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Authors:
DEGANO M
GOPAUL DN
SCAPIN G
SCHRAMM VL
SACCHETTINI JC
Citation: M. Degano et al., 3-DIMENSIONAL STRUCTURE OF THE INOSINE-URIDINE NUCLEOSIDE N-RIBOHYDROLASE FROM CRITHIDIA-FASCICULATA, Biochemistry, 35(19), 1996, pp. 5971-5981
Authors:
DENG H
CHAN AWY
BAGDASSARIAN CK
ESTUPINAN B
GANEM B
CALLENDER RH
SCHRAMM VL
Citation: H. Deng et al., TRYPANOSOMAL NUCLEOSIDE HYDROLASE - RESONANCE RAMAN-SPECTROSCOPY OF ATRANSITION-STATE INHIBITOR COMPLEX, Biochemistry, 35(19), 1996, pp. 6037-6047
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Citation: Xy. Chen et al., INHIBITION OF RICIN BY AN RNA STEM-LOOP CONTAINING A RIBO-OXOCARBENIUM MIMIC, Journal of the American Chemical Society, 118(12), 1996, pp. 3067-3068
Authors:
BOUTELLIER M
GANEM B
HORENSTEIN BA
SCHRAMM VL
Citation: M. Boutellier et al., DESIGN AND SYNTHESIS OF D-RIBOFURANOAMIDRAZONES AS INHIBITORS OF NUCLEOSIDE PROCESSING ENZYMES, Synlett, (5), 1995, pp. 510-512
Citation: Dw. Parkin et Vl. Schramm, BINDING MODES FOR SUBSTRATE AND A PROPOSED TRANSITION-STATE ANALOG OFPROTOZOAN NUCLEOSIDE HYDROLASE, Biochemistry, 34(42), 1995, pp. 13961-13966
Citation: Pc. Kline et Vl. Schramm, PRE-STEADY-STATE TRANSITION-STATE ANALYSIS OF THE HYDROLYTIC REACTIONCATALYZED BY PURINE NUCLEOSIDE PHOSPHORYLASE, Biochemistry, 34(4), 1995, pp. 1153-1162
Citation: J. Scheuring et Vl. Schramm, STEREOCHEMISTRY OF THE ADP-RIBOSYLATION CATALYZED BY PERTUSSIS TOXIN, Journal of the American Chemical Society, 117(50), 1995, pp. 12653-12654
Citation: Pc. Kline et Vl. Schramm, COMPARISON OF THE ELECTROSTATIC POTENTIAL SURFACES FOR AMP-DEAMINASE AND COFORMYCIN, The FASEB journal, 8(7), 1994, pp. 10001347-10001347
Citation: B. Estupinan et Vl. Schramm, GUANOSINE-INOSINE-PREFERRING NUCLEOSIDE N-GLYCOHYDROLASE FROM CRITHIDIA-FASCICULATA, The Journal of biological chemistry, 269(37), 1994, pp. 23068-23073
Citation: Pc. Kline et Vl. Schramm, ELECTROSTATIC POTENTIAL SURFACES OF THE TRANSITION-STATE FOR AMP-DEAMINASE AND FOR (R)-COFORMYCIN, A TRANSITION-STATE INHIBITOR, The Journal of biological chemistry, 269(35), 1994, pp. 22385-22390
Citation: Vl. Schramm et al., TRANSITION-STATE ANALYSIS AND INHIBITOR DESIGN FOR ENZYMATIC-REACTIONS, The Journal of biological chemistry, 269(28), 1994, pp. 18259-18262
Citation: Ji. Ehrlich et Vl. Schramm, ELECTROSTATIC POTENTIAL SURFACE-ANALYSIS OF THE TRANSITION-STATE FOR AMP NUCLEOSIDASE AND FOR FORMYCIN 5'-PHOSPHATE, A TRANSITION-STATE INHIBITOR, Biochemistry, 33(30), 1994, pp. 8890-8896
Authors:
BOUTELLIER M
HORENSTEIN BA
SEMENYAKA A
SCHRAMM VL
GANEM B
Citation: M. Boutellier et al., AMIDRAZONE ANALOGS OF D-RIBOFURANOSE AS TRANSITION-STATE INHIBITORS OF NUCLEOSIDE HYDROLASE, Biochemistry, 33(13), 1994, pp. 3994-4000
Citation: Ka. Rising et Vl. Schramm, ENZYMATIC-SYNTHESIS OF NAD(+) WITH THE SPECIFIC INCORPORATION OF ATOMIC LABELS, Journal of the American Chemical Society, 116(15), 1994, pp. 6531-6536
Citation: Vl. Schramm et Ba. Horenstein, THE ELECTRONIC NATURE OF THE TRANSITION-STATE FOR NUCLEOSIDE HYDROLASE, The FASEB journal, 7(7), 1993, pp. 1064-1064
Citation: B. Horenstein et Vl. Schramm, NUCLEOSIDE HYDROLASE INHIBITOR DESIGN BASED ON TRANSITION-STATE STRUCTURE, The FASEB journal, 7(7), 1993, pp. 1199-1199
Citation: Ba. Horenstein et al., A NEW CLASS OF C-NUCLEOSIDE ANALOGS - 1-(S)-ARYL-1,4-DIDEOXY-1,4-IMINO-D-RIBITOLS, TRANSITION-STATE ANALOG INHIBITORS OF NUCLEOSIDE HYDROLASE, Tetrahedron letters, 34(45), 1993, pp. 7213-7216