Biblio
] , “Towards an Accurate and Efficient Heuristic for Species/Gene Tree Co-estimation”, Bioinformatics, vol. 34, pp. i697-i705, 2018.
WangNakhleh-ECCB18.pdf (1.8 MB)
WangNakhleh-ECCB18.pdf (1.8 MB), “Towards accurate characterization of clonal heterogeneity based on structural variation”, BMC Bioinformatics, vol. 15, p. 299, 2014. FanEtAl2014.pdf (2.04 MB)
FanEtAl2014.pdf (2.04 MB), “The strength of chemical linkage as a criterion for pruning metabolic graphs”, Bioinformatics, vol. 27, no. 14, pp. 1957-1963, 2011. ZhouNakhleh-Bioinformatics11.pdf (749.76 KB)
ZhouNakhleh-Bioinformatics11.pdf (749.76 KB), “Stranger in a strange land: The experiences of immigrant researchers”, Genome Biology, vol. 18, p. 232, 2017. Stranger-GB17.pdf (286.06 KB)
Stranger-GB17.pdf (286.06 KB), “A Stochastic model of language evolution that incorporates homoplasy and borrowing”, Phylogenetic Methods and the Prehistory of Languages, 2004.
, “Species tree inference by minimizing deep coalescences”, PLoS Computational Biology, vol. 5, p. e1000501, 2009.
, “The Signaling Petri Net-based Simulator: A Non-parametric Strategy for Characterizing the Dynamics of Cell-specific Signaling Networks”, PLoS Computational Biology, vol. 4, p. e1000005, 2008.
, “SiFit: A method for inferring tumor trees from single-cell sequencing data under finite-site models”, Genome Biology, vol. 18, p. 178, 2017. ZafarEtAl-GB17.pdf (2.12 MB)
ZafarEtAl-GB17.pdf (2.12 MB), “SiCloneFit: Bayesian inference of population structure, genotype, and phylogeny of tumor clones from single-cell genome sequencing data”, Genome Research, 2019.
, “Seeing the trees and their branches in the network is hard”, Theoretical Computer Science, vol. 401, pp. 153-164, 2008.
, “Review of ReCombinatorics by Dan Gusfield”, SIAM Review, vol. 57, no. 4, pp. 638-642, 2015. SIAMReviews-Recombinatorics.pdf (177.2 KB)
SIAMReviews-Recombinatorics.pdf (177.2 KB), “Reticulate Evolutionary History and Extensive Introgression in Mosquito Species Revealed by Phylogenetic Network Analysis”, Molecular Ecology, vol. 25, pp. 2361-2372, 2016. WenEtAl-MolEcol2016.pdf (1.26 MB)
WenEtAl-MolEcol2016.pdf (1.26 MB), “Recombination and phylogeny: effects and detection”, International Journal on Bioinformatics Research and Applications, vol. 1, pp. 202-212, 2005.
, “Rapidly Exploring Structural and Dynamic Properties of Signaling Networks Using PathwayOracle”, BMC Systems Biology, vol. 2, p. 76, 2008.
, “Quantifying And Assessing the Effect of Chemical Symmetry in Metabolic Pathways”, Journal of Chemical Information and Modeling, vol. 52, pp. 2684-2696, 2012. ZhouNakhleh-JCIM2012.pdf (2.66 MB)
ZhouNakhleh-JCIM2012.pdf (2.66 MB), “Properties of metabolic graphs: Biological organization or representation artifacts?”, BMC Bioinformatics, vol. 12, p. 132, 2011. ZhouNakhleh-BMCBioinfo11.pdf (1.08 MB)
ZhouNakhleh-BMCBioinfo11.pdf (1.08 MB), “The probability of a gene tree topology within a phylogenetic network with applications to hybridization detection”, PLoS Genetics, vol. 8, no. 4, p. e1002660, 2012. YuDegnanNakhleh.pdf (483.41 KB)
YuDegnanNakhleh.pdf (483.41 KB), “PRec-I-DCM3: A Parallel Framework for Fast and Accurate Large Scale Phylogeny Reconstruction”, International Journal on Bioinformatics Research and Applications, vol. 2, pp. 407-419, 2006.
, “Practical Speedup of Bayesian Inference of Species Phylogenies by Restricting the Space of Gene Trees”, Molecular Biology and Evolution, vol. 37, pp. 1809-1818, 2020. MBE2020.pdf (502.98 KB)
MBE2020.pdf (502.98 KB), “Population genomics in bacteria: A case study of Staphylococcus aureus.”, Molecular Biology and Evolution, vol. 29, no. 2, pp. 797-800, 2012. TakunoEtAl-MBE11.pdf (933.28 KB)
TakunoEtAl-MBE11.pdf (933.28 KB), “PhyloNet: A Software Package for Analyzing and Reconstructing Reticulate Evolutionary Relationships”, BMC Bioinformatics, vol. 9, p. 322, 2008.
, “Phylogenetic Networks: Properties and Relationship to Trees and Clusters”, LNCS Transactions on Computational Systems Biology, II, vol. 3680, pp. 82-99, 2005.
, “Phylogenetic networks: modeling, reconstructibility, and accuracy”, IEEE/ACM Transactions on Computational Biology and Bioinformatics, vol. 1, pp. 13–23, 2004.
, “Perfect Phylogenetic Networks: A New Methodology for Reconstructing the Evolutionary History of Natural Languages”, LANGUAGE, Journal of the Linguistic Society of America, vol. 81, pp. 382-420, 2005.
, “Parsimony Score of Phylogenetic Networks: Hardness Results and a Linear-time Heuristic”, IEEE/ACM Transactions on Computational Biology and Bioinformatics, vol. 6, pp. 495-505, 2009.