Currently molecular biology is generating information on the molecular properties of cells and organisms at an incredible pace. For example we know the complete genome sequence of a large number of species and the number of these genome sequences is increasing. Not only do these so called high-throughput experiments generate complete pictures of the genetic information of cells, but other techniques measure the level of expression of all genes at the same time, or measure all the interactions between all the proteins present in a cell. Bioinformatics is obviously needed for the storage and primary analysis of these huge volumes of biomolecular data. More interestingly, these data uniquely allow bioinformatics to make biological discoveries that hitherto were not possible.
We here use these genome scale data to perform research in evolutionary genomics: i.e. what rules govern the presence and absence of genes across genomes, how do protein complexes evolve, how does the protein interaction network evolve, how do signal transduction pathways evolve, what is the role of gene duplication in the evolution of protein complexes and the interaction network. These research questions are carried out using bionformatics to compare genome sequences and integrate highthrougput data sets such as yeast-2-hybrid data or micro-array expression data. All research efforts rely heavily on advanced sequence analysis and orthology detection. At the same time our insights from genome evolution and the analysis of high-throughput data allow the development of tools to predict the cellular function of experimentally poorly characterized genes.
The Evolutionary Genomics and Integrative Bioinformatics Group is part of Theoreotical Biology and Bioinformatics.
- Berend Snel, Professor, Principal Investigator
- Alessia Peviani, PhD student
- Eelco Tromer, PhD student
- Leny Van Wijk, PhD student
- Jolien van Hooff, PhD student
- Ethel Gilliquet, Master student
Former Members / Students
- Jos Boekhorst, Postdoc
- Gabino Sanchez-Perez, Postdoc
- Adrian Schneider, Postdoc
- Lidija Berke, PhD student/Postdoc
- Like Fokkens, PhD student
- Nijuscha Gruhn, PhD Student (visiting, AG Heyl, FU Berlin)
- Michael F. Seidl, PhD student/Postdoc
- John Van Dam, PhD student
- Sandra Botelho, PhD student
- Andrew Li Yim, Master student
- Sjors van der Horst, Master student
- Richard Foppen, Master student
- Erik Hoogendoorn, Master student
- Rianne Jansen, Master student
- Esther Kuiper, Master student
- Brand Recter, Master student
- Ioannis Tamvakis, Master Student
- Harmen Van Rossum, Master student
- Floor Venema, Master student
- Rui Peng Wang, Master student (VU)
- Laura Hamerslag, Bachelors Student
Open position: Assistant Professor Bioinformatics
The Theoretical Biology & Bioinformatics (TBB) group at Utrecht is searching for an assistant professor in bioinformatics with a track record reflecting exciting biological research. You will be functioning at the PI level, develop your own research line and supervise your own PhD students. Your background could be in biology provided you have a solid expertise in bioinformatics, or your background could be in computer science or physics provided you have a genuine biological research line. You are expected to develop your own research line in the life sciences using bioinformatics approaches. This involves acquisition of grants to form your own group within the Bioinformatics group. Assistant professor positions involve both research and teaching. You will be expected to participate in existing bioinformatics courses at the bachelor/master levels and to participate in the development of a new advanced bioinformatics course.
The staff researchers of theoretical biology and bioinformatics at the biology department use mathematics, computer science and bioinformatics to perform fundamental biological research in a variety of biological disciplines. Currently it is seeking to strengthen its bioinformatics research. The bioinformatics group develops novel bioinformatics approaches in the areas of comparative genomics and data integration to pursue research into evolution, signalling networks and plant bioinformatics. The group is part of the Institute of Biodynamics and Biocomplexity (IBB), embedded in one of the largest Biology departments in the Netherlands (>200 new students per year). The group teaches bioinformatics to biology students at the bachelor and master level. PhD students in the group have diverse backgrounds ranging from biology, chemistry to computer science, and typically half of them are from abroad. The IBB focuses on molecular life sciences, and is collaborating with other departments of the Faculty of Science, the Faculty of Medicine, and the Hubrecht Institute in Utrecht.
To apply, please find the position here and attach a letter of motivation, a concise (half page) research plan and curriculum vitae. As part of the selection procedure successful candidates are expected to give an outline of his/her research plans in a written report and an oral presentation. The application deadline is December 1st, 2013. Additional information about the vacancy can be obtained from: dr. B. Snel (email@example.com).
Conditions of employment: The candidate is offered a full-time position on a tenure track basis at the assistant professor level. The tenure track period is for 5 years, and after a successful evaluation this will be continued on a permanent basis. The salary is supplemented with a holiday bonus of 8% and an end-of-year bonus of 8.3% per year. In addition we offer: a pension scheme, a partially paid parental leave, flexible employment conditions. Conditions are based on the Collective Labour Agreement Dutch Universities. The research group will provide the candidate with necessary support on all aspects of the project. The gross salary is in the range between 3227 and maximum 5979 Euro per month.
- Fate of duplicated genes in plants with regards to their spatio-temporal expression and epigenetic status
- Mapping the origin of organelles in eukaryogenesis by integrating gene duplication information
- Predicting interactions and interacting residues among eukaryotic proteins using residue co-evolution
- Reparing missed gene prediction by pathway phylogenetic profiles
- Unravelling the order of deep duplications in the eukaryotic kinome
- Benchmarking orthology projection methods to use NCBI's refseq for interaction prediction
- Predicting functional residues by accelerated sequence evolution of orphaned interaction partners
- Automatic quantification of motif repeat evolution in cell division proteins
- Studying gene fusion, gene fission and failed gene predictions in eukaryotic proteomes
- Phylogenomics of the essential eukaryotic transcription factor II D complex
Schneider A, Seidl MF, Snel B (2013) Shared protein complex subunits contribute to explaining disrupted co-occurrence. PLoS Comput Biol. 9(7):e1003124.
Seidl MF, Schneider A, Govers F, Snel B (2013) A predicted functional gene network for the plant pathogen Phytophthora infestans as a framework for genomic biology. BMC Genomics. 14:483.
Jiang RH, de Bruijn I, Haas BJ, Belmonte R, Löbach L, Christie J, van den Ackerveken G, Bottin A, Bulone V, Díaz-Moreno SM, Dumas B, Fan L, Gaulin E, Govers F, Grenville-Briggs LJ, Horner NR, Levin JZ, Mammella M, Meijer HJ, Morris P, Nusbaum C, Oome S, Phillips AJ, van Rooyen D, Rzeszutek E, Saraiva M, Secombes CJ, Seidl MF, Snel B, Stassen JH, Sykes S, Tripathy S, van den Berg H, Vega-Arreguin JC, Wawra S, Young SK, Zeng Q, Dieguez-Uribeondo J, Russ C, Tyler BM, van West P. (2013) Distinctive expansion of potential virulence genes in the genome of the oomycete fish pathogen Saprolegnia parasitica. PLoS Genet. 9(6):e1003272.
Nijenhuis W, von Castelmur E, Littler D, De Marco V, Tromer E, Vleugel M, van Osch MH, Snel B, Perrakis A, Kops GJ (2013) A TPR domain-containing N-terminal module of MPS1 is required for its kinetochore localization by Aurora B. J Cell Biol. 201(2):217-31.
Seidl MF, Wang RP, Van den Ackerveken G, Govers F, Snel B (2012) Bioinformatic Inference of Specific and General Transcription Factor Binding Sites in the Plant Pathogen Phytophthora infestans. PLoS One (2012) 7(12):e51295.
Wind JJ, Peviani A, Snel B, Hanson J, Smeekens S (2012) ABI4: versatile activator and repressor. Trends Plant Sci. (2012)(12)00231-2
Berke L, Sanchez-Perez GF, Snel B (2012) Contribution of the epigenetic mark H3K27me3 to functional divergence after whole genome duplication in Arabidopsis. Genome Biol. (2012)13(10):R94.
Fokkens L, Hogeweg P, Snel B (2012) Gene duplications contribute to the overrepresentation of interactions between proteins of a similar age. BMC Evol Biol. (2012)12(1):99
Vleugel M, Hoogendoorn E, Snel B, Kops GJ. (2012) Evolution and function of the mitotic checkpoint. Dev Cell. (2012) 23(2):239-50.
Suijkerbuijk SJ, van Dam TJ, Karagöz GE, von Castelmur E, Hubner NC, Duarte AM, Vleugel M, Perrakis A, Rüdiger SG, Snel B, Kops GJ. (2012) The Vertebrate Mitotic Checkpoint Protein BUBR1 Is an Unusual Pseudokinase. Dev Cell. (2012) 22:1321-1329
de Lau WB, Snel B, Clevers HC. (2012) The R-spondin protein family. Genome Biol. (2012) 13:242
Stassen JH, Seidl MF, Vergeer PW, Nijman IJ, Snel B, Cuppen E, van den Ackerveken G.(2012) Effector identification in the lettuce downy mildew Bremia lactucae by massively parallel transcriptome sequencing. Mol Plant Pathol. (1. Feb 2012) [Epub ahead of print]
Seidl MF, Van den Ackerveken G, Govers F, Snel B (2012) Reconstruction of oomycete genome evolution identifies differences in evolutionary trajectories leading to present-day large gene families. Genome Biol Evol. (Jan 13. 2012) [Epub ahead of print]
Database independent proteomics analysis of the ostrich and human proteome. Altelaar AF, Navarro D, Boekhorst J, van Breukelen B, Snel B, Mohammed S, Heck AJ. (2012) Proc Natl Acad Sci U S A. (2012) 109:407-412
Mithoe SC, Boersema PJ, Berke L, Snel B, Heck AJ, Menke FL. (2012) Targeted quantitative phosphoproteomics approach for the detection of phospho-tyrosine signaling in plants. J Proteome Res. (2012) 11:438-448
Schluepmann H, Berke L,Sanchez-Perez GF (2011) Metabolism control over growth: a case for trehalose-6-phosphate in plants. J. Exp. Bot. (2011)
Prasad K, Grigg SP, Barkoulas M, Yadav RK, Sanchez-Perez GF, Pinon V, Blilou I, Hofhuis H, Dhonukshe P, Galinha C, Mähönen AP, Muller WH, Raman S, Verkleij AJ, Snel B, Reddy GV, Tsiantis M, Scheres B (2011) Arabidopsis PLETHORA Transcription Factors Control Phyllotaxis. Curr Biol (2011)
Cabral A, Stassen JHM, Seidl MF, Bautor J, Parker JE, et al. (2011) Identification of Hyaloperonospora arabidopsidis Transcript Sequences Expressed during Infection Reveals Isolate-Specific Effectors. PLoS ONE (2011) 6(5): e19328.
Ten Hove CA,De Jong M , Lapin D, Andel A, Sanchez-Perez GF, Tarutani Y, Suzuki Y, Heidstra R, Van den Ackerveken G (2011) Trans-Repression of Gene Activity Upstream of T-DNA Tagged RLK902 Links Arabidopsis Root Growth Inhibition and Downy Mildew Resistance. PLoS One (2011) 6(4): e19028
Ten Hove CA, Bochdanovits Z , Jansweijer VMA, Koning FG, Berke L, Sanchez-Perez GF, Scheres B, Heidstra R (2011) Probing the roles of LRR RLK genes in Arabidopsis thaliana roots using a custom T-DNA insertion set. Plant Molecular Biology (2011) May;76(1-2):69-83
Van Dam TJP, Bos JL, Snel B (2011) Evolution of the Ras-like small GTPases and their regulators. Small GTPases (2011) 2:1, 1-13
Ding VM, Boersema PJ, Foong LY, Preisinger C, Koh G, Natarajan S, Lee DY, Boekhorst J, Snel B, Lemeer S, Heck AJ, Choo A. (2011) Tyrosine phosphorylation profiling in fgf-2 stimulated human embryonic stem cells. PLoS One (2011) Mar;6(3):e17538
Seidl MF, Van Den Ackerveken G, Govers F, Snel B (2011) A domain-centric analysis of oomycete plant pathogen genomes reveals unique protein organization. Plant Physiology 155:628-644 (2011), (Published Online 30.11.2010)
Van Wageningen S, Kemmeren, Lijnzaad P, Margaritis T, Benschop JJ , de Castro IJ, Van Leenen D, Groot Koerkamp MJA, Ko CW, Miles AJ, Brabers N, Brok MO, Lenstra TL, Fiedler D , Fokkens L, Aldecoa R, Apweiler E, Taliadouros V, Sameith K, Van de Pasch LAL, Van Hooff SR, Bakker LV,.Krogan NJ, Snel B, Holstege FCP (2010) Functional Overlap and Regulatory Links Shape Genetic Interactionsbetween Signaling Pathways. Cell 143(6):991-1004,
Calis JJA, Sanchez-Perez GF, Kesmir C (2010) MHC class I molecules exploit the low G+C content of pathogen genomes for enhanced presentation. Eur J Immunol 2010 Jul, 40(10):2699-2709
Booijink CC, Boekhorst J, Zoetendal EG, Smidt H, Kleerebezem M, de Vos WM (2010) Metatranscriptome analysis of the human fecal microbiota reveals subject-specific expression profiles, with genes encoding proteins involved in carbohydrate metabolism being dominantly expressed Appl Environ Microbiol 2010 Aug, 76(16):5533-40. Epub 2010 Jun 18 PMID: 2056228
van Schaik W, Top J, Riley DR, Boekhorst J, Vrijenhoek JE, Schapendonk CM, Hendrickx AP, Nijman IJ, Bonten MJ, Tettelin H, Willems RJ (2010) Pyrosequencing-based comparative genome analysis of the nosocomial pathogen Enterococcus faecium and identification of a large transferable pathogenicity islandBMC Genomics 2010 Apr 14, 11:239 PMID: 20398277
Bennett T, van den Toorn A, Sanchez-Perez GF, Campilho A, Willemsen V, Snel B, Scheres B (2010) SOMBRERO, BEARSKIN1, and BEARSKIN2 Regulate Root Cap Maturation in Arabidopsis Plant Cell 2010, 22:640-654, PMID: 20197506
Fokkens L, Botelho SMC, Boekhorst J, Snel B (2010) Enrichment of homologs in insignificant BLAST hits by co-complex network alignment BMC Bioinformatics 2010, 11:86 doi:10.1186/1471-2105-11-86 PMID: 20152020
Kamikawa R, Sanchez-Perez GF, Sako Y, Roger AJ, Inagaki Y. (2009) Expanded phylogenies of canonical and non-canonical types of methionine adenosyltransferase reveal a complex history of these gene families in eukaryotes. Mol Phylogenet Evol 2009, 53(2):565-570
Boersema PJ, Foong LY, Ding VM, Lemeer S, van Breukelen B, Philp R, Boekhorst J, Snel B, den Hertog J, Choo AB and Heck AJ.(2009) In depth qualitative and quantitative profiling of tyrosine phosphorylation using a combination of phosphopeptide immuno-affinity purification and stable isotope dimethyl labeling.Mol Cell Proteomics. 9:84-99 PMID: 19770167
Seidl MF, Schultz J (2009) Evolutionary flexibility of protein complexes. BMC Evolutionary Biology 2009, 9:155. doi:10.1186/1471-2148-9-155
van Dam TJP, Rehmann H, Bos JL, Snel B (2009) Phylogeny of the CDC25 homology domain reveals rapid differentiation of Ras pathways between early animals and fungi. Cell Signal. 2009 Jun 27. doi:10.1016/j.cellsig.2009.06.004
Fokkens L and Snel B(2009) Cohesive versus flexible evolution of functional modules in eukaryotes.Fokkens L, Snel B.PLoS Comput Biol. 5, e1000276 PMID: 19180181
Szklarczyk R, Huynen MA and Snel B.(2008) Complex fate of paralogs.BMC Evol Biol. 8, 337 PMID: 19094234
Boekhorst J, van Breukelen B, Heck AJ, Snel B.Comparative phosphoproteomics reveals evolutionary and functional conservation of phosphorylation across eukaryotes.Genome Biol. 2008 9, R144.PMID: 18828897
van Dam TJP and Snel B(2008) Protein complex evolution does not involve extensive network rewiring.PLoS Comput Biol.4, e1000132.
Dutilh BE, Snel B, Ettema TJ and Huynen MA (2008) Signature Genes as a Phylogenomic Tool.Mol Biol Evol. 25, 1659-1667
Cordero OX, Snel B and Hogeweg P (2008) Coevolution of gene families in prokaryotes.Genome Res. 18, 462-468
Boekhorst J and Snel B (2007) Identification of homologs in insignificant blast hits by exploiting extrinsic gene properties.BMC Bioinformatics 8, 356
van Noort V*, Snel B* and Huynen MA (2007) Exploration of the omics evidence landscape: adding qualitative labels to predicted protein-protein interactions.Genome Biol. 8, R197 *Contributed equally
van der Heijden RT, Snel B, van Noort V and Huynen MA(2007) Orthology prediction at Scalable Resolution by Phylogenetic Tree analysis.BMC Bioinformatics 8, 83
Dutilh BE, van Noort V, van der Heijden RT, Boekhout T, Snel B and Huynen MA. (2007)Assessment of phylogenomic and orthology approaches for phylogenetic inference.Bioinformatics 23, 815-824
von Mering C, Jensen LJ, Kuhn M, Chaffron S, Doerks T, Kruger B, Snel B. and Bork P.(2007) STRING 7--recent developments in the integration and prediction of protein interactions.Nucleic Acids Res.35, D358-D362
Kuramae EE, Robert V, Snel B, Weiss M and Boekhout T(2006) Phylogenomics reveal a robust fungal tree of life.FEMS Yeast Res. 6,1213-1220
Kuramae EE, Robert V, Snel B and Boekhout T(2006) Conflicting phylogenetic position of Schizosaccharomyces pombe.Genomics 88, 387-393
Oti M, Snel B, Huynen MA and Brunner HG(2006) Predicting disease genes using protein-protein interactions.J. Med. Genet.43, 691-698
Strous M, Pelletier E, Mangenot S, Rattei T, Lehner A, Taylor MW, Horn H, Daims H, Bartol-Mavel D, Wincker P, Barbe V, Fonknechten N, Vallenet D, Segurens B, Schenowitz-Truong C, Medigue C, Collingro A, Snel B., Dutilh BE, op den Camp HJM., van der Drift C, Cirpus I, van de Pas-Schoonen KT, Harhangi HR, van Niftrik L, Schmid M, Keltjens J, van de Vossenberg J, Kartal B, Meier H, Frishman D, Huynen MA., Mewes HW, Weissenbach J, Jetten MSM, Wagner M , Le Paslier D(2006) Deciphering the evolution and metabolism of an anammox bacterium from a community genome.Nature, 440, 790-794
Gabaldon T, Snel B, van Zimmeren F, Hemrika W, Tabak H, Huynen MA (2006) Origin and evolution of the peroxisomal proteome.Biol. Direct, 1,8
Ciccarelli FD, Doerks T, von Mering C, Creevey CJ, Snel B,Bork P(2006) Toward automatic reconstruction of a highly resolved tree of life.Science,311,1283-1287
Dutilh BE, Huynen MA, Snel B (2006) A global definition of expression context is conserved between orthologs, but does not correlate with sequence conservation.BMC Genomics,7,10
Notebaart RA, Huynen MA, Teusink B, Siezen RJ, Snel B (2005) Correlation between sequence conservation and the genomic context after gene duplication.Nucleic Acids Res., 33,6164-6171
Snel B, Huynen MA, Dutilh BE (2005) Genome trees and the nature of genome evolution.Annu Rev Microbiol.,59,191-209
Huynen MA, Gabaldon T, Snel B (2005) Variation and evolution of biomolecular systems: searching for functional relevance. FEBS Lett., 579,1839-1845
Huynen MA, Spronk CA, Gabaldon T, Snel B (2005) Combining data from genomes, Y2H and 3D structure indicates thatBolA is a reductase interacting with a glutaredoxin. FEBS Lett., 579, 591-596
von Mering C, Jensen LJ, Snel B, Hooper SD, Krupp M, Foglierini M, Jouffre N, Huynen MA, Bork P (2005) STRING: known and predicted protein-protein associations, integrated and transferred across organisms.Nucleic Acids Res., 33 Database Issue:D433-437
Snel B, van Noort V and Huynen MA (2004) Gene co-regulation is highly conserved in the evolution of eukaryotes and prokaryotes.Nucleic Acids. Res., 32, 4725-4731
Huynen MA, Snel B, van Noort V (2004) Comparative genomics for reliable protein-function prediction from genomic data.Trends Genet., 20, 340-344
Dutilh BE, Huynen MA, Bruno WJ, Snel B (2004) The Consistent Phylogenetic Signal in Genome Trees Revealed by Reducing the Impact of Noise.J. Mol. Evol., 58, 527-539
Snel B. Huynen MA (2004) Quantifying modularity in the evolution of biomolecular systems.Genome Res., 14, 391-397
van Noort V, Snel B, Huynen MA (2004) The yeast coexpression network has a small-world, scale-free architecture and can be explained by a simple model.EMBO Rep., 5, 280-284
Morett E, Korbel JO, Rajan E, Saab-Rincon G, Olvera L, Olvera M, Schmidt S, Snel B, Bork P (2003) Systematic discovery of analogous enzymes in thiamin biosynthesis.Nat. Biotechnol. , 21 790-795
van Noort V, Snel B, Huynen MA (2003) Predicting gene function by conserved co-expression.Trends Genet., 19, 238-242
Huynen MA, Snel B, von Mering C, Bork P (2003) Function prediction and protein networks.Curr. Opin. Cell. Biol., 15, 191-198
von Mering C, Huynen M, Jaeggi D, Schmidt S, Bork P, Snel B (2003) STRING: a database of predicted functional associations between proteins.Nucleic Acids. Res., 31, 258-261
Huynen MA, Snel B (2003) Exploiting the variations in the genomic associations of genes to predict pathways and reconstruct their evolution.In: Frontiers in Computational Genomics 145-166 (Editors, Galperin, M. Y. & Koonin, E. V.) Caister Academic Press
Dandekar T, Snel B, Schmidt S, Lathe W, Suyama M, Huynen MA. Bork P (2002) Comparative Genome Analysis of the Mollicutes.In: Molecular Biology and Pathogenity of Mycoplasmas255-278 (Editors, Razin S, Herrmann R) Kluwer Academic / Plenum Publishers,
Schell MA, Karmirantzou M, Snel B, Vilanova D, Berger B, Pessi G, Zwahlen MC, Desiere F, Bork P, Delley M, Pridmore RD, Arigoni F (2002) The genome sequence of Bifidobacterium longum reflects its adaptation to the human gastrointestinal tract. Proc. Natl. Acad. Sci. USA, 22, 14422-14427
Snel B (2002) Comparative Genome Analysis and Genome Evolution Ph. D. Thesis Utrecht University
Snel B, Bork P, Huynen MA (2002) Conservation of gene co-regulation in prokaryotes and eukaryotes. Trends Biotechnol., 20, 410
von Mering C, Krause R, Snel B, Cornell M, Oliver SG, Fields S, Bork P (2002) Comparative assessment of large-scale data sets of protein-protein interactions. Nature, 417, 399-403
Snel B, Bork P, Huynen MA (2002) The identification of functional modules from the genomic association of genes. Proc. Natl. Acad. Sci. USA, 99, 5890-5895
Korbel JO+, Snel B+, Huynen MA, Bork P (2002).SHOT: a web server for the construction of genome phylogenies. Trends Genet., 18, 158-162
+ These authors contributed equally.
Snel B, Bork P, Huynen, MA (2002) Genomes in Flux: The Evolution of Archaeal and Proteobacterial Gene Content Genome Res., 12, 17-25
Huynen MA, Snel B, Bork P, Gibson TJ (2001) The phylogenetic distribution of frataxin indicates a role in iron-sulfur cluster protein assembly. Hum. Mol. Genet., 10, 2463-2468
Huynen MA, Snel B, Bork P (2001) Inversions and the dynamics of eukaryotic gene order. Trends Genet., 17, 304-306
Lathe III WC, Snel B,Bork P (2000) Gene context conservation of a higher order than operons. Trends Biochem. Sci., 25, 469-474
Bork P, Snel B, Lehmann G, Suyama M, Dandekar T, Lathe III W, Huynen MA (2000) Comparative genome analysis: exploiting the context of genes to infer evolution and predict function. In: Comparative Genomics, emprical and analytical approaches to gene order dynamics, map alignment and the evolution of gene families, Computational biology series volume 1. 281-294 (Editors: Sankoff, D., & Nadeau, J. H.) Kluwer academic publishers
Snel B, Lehmann G, Bork P, Huynen MA (2000) STRING: A web-server to retrieve and display the repeatedly occurring neighbourhood of a gene. Nucleic Acids Res., 28, 3442-3444
This web-server is available at
Dandekar T, Huynen M, Regula JT, Ueberle B, Zimmermann CU, Andrade MA, Doerks T, Sanchez-Pulido L, Snel B, Suyama M, Yuan YP, Herrmann R, Bork, P (2000) Re-annotating the Mycoplasma pneumoniae genome sequence: adding value, function and reading frames. Nucleic Acids Res., 28, 3278-3288
Huynen MA, Snel B, Lathe III W, Bork P (2000) Predicting protein function by genomic context: quantative evaluation and qualitativeinferences Genome Res., 10, 1204-1210
Huynen MA, Snel B, Lathe III W, Bork P (2000) Exploitation of gene context. Curr. Opin. Struct. Biol., 10, 366-370
Huynen MA, Snel B (2000) Gene and context: integrative approaches to genome analysis. Adv. Prot. Chem., 54, 345-380
Snel B, Bork P, Huynen MA (2000) Genome evolution: gene fusion versus gene fission. Trends Genet., 16, 9-11
Huynen MA, Snel B, Bork P (1999) Lateral Gene Transfer, Genome Surveys, and the Phylogeny of Prokaryotes Science, 286, 1443a (in Technical Comments)
Dandekar T, Schuster S, Snel B, Huynen MA, Bork P (1999) Pathway alignment: application to the comparative analysis of glycolytic enzymes. Biochem J., 343, 115-124
Bork P, Doerks T, Springer TA ,Snel B. (1999) Domains in plexins: links to integrins and transcription factors. Trends Biochem. Sci., 24, 261-263
Bork P, Dandekar T, Snel B, Huynen MA (1999) Genome Comparsions to Monitor Molecular Evolution. In: MicrobialEvolution and Infection. 80-92 (Goebel, U.B., Ruf, B.R.) Einhorn-Presse Verlag Reinbek
Snel B, Bork P, Huynen MA (1999) Genome phylogeny based on gene content. Nature Genet., 21,108-110
Dandekar T, Snel B, Huynen MA, Bork P (1998) Conservation of gene order: a fingerprint of proteins that physicallyinteract. Trends Biochem. Sci., 23, 324-328