Citation: Yd. Cai et Bp. Roberts, RADICAL-CHAIN RACEMIZATION OF TETRAHYDROFURFURYL ACETATE UNDER CONDITIONS OF POLARITY-REVERSAL CATALYSIS - POSSIBLE IMPLICATIONS FOR THE RADICAL-INDUCED STRAND CLEAVAGE OF DNA (PG 1145, 1998), Chemical communications, (15), 1998, pp. 1607-1607
Citation: Yd. Cai et Bp. Roberts, RADICAL-CHAIN RACEMIZATION OF TETRAHYDROFURFURYL ACETATE UNDER CONDITIONS OF POLARITY-REVERSAL CATALYSIS - POSSIBLE IMPLICATIONS FOR THE RADICAL-INDUCED STRAND CLEAVAGE OF DNA, Chemical communications, (10), 1998, pp. 1145-1146
Citation: Yd. Cai et Kc. Chou, ARTIFICIAL NEURAL-NETWORK MODEL FOR PREDICTING HIV PROTEASE CLEAVAGE SITES IN PROTEIN, Advances in engineering software, 29(2), 1998, pp. 119-128
Citation: Yd. Cai et Bp. Roberts, INTRAMOLECULAR RADICAL-CHAIN HYDROSILYLATION CATALYZED BY THIOLS - CYCLIZATION OF ALKENYLOXYSILANES, Journal of the Chemical Society. Perkin transactions. I, (3), 1998, pp. 467-475
Citation: Yd. Cai et Bp. Roberts, INTRAMOLECULAR RADICAL-CHAIN HYDROSILYLATION CATALYZED BY THIOLS - CYCLIZATION OF ALKENYLOXYSILANES (VOL 1, PG 467, 1998), Journal of the Chemical Society. Perkin transactions. I (Print), (21), 1998, pp. 3653-3653
Citation: Yd. Cai et al., ARTIFICIAL NEURAL-NETWORK METHOD FOR PREDICTING HIV PROTEASE CLEAVAGESITES IN PROTEIN, Journal of protein chemistry, 17(7), 1998, pp. 607-615
Citation: Cp. Ponting et al., THE BREAST-CANCER GENE-PRODUCT TSG101 - A REGULATOR OF UBIQUITINATION, Journal of molecular medicine, 75(7), 1997, pp. 467-469
Citation: Yd. Cai et al., ARTIFICIAL NEURAL-NETWORK METHOD FOR PREDICTING THE SPECIFICITY OF GALNAC-TRANSFERASE, Journal of protein chemistry, 16(7), 1997, pp. 689-700
Citation: Yd. Cai et al., A SIMPLE PROGRAM FOR SIMULATING THE RESPONSES OF NEURONS WITH ARBITRARILY STRUCTURED AND ACTIVE DENDRITIC TREES, Journal of neuroscience methods, 74(1), 1997, pp. 27-35
Citation: Yd. Cai et al., MECHANISMS OF ONSET RESPONSES IN OCTOPUS CELLS OF THE COCHLEAR NUCLEUS - IMPLICATIONS OF A MODEL, Journal of neurophysiology, 78(2), 1997, pp. 872-883
Citation: Yd. Cai et Cd. Geisler, TEMPORAL PATTERNS OF THE RESPONSES OF AUDITORY-NERVE FIBERS TO LOW-FREQUENCY TONES, Hearing research, 96(1-2), 1996, pp. 83-93
Citation: Yd. Cai et Cd. Geisler, SUPPRESSION IN AUDITORY-NERVE FIBERS OF CATS USING LOW-SIDE SUPPRESSORS .1. TEMPORAL ASPECTS, Hearing research, 96(1-2), 1996, pp. 94-112
Citation: Yd. Cai et Cd. Geisler, SUPPRESSION IN AUDITORY-NERVE FIBERS OF CATS USING LOW-SIDE SUPPRESSORS .2. EFFECT OF SPONTANEOUS RATES, Hearing research, 96(1-2), 1996, pp. 113-125
Citation: Yd. Cai et Cd. Geisler, SUPPRESSION IN AUDITORY-NERVE FIBERS OF CATS USING LOW-SIDE SUPPRESSORS .3. MODEL RESULTS, Hearing research, 96(1-2), 1996, pp. 126-140
Citation: Yd. Cai et Cd. Geisler, LONG-TERM SUPPRESSION OF THE RESPONSES OF AUDITORY-NERVE FIBERS TO A CHARACTERISTIC-FREQUENCY TONE BY A LOW-FREQUENCY SUPPRESSOR, Hearing research, 96(1-2), 1996, pp. 141-150
Citation: Yd. Cai et al., LEARNING ASSOCIATION BY SELF-ORGANIZATION NEURAL TREE APPLIED TO THE ESTIMATION OF FORMATION CONDITION FOR AMORPHOUS PHASE OF TRINAL FLUORIDES, Gaodeng xuexiao huaxue xuebao, 17(4), 1996, pp. 531-534
Citation: Yd. Cai et Kc. Chou, ARTIFICIAL NEURAL-NETWORK MODEL FOR PREDICTING THE SPECIFICITY OF GALNAC-TRANSFERASE, Analytical biochemistry, 243(2), 1996, pp. 284-285
Citation: Cd. Geisler et Yd. Cai, RELATIONSHIPS BETWEEN FREQUENCY-TUNING AND SPATIAL-TUNING CURVES IN THE MAMMALIAN COCHLEA, The Journal of the Acoustical Society of America, 99(3), 1996, pp. 1550-1555
Citation: Yd. Cai et Cq. Chen, ARTIFICIAL NEURAL-NETWORK METHOD FOR DISCRIMINATING CODING REGIONS OFEUKARYOTIC GENES, Computer applications in the biosciences, 11(5), 1995, pp. 497-501