

Matlib, M A; Zhou, Z; Knight, S; Ahmed, S; Choi, K M; Krause-Bauer, J; Phillips, R; Altschuld, R; Katsube, Y; Sperelakis, N; Bers, D M (1998. ) Oxygen-bridged dinuclear ruthenium amine complex specifically inhibits Ca2+ uptake into mitochondria in vitro and in situ in single cardiac myocytes. The Journal of biological chemistry, , 273 (17 ) ,10223-31

Zhou, Z; Matlib, M A; Bers, D M (1998. ) Cytosolic and mitochondrial Ca2+ signals in patch clamped mammalian ventricular myocytes. The Journal of physiology, , 507 ( Pt 2) ,379-403

Chu, G; Luo, W; Slack, J P; Tilgmann, C; Sweet, W E; Spindler, M; Saupe, K W; Boivin, G P; Moravec, C S; Matlib, M A; Grupp, I L; Ingwall, J S; Kranias, E G (1996. ) Compensatory mechanisms associated with the hyperdynamic function of phospholamban-deficient mouse hearts. Circulation research, , 79 (6 ) ,1064-76

Flarsheim, C E; Grupp, I L; Matlib, M A (1996. ) Mitochondrial dysfunction accompanies diastolic dysfunction in diabetic rat heart. The American journal of physiology, , 271 (1 Pt 2 ) ,H192-202

Dhar, ; Grupp, ; Schwartz, ; Grupp, ; Matlib, (1996. ) Reduction of Carnitine Content by Inhibition of Its Biosynthesis Results in Protection of Isolated Guinea Pig Hearts Against Hypoxic Damage.Journal of cardiovascular pharmacology and therapeutics, , 1 (3 ) ,235-242 More Information

Cox, D A; Matlib, M A (1993. ) Modulation of intramitochondrial free Ca2+ concentration by antagonists of Na(+)-Ca2+ exchange.Trends in pharmacological sciences, , 14 (11 ) ,408-13 More Information

Motley, E D; Paul, R J; Matlib, M A (1993. ) Role of Na(+)-Ca2+ exchange in the regulation of vascular smooth muscle tension. The American journal of physiology, , 264 (4 Pt 2 ) ,H1028-40

Cox, D A; Conforti, L; Sperelakis, N; Matlib, M A (1993. ) Selectivity of inhibition of Na(+)-Ca2+ exchange of heart mitochondria by benzothiazepine CGP-37157. Journal of cardiovascular pharmacology, , 21 (4 ) ,595-9

Cox, D A; Matlib, M A (1993. ) A role for the mitochondrial Na(+)-Ca2+ exchanger in the regulation of oxidative phosphorylation in isolated heart mitochondria. The Journal of biological chemistry, , 268 (2 ) ,938-47

Cox, D A; Ellinor, P T; Kirley, T L; Matlib, M A (1991. ) Identification of a 17-kDa protein associated with the peripheral-type benzodiazepine receptor in vascular and other smooth muscle types. The Journal of pharmacology and experimental therapeutics, , 258 (2 ) ,702-9

Matlib, M A; McFarland, K L (1991. ) Diltiazem inhibition of sodium-induced calcium release. Effects on energy metabolism of heart mitochondria. American journal of hypertension, , 4 (7 Pt 2 ) ,435S-441S

Matlib, M A (1991. ) Role of sarcolemmal membrane sodium-calcium exchange in vascular smooth muscle tension. Annals of the New York Academy of Sciences, , 639 ,531-42

Dunlap, E D; Matlib, M A; Millard, R W (1989. ) Protection of regional mechanics and mitochondrial oxidative phosphorylation by amlodipine in transiently ischemic myocardium. The American journal of cardiology, , 64 (17 ) ,84I-91I; discussion

Matlib, M A (1989. ) Relaxation of potassium chloride-induced contractions by amlodipine and its interaction with the 1,4-dihydropyridine-binding site in pig coronary artery. The American journal of cardiology, , 64 (17 ) ,51I-57I

French, J F; Rapoport, R M; Matlib, M A (1989. ) Possible mechanism of benzodiazepine-induced relaxation of vascular smooth muscle. Journal of cardiovascular pharmacology, , 14 (3 ) ,405-11

French, J F; Matlib, M A (1988. ) Identification of a high-affinity peripheral-type benzodiazepine binding site in rat aortic smooth muscle membranes. The Journal of pharmacology and experimental therapeutics, , 247 (1 ) ,23-8

Matlib, M A (1988. ) Na+-Ca2+ exchange in sarcolemmal membrane vesicles of dog mesenteric artery. The American journal of physiology, , 255 (3 Pt 1 ) ,C323-30

Balasubramaniam, A; Grupp, I; Matlib, M A; Benza, R; Jackson, R L; Fischer, J E; Grupp, G (1988. ) Comparison of the effects of neuropeptide Y (NPY) and 4-norleucine-NPY on isolated perfused rat hearts; effects of NPY on atrial and ventricular strips of rat heart and on rabbit heart mitochondria. Regulatory peptides, , 21 (3-4 ) ,289-99

Matlib, M A; Kihara, M; Farrell, C; Dage, R C (1988. ) The Na+-Ca2+ exchange system in vascular smooth muscle cell membrane vesicles isolated from cultured cells and from tissue is similar. Biochimica et biophysica acta, , 939 (1 ) ,173-7

Matlib, M A (1988. ) On the existence of a Na+-Ca2+ exchange system in the cell membrane of vascular smooth muscle. Journal of cardiovascular pharmacology, , 12 Suppl 6 ,S60-2

Matlib, M A; French, J F; Grupp, I L; Van Gorp, C; Grupp, G; Schwartz, A (1988. ) Vasodilatory action of amlodipine on rat aorta, pig coronary artery, human coronary artery, and on isolated Langendorff rat heart preparations. Journal of cardiovascular pharmacology, , 12 Suppl 7 ,S50-4

Grupp, I L; French, J F; Matlib, M A (1987. ) Benzodiazepine Ro 5-4864 increases coronary flow. European journal of pharmacology, , 143 (1 ) ,143-7

Matlib, M A; Reeves, J P (1987. ) Solubilization and reconstitution of the sarcolemmal Na+-Ca2+ exchange system of vascular smooth muscle. Biochimica et biophysica acta, , 904 (1 ) ,145-8

Matlib, M A; Whitmer, K R; MacCarthy, E P; Ooi, B S (1986. ) Sodium-calcium exchange exists across the cell membrane of intact vascular smooth muscle cells. Journal of hypertension. Supplement : official journal of the International Society of Hypertension, , 4 (5 ) ,S222-3

Matlib, M A; Dubé, G P; Millard, R W; Lathrop, D A; Baik, Y H; Sakai, K; DiSalvo, J; Schwartz, A (1985. ) Studies on the mode of action of isosorbide dinitrate: a physiologic and biochemical approach. American heart journal, , 110 (1 Pt 2 ) ,204-12

Matlib, M A; Schwartz, A; Yamori, Y (1985. ) A Na+-Ca2+ exchange process in isolated sarcolemmal membranes of mesenteric arteries from WKY and SHR rats. The American journal of physiology, , 249 (1 Pt 1 ) ,C166-72

Matlib, M A (1985. ) Action of bepridil, a new calcium channel blocker on oxidative phosphorylation, oligomycin-sensitive adenosine triphosphatase activity, swelling, Ca++ uptake and Na+-induced Ca++ release processes of rabbit heart mitochondria in vitro. The Journal of pharmacology and experimental therapeutics, , 233 (2 ) ,376-81

Matlib, M A; Doane, J D; Sperelakis, N; Riccippo-Neto, F (1985. ) Clonazepam and diltiazem both inhibit sodium-calcium exchange of mitochondria, but only diltiazem inhibits the slow action potentials of cardiac muscles. Biochemical and biophysical research communications, , 128 (1 ) ,290-6

Schwartz, A; Matlib, M A; Balwierczak, J; Lathrop, D A (1985. ) Pharmacology of calcium antagonists. The American journal of cardiology, , 55 (7 ) ,3C-7C

Schwartz, A; Wallick, E T; Lee, S W; Wang, T; Hosakawa, T; Whitmer, K R; Matlib, M A (1984. ) Studies on the mechanism of action of 3, 4-dihydro-6-[4-(3,4-dimethoxybenzoyl)-1-piperazinyl]-2(1H)-qu inolinone (OPC-8212), a new positive inotropic drug. Enzyme activities and Ca2+ transport processes of sarcolemma and intracellular organelles. Arzneimittel-Forschung, , 34 (3A ) ,384-9

Matlib, M A; Vaghy, P L; Epps, D E; Schwartz, A (1983. ) Actions of certain calcium channel blockers and calmodulin antagonists on inorganic phosphate-induced swelling and inhibition of oxidative phosphorylation of heart mitochondria. Biochemical pharmacology, , 32 (17 ) ,2622-5

Matlib, M A; Schwartz, A (1983. ) Selective effects of diltiazem, a benzothiazepine calcium channel blocker, and diazepam, and other benzodiazepines on the Na+/Ca2+ exchange carrier system of heart and brain mitochondria. Life sciences, , 32 (25 ) ,2837-42

DePover, A; Lee, S W; Matlib, M A; Whitmer, K; Davis, B A; Powell, T; Schwartz, A (1983. ) [3H]nimodipine specific binding to cardiac myocytes and subcellular fractions. Biochemical and biophysical research communications, , 113 (1 ) ,185-91

Matlib, M A; Lee, S W; Depover, A; Schwartz, A (1983. ) A specific inhibitory action of certain benzothiazepines and benzodiazepines on the sodium-calcium exchange process of heart and brain mitochondria. European journal of pharmacology, , 89 (3-4 ) ,327-8

Matlib, M A; Rembert, J C; Millard, R W; Ashraf, M; Rouslin, W; Asano, G; Greenfield, J C; Schwartz, A (1983. ) Mitochondrial function in canine experimental cardiac hypertrophy. Journal of molecular and cellular cardiology, , 15 (4 ) ,221-32

Ngai, J H; Matlib, M A; Millard, R W Contractile performance, mitochondrial function and blood flow distribution in porcine heart with induced coronary collateral circulation. Basic research in cardiology, , 78 (1 ) ,62-76

DePover, A; Matlib, M A; Lee, S W; Dubé, G P; Grupp, I L; Grupp, G; Schwartz, A (1982. ) Specific binding of [3H]nitrendipine to membranes from coronary arteries and heart in relation to pharmacological effects. Paradoxical stimulation by diltiazem. Biochemical and biophysical research communications, , 108 (1 ) ,110-7

Vághy, P L; Johnson, J D; Matlib, M A; Wang, T; Schwartz, A (1982. ) Selective inhibition of Na+-induced Ca2+ release from heart mitochondria by diltiazem and certain other Ca2+ antagonist drugs. The Journal of biological chemistry, , 257 (11 ) ,6000-2

Vághy, P L; Matlib, M A; Szekeres, L; Schwartz, A (1981. ) Protective effects on verapamil and diltiazem against inorganic phosphate induced impairment of oxidative phosphorylation of isolated heart mitochondria. Biochemical pharmacology, , 30 (18 ) ,2603-10

Vághy, P L; Matlib, M A; Schwartz, A (1981. ) Phosphate induced swelling, inhibition and partial uncoupling of oxidative phosphorylation in heart mitochondria in the absence of external calcium and the presence of EGTA. Biochemical and biophysical research communications, , 100 (1 ) ,37-44

Matlib, M A; Rebman, D; Ashraf, M; Rouslin, W; Schwartz, A (1981. ) Differential activities of putative subsarcolemmal and interfibrillar mitochondria from cardiac muscle. Journal of molecular and cellular cardiology, , 13 (2 ) ,163-70

Grupp, G; Grupp, I L; Johnson, C L; Matlib, M A; Rouslin, W; Schwartz, A; Wallick, E T; Wang, T; Wisler, P (1980. ) Effects of RMI 12330A, a new inhibitor of adenylate cyclase on myocardial function and subcellular activity. British journal of pharmacology, , 70 (3 ) ,429-42

Solaro, R J; Holroyde, M J; Wang, T; Matlib, M A; Grupp, I; Grupp, G; Schwartz, A Effects of vanadate on biochemical and contractile properties of rabbit hearts. Journal of cardiovascular pharmacology, , 2 (4 ) ,445-52

Nagao, T; Matlib, M A; Franklin, D; Millard, R W; Schwartz, A (1980. ) Effects of diltiazem, a calcium antagonist, on regional myocardial function and mitochondria after brief coronary occlusion. Journal of molecular and cellular cardiology, , 12 (1 ) ,29-43

Matlib, M A; Frenkel, E P; Mukherjee, A; Henslee, J; Srere, P A (1979. ) Enzymatic properties of mitochondria isolated from normal and vitamin B12-deficient rats. Archives of biochemistry and biophysics, , 197 (2 ) ,388-95

Matlib, M A; Crankshaw, J; Garfield, R E; Crankshaw, D J; Kwan, C Y; Branda, L Q; Daniel, E E (1979. ) Characterization of membrane fractions and isolation of purified plasma membranes from rat myometrium. The Journal of biological chemistry, , 254 (6 ) ,1834-40

Rouslin, W; Cubicciotti, R S; Edwards, W D; Matlib, M A; Wilson, D R; Hamrell, B B; Schwartz, A (1979. ) Phosphorylative respiratory activity of mitochondria isolated from the left and right ventricles of rabbit hearts following partial pulmonary trunk occlusion. Journal of molecular and cellular cardiology, , 11 (1 ) ,91-9

Matlib, M A; Shannon, W A; Srere, P A (1979. ) Measurement of matrix enzyme activity in situ in isolated mitochondria made permeable with toluene. Methods in enzymology, , 56 ,544-50

Matlib, M A; Boesman-Finkelstein, M; Srere, P A (1978. ) The kinetics of rat liver citrate synthase in situ. Archives of biochemistry and biophysics, , 191 (2 ) ,426-30

Matlib, M A; Rouslin, W; Kraft, G; Berner, P; Schwartz, A (1978. ) On the existence of two populations of mitochondria in a single organ. Respiration, calcium transport and enzyme activities. Biochemical and biophysical research communications, , 84 (2 ) ,482-8

Crankshaw, D J; Branda, L A; Matlib, M A; Daniel, E E (1978. ) Localization of the oxytocin receptor in the plasma membrane of rat myometrium. European journal of biochemistry / FEBS, , 86 (2 ) ,481-6

Matlib, M A; Shannon, W A; Srere, P A (1977. ) Measurement of matrix enzyme activity in isolated mitochondria made permeable with toluene. Archives of biochemistry and biophysics, , 178 (2 ) ,396-407

Matlib, M A; Srere, P A (1976. ) Oxidative properties of swollen rat liver mitochondria. Archives of biochemistry and biophysics, , 174 (2 ) ,705-12

Matlib, M A; O'Brien, P J (1976. ) Properties of rat liver mitochondria with intermembrane Cytochrome c. Archives of biochemistry and biophysics, , 173 (1 ) ,27-33

Matlib, M A; O'Brien, P J (1975. ) Compartmentation of enzymes in the rat liver mitochondrial matrix. Archives of biochemistry and biophysics, , 167 (1 ) ,193-202

Hollie, Norris I; Cash, James G; Matlib, M Abdul; Wortman, Matthew; Basford, Joshua E; Abplanalp, William; Hui, David Y (2013. ) Micromolar changes in lysophosphatidylcholine concentration cause minor effects on mitochondrial permeability but major alterations in function.Biochimica et biophysica acta, , More Information

1967 Diploma in German Language University of Dacca, Bangladesh

1975 Diploma in Transmission and Scanning Electron Microscopy Wilson College, Chambersburg, Pennsylvania

1958 -1960 Regional Merit Scholarship

1961 -1965 District Council Scholarship

1965 First prize for overall best results in M.S. exam University of Dacca

1967 -1970 Agricultural Research Council (U.K.) Research Studentship

1971 -1973 National Research Council of Canada Postdoctoral Fellowship

Biochemistry,Membrane Biology,Biology,Biophysics,Pharmacology