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 REFERENCES
Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.
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Brunak, S., Engelbreeht, J., and Knudsen, S. Prediction of Human mRNA Donor and Acceptor Sites from the DNA Sequence. Journal of Molecular Biology, 220 (1991), 49-65.
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Burks, C. The Flow of Nucleotide Sequence Data into Data Banks: Role and Impact of Large-Scale Sequencing Projects. In Computers and DNA: Proceedings of the Interface Between Computation Science and Nucleic Acid Sequencing Workshop held in Santa Fe, New Mexico 12-16 December 1988, ed. George I. Bell and Thomas G. Man', VII: 35-45. New York: Addison-Wesley, 1990.
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3
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Das, S.K., Fisher, P.S. and Zhang, H. Efficient Parallel Algorithms for Pattern Recognition. In Parallel Algorithms and Applications: Proceedings of Twentysixth Hawaii international Conference in Systems Sciences, 2 (1993), 81-98. Gor~ and Breach Science Publishers S.A.
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4
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Fickett, J.W., and Tung, C.S. Assessment of Protein Coding Measurm~ Nucleic Acids Research 20, no. 24 (1992), 6441-6450.
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5
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Fields, C.A. and Soderlund, C.A. GM: a PracticalToolfor Automating DNA Sequence Analysis. CABIOS 6, no. 3 (1990), 263-270.
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Fisher, P.S., Novaes, M.N. and Mobus, G.E. Pattern Recognition and Generation in Music. In Proceedings of the Music Workshop of the 1990 European Conference in Artificial Intelligence, Stockholm, Sweden.
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7
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Guigo, IL, Knudsen, S., Drake, N., and Smith, T. Prediction of Gene Structure. Journal of Molecular Biology 226 (1992), 141-157.
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Konopka, A.K. Plausible Classification Codes and Local Compositional Complexity of Nucleotide Sequences. In Second International Conference on Bioinformatics, Supercomputing and Complex Genome Analysis. Lira, H.A., Fickett, J.W., Cantor, C.R. and Robbins, R.J. (eds.). World Scientific, Singapore. ( i 993), 69-87.
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9
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Matthews, B.W. Comparison of the Predicted and Observed Secondary Structure of T4 Phage Lysozyme. Biochimica et Biophysica Acta 405 (1975), 442-451.
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10
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Snyder, E.E. and Stormo, G.D. Identification of Coding Regions in Genomic DNA Sequences: and Application of Dynamic Programming and Neural Networkg Nucleic Acids Research 21, (1993), no. 3: 607-613.
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Solovyev, V.V., Salamov, A.A., and Lawrence, C.B. Predicting Internal Exons by Oligonucleotide Composition and Discriminant Analysis of Spliceable Open Reading Frames. Nucleic Acids Research 22, no, 24 (1994), 5156-5163.
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Staden, R. Finding Protein Coding Regions in Genomic Sequences. Methods of Enzymology, ed. R.F.Doolittle, i 83 (1990), 163-180. Academic Press, Inc.
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Stormo, G.D. Identifying Coding Sequences. Chapter 10 of Nucleic Acid and Protein Sequence Analysis ed. M.J. Bishop and C.J. Rawlings 231-258. Oxford: IRL Press, 1987.
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Uberbacher, E.C. and Mural, R.J. Locating Protein- Coding Regions in Human DNA Sequences by a Multiple Sensor-Neural Network Approach. In Proceedings of the National Academy of Science USA 88 (1991), 11261-11265.
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Zhang, M.Q. Identification of Protein Coding Regions in the Human Genome by Quadratic Discriminant Analysis. In Proceedings of the National Academy of Sciences, USA 94 (1997), 565-568.
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