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ORCID1. RECOMB 1997: Santa Fe, NM, USA
- Michael S. Waterman:
Proceedings of the First Annual International Conference on Research in Computational Molecular Biology, RECOMB 1997, Santa Fe, NM, USA, January 20-23, 1997. ACM 1997, ISBN 0-89791-882-7 - Richa Agarwala
, Serafim Batzoglou, Vlado Dancík, Scott E. Decatur, Martin Farach, Sridhar Hannenhalli, S. Muthukrishnan, Steven Skiena:
Local rules for protein folding on a triangular lattice and generalized hydrophobicity in the HP model. 1-2 - Tatsuya Akutsu, Satoru Miyano:
On the approximation of protein threading. 3-8 - Eric L. Anson, Eugene W. Myers:
ReAligner: a program for refining DNA sequence multi-alignments. 9-16 - Amir Ben-Dor, Benny Chor:
On constructing radiation hybrid maps (extended abstract). 17-26 - Gary Benson:
Sequence alignment with tandem duplication. 27-36 - Bonnie Berger, Mona Singh:
An iterative method for improved protein structural motif recognition. 37-46 - Erich Bornberg-Bauer:
Chain growth algorithms for HP-type lattice proteins. 47-55 - J. Richard Bradley, Steven Skiena:
Fabricating arrays of strings. 57-66 - Weiping Cai, Anne Condon, Robert M. Corn, Elton Glaser, Zhengdong Fei, Tony Frutos, Zhen Guo, Max G. Lagally, Qinghua Liu, Lloyd M. Smith, Andrew Thiel:
The power of surface-based DNA computation (extended abstract). 67-74 - Alberto Caprara:
Sorting by reversals is difficult. 75-83 - Thomas Christof, Michael Jünger, John D. Kececioglu, Petra Mutzel, Gerhard Reinelt:
A branch-and-cut approach to physical mapping with end-probes. 84-92 - Gary A. Churchill:
Monte Carlo sequence alignment. 93-97 - Jaime Cohen, Martin Farach:
Numerical taxonomy on data (abstract): experimental results. 98 - Bhaskar DasGupta, Tao Jiang, Sampath Kannan, Ming Li, Z. Sweedyk:
On the complexity and approximation of syntenic distance. 99-108 - Ken A. Dill, Andrew T. Phillips, J. Ben Rosen:
Protein structure prediction and potential energy landscape analysis using continuous global minimization. 109-117 - Daniel P. Fasulo, Tao Jiang, Richard M. Karp, Reuben J. Settergren, Edward C. Thayer:
An algorithmic approach to multiple complete digest mapping. 118-127 - William E. Hart:
On the computational complexity of sequence design problems. 128-136 - William E. Hart, Sorin Istrail:
Lattice and off-lattice side chain models of protein folding (extended abstract): linear time structure prediction better than 86% of optimal. 137-146 - S. C. Heath:
The application of Markov chain Monte Carlo methods to radiation hybrid mapping. 147-150 - Mudita Jain, Eugene W. Myers:
Algorithms for computing and integrating physical maps using unique probes. 151-161 - Tao Jiang, Richard M. Karp:
Mapping clones with a given ordering or interleaving (abstract). 162 - Haim Kaplan, Ron Shamir, Robert Endre Tarjan:
Faster and simpler algorithm for sorting signed permutations by reversals. 163 - Samuel Karlin:
Assessing inhomogeneities in bacterial long genomic sequences. 164-171 - Johnathan King:
Problems in understanding the structure and assembly of viruses (abstract). 173 - George A. Komatsoulis, Michael S. Waterman:
Chimeric alignment by dynamic programming: algorithm and biological uses. 174-180 - Hans-Peter Lenhof:
New contact measures for the protein docking problem. 182-191 - Shili Lin, Terence P. Speed:
An algorithm for haplotype analysis. 192-200 - Robert J. Lipshutz:
DNA probe arrays - accessing the genome (abstract). 201 - Hiroshi Mamitsuka:
Supervised learning of hidden Markov models for sequence discrimination. 202-208 - S. Muthukrishnan, Laxmi Parida:
Towards constructing physical maps by optical mapping (extended abstract): an effective, simple, combinatorial approach. 209-219 - Gene Myers, Sanford Selznick, Zheng Zhang, Webb Miller:
Progressive multiple alignment with constraints. 220-225 - Mitsunori Ogihara, Animesh Ray:
Simulating Boolean circuits on a DNA computer. 226-231 - Martin G. Reese, Frank H. Eeckman, David Kulp, David Haussler:
Improved splice site detection in Genie. 232-240 - Knut Reinert, Hans-Peter Lenhof, Petra Mutzel, Kurt Mehlhorn, John D. Kececioglu:
A branch-and-cut algorithm for multiple sequence alignment. 241-250 - Richard J. Roberts:
Hunting for new restriction enzymes in GenBank (abstract). 251 - David Sankoff, Vincent Ferretti, Joseph H. Nadeau:
Conserved segment identification. 252-256 - Benno Schwikowski, Martin Vingron:
The deferred path heuristic for the generalized tree alignment problem. 257-266 - Tetsuo Shibuya, Hiroshi Imai:
New flexible approaches for multiple sequence alignment. 267-276 - Donna K. Slonim, Leonid Kruglyak, Lincoln Stein, Eric S. Lander:
Building human genome maps with radiation hybrids. 277-286 - Temple F. Smith, Loredana Lo Conte, Jadwiga R. Bienkowska, Robert G. Rogers, Chrysanthe Gaitatzes, Richard H. Lathrop:
The threading approach to the inverse protein folding problem. 287-292 - Terence P. Speed:
Variations on a theme of Lander and Waterman (abstract). 293 - Fengzhu Sun, Gary Benson, Norman Arnheim, Michael S. Waterman:
Pooling strategies for establishing physical genome maps using FISH. 294-299 - Sing-Hoi Sze, Pavel A. Pevzner:
Las Vegas algorithms for gene recognition: suboptimal and error-tolerant spliced alignment. 300-309 - Lusheng Wang, Tao Jiang, Dan Gusfield:
A more efficient approximation scheme for tree alignment. 310-319 - David Bruce Wilson, David S. Greenberg, Cynthia A. Phillips:
Beyond islands (extended abstract): runs in clone-probe matrices. 320-329 - Ying Xu, Edward C. Uberbacher:
Reference-based gene model prediction on DNA contigs (extended abstract). 330-336 - Zheng Zhang, William R. Pearson, Webb Miller:
Aligning a DNA sequence with a protein sequence. 337-343 - Ralf Zimmer, Thomas Lengauer:
Fast and numerically stable parametric alignment of biosequences. 344-353
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