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Publications

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Review articles

  1. Z. N. Oltvai and A.-L. Barabási
    Life's complexity pyramid
    Science 298, 763-764 (2002)
  2. Albert-László Barabási
    The Physics of the Web
    Physics World (July 2001)
  3. R. Albert and A.-L. Barabási
    Statistical mechanics of complex networks
    Reviews of Modern Physics 74, 47 (2002)
  4. A.-L. Barabási and E. Bonabeau
    Scale-Free Networks
    Scientific American 288, 60-69 (2003)
  5. A.-L. Barabási and Zoltán N. Oltvai
    Network Biology: Understanding the Cells's Functional Organization
    Nature Reviews Genetics 5, 101-113 (2004)
  6. Albert-László Barabási
    Taming complexity
    Nature Physics 1, 68-70 (2005)
  7. Albert-László Barabási
    Network medicine - From obesity to the 'diseasome'
    New England Journal of Medicine 357, 404-407 (2007) [ PDF ]
  8. Albert-László Barabási
    The architecture of complexity
    IEEE Control Systems Magazine 27:4, 33-42 (2007) [ PDF ]

All Publications (by Date)

  1. R. Albert, H. Jeong, and A.-L. Barabási
    Diameter of the World Wide Web
    Nature 401, 130-131 (1999). [ PDF ] [ cond-mat/9907038 ]
  2. A.-L. Barabási and R. Albert
    Emergence of scaling in random networks
    Science 286, 509-512 (1999). [ PDF ] [ cond-mat/9910332 ]
  3. A.-L. Barabási, R. Albert, and H. Jeong
    Mean-field theory for scale-free random networks
    Physica A 272, 173-187 (1999). [ PDF ] [ cond-mat/9907068 ]
  4. E. Ravasz, Y. Brechet, T. Vicsek, A.-L. Barabási
    The sound of many hands clapping
    Nature 403, 849-850 (2000) [PDF]
  5. A.-L. Barabási, R. Albert, and H. Jeong
    Scale-free characteristics of random networks: The topology of the World Wide Web
    Physica A 281, 69-77 (2000). [ PDF ]
  6. H. Jeong, B. Tombor, R. Albert, Z.N. Oltvai, and A.-L. Barabási
    The large-scale organization of metabolic networks
    Nature 407, 651-654 (2000). [ PDF ] [ cond-mat/0010278 ]
  7. Response to comments on “Emergence of scaling…”
    R. Albert, A.-L. Barabási, H. Jeong, and G. Bianconi

    Power-law distribution of the World Wide Web
    Science 287 2115a (2000). [ PDF ]
  8. R. Albert and A.-L. Barabási
    Dynamics of complex systems: Scaling laws for the period of Boolean Networks
    Physical Review Letters 84, 5660-5663 (2000). [ PDF ]
  9. R. Albert and A.-L. Barabási
    Topology of evolving networks: Local events and universality
    Physical Review Letters 85, 5234 (2000). [ PDF ] [ cond-mat/0005085 ]
  10. R. Albert, H. Jeong, and A.-L. Barabási
    Error and attack tolerance in complex networks
    Nature 406 , 378 (2000). [ PDF ] [ cond-mat/0008064 ]
  11. A.-L. Barabási
    The Physics of the Web
    Physics World (July 2001). [ PDF Not Available ][ Link ]
  12. H. Jeong, S. Mason, A.-L. Barabási and Zoltan N. Oltvai
    Lethality and centrality in protein networks
    Nature 411, 41-42 (2001). [ PDF ] [ Supplementary Materials  1,   2  ]
  13. J. Podani, Z.N. Oltvai, H. Jeong, B.Tombor, A.-L. Barabási and E. Szathmáry:
    Comparable system-level organization of Archaea and Eukaryotes
    Nature Genetics 29, 54-56 (2001). [ PDF ] [ cond-mat/0110378 ] [ Supplementary Material ]
  14. G. Bianconi and A.-L. Barabási
    Competition and multiscaling in evolving networks
    Europhysics Letters 54 (4), 436-442 (2001). [ PDF ] [ cond-mat/0011029 ]
  15. G. Bianconi and A.-L. Barabási
    Bose-Einstein condensation in complex networks
    Physical Review Letters 86, 5632-5635 (2001). [ PDF ] [ cond-mat/0011029 ]
  16. S.H. Yook, H. Jeong, A.-L. Barabási and Y. Tu
    Weighted evolving networks
    Physical Review Letters 86, 5835-5838 (2001). [ PDF ] [ cond-mat/0101309 ]
  17. I. J. Farkas, I. Derényi, A.-L. Barabási, and Tamás Vicsek
    Spectra of "real-world" graphs: Beyond the semicircle law
    Physical Review E 63, 026704 (2001). [ PDF ] [ cond-mat/0102335 ] [ Resources ]
  18. A.-L. Barabási, E. Ravasz and T. Vicsek
    Deterministic scale-free networks
    Physica A 299, 559-564 (2001). [ PDF ] [ cond-mat/0107419 ]
  19. Z. N. Oltvai and A.-L. Barabási
    Life's complexity pyramid
    Science 298, 763-764 (2002). [ PDF ]
  20. E. Ravasz, A. L. Somera, D. A. Mongru, Z. N. Oltvai, and A.-L. Barabási
    Hierarchical organization of modularity in metabolic networks
    Science 297, 1551-1555 (2002). [ PDF ] [ cond-mat/0209244 ] [ Supplementary Material ]
  21. A.-L. Barabási, H. Jeong, R. Ravasz, Z. Néda, T. Vicsek, and A. Schubert
    On the topology of the scientific collaboration networks
    Physica A 311, 590-614 (2002). [ PDF ] [ cond-mat/0104162 ]
  22. S.-H. Yook, H. Jeong, and A.-L. Barabási
    Modeling the Internet's large-scale topology
    Proceedings of the Nat'l Academy of Sciences 99, 13382-13386 (2002). [ PDF ] [ abstract ] [ cond-mat/0107417 ]
  23. R. J. Williams, E. L. Berlow, J. A. Dunne, A.-L. Barabási, and N. D. Martinez
    Two degrees of separation in complex food webs
    Proceedings of the Nat'l Academy of Sciences 99, 12913-12916 (2002). [ PDF ] [ abstract ]
  24. Z. Dezso A.-L. Barabási
    Halting viruses in scale-free networks. Can we stop the AIDS epidemic?
    Physcial Review E 65, 055103(R) (2002). [ PDF ] [ cond-mat/0107420 ]
  25. R. Albert, A.-L. Barabási
    Statistical mechanics of complex networks
    Review of Modern Physics 74, 47-97 (2002). [ PDF ] [cond-mat/0106096 ]
  26. N. Schwartz, R. Cohen, D. ben-Avrahm, A.-L. Barabási, S. Havlin
    Percolation in directed scale-free networks
    Physical Review E 66, 015104(R) (2002). [ PDF ] [ cond-mat/0204523 ]
  27. I. Farkas, I. Dereny, H. Jeong, Z. Neda, Z.N. Oltvai, E. Ravasz, A. Schurbert, A.-L. Barabási, T. Vecsek
    Networks in life: Scaling properties and eigenvalue spectra
    Physica A 314, 25-34 (2002). [ PDF ]  [ abstract ]
  28. H. Jeong, Z. N. Oltvai, A.-L. Barabási
    Prediction of protein essentiality based on genomic data
    ComplexUs 1, 19-28 (2003). [ PDF ] [ Supplementary Material ] [ Article (References) ]
  29. I. Farkas, H. Jeong, T. Vicsek, A.-L. Barabási, Z.N. Oltvai
    The topology of transcription regulatory network in the yeast, Saccharomyces cerevisiae
    Physica A 318, 601-612 (2003). [ PDF ] [ Supplementary Material ] [ Fig(s). 1, 2, 3 & 4 ]
  30. G. Balázsi, K. A. Kay, A.-L. Barabási, Z. Oltvai
    Spurious spatial periodicity of co-expression in microarray data due to printing design
    Nucleic Acids Research 31, 4425-4433 (2003). [ PDF ] [ Supplementary Material ]
  31. S. Y. Gerdes, M. D. Scholle, J. W. Campbell, G. Balázsi, E. Ravasz, M. D. Daugherty, A. L. Somera, N. C. Kyrpides,  I. Anderson, M. S. Gelfand, A. Bhattacharya, V. Kapatral,  M. D'Souza, M. V. Baev, Y. Grechkin, F. Mseeh, M. Y.  Fonstein, R. Overbeek, A.-L. Barabási, Z. N. Oltvai, A. L. Osterman
    Experimental Determination and System Level Analysis of Essential Genes in Escherichia coli MG1655
    Journal of Bacteriology 185, 5673-5684 (2003). [ PDF ] [ Supplementary Materials  S1,   S2,    S6  ] [ Results ]
    [ Assessments ] [ Foot Printing ]
  32. S. Wuchty, Z. N. Oltvai, A.-L. Barabási
    Evolutionary conservation of motif constituents in the yeast protein interaction network
    Nature Genetics 35, 176-179 (2003). [ PDF ] [ Supplementary Material ] [ News and Views
  33. Z. Dezso, Z. N. Oltvai, A.-L. Barabási
    Bioinformatics analysis of experimentally determined protein complexes in the yeast saccharomyces cerevisiae
    Genome Research 13, 2450-2454 (2003). [ PDF ] [ Supplementary Material ]
  34. H. Jeong, Z. Néda, A.-L. Barabási
    Measuring preferential attachment for evolving networks
    Europhysics Letters 61, 567-572 (2003). [ PDF ] [ cond-mat/0104131 ]
  35. E. Ravasz, A.-L. Barabási
    Hierarchical organization in complex networks
    Physical Review E 67, 026112 (2003). [ PDF ] [ cond-mat/0206130 ]
  36. R. Dobrin, Q.K. Beg , A.-L. Barabási, Z. N. Oltvai
    Aggregation of topological motifs in the Escherichia coli tranascriptional
    BMC Bioinformatics 5: 10 (2004). [ PDF ] [ Supplementary Material ]
  37. A.-L. Barabási and Z. N. Oltvai
    Network Biology: Understanding the cells's functional organization
    Nature Reviews Genetics 5, 101-113 (2004). [ PDF]
  38. M.A. de Menezes, S. Balensiefer, J. Brockman
    Hot spots and universality in network dynamics
    European Physical Journal B 38, 169-175 (2004) [PDF]
  39. A. Barrat, A.-L. Barabási, G. Calarelli, P. de los Rios
    Virtual round table research on ten leading questions for network research
    European Physical Journal B 38, 143-145 (2004) [PDF]
  40.  S. Y. Yook, Z. N. Oltvai, A.-L. Barabási
    Functional and topological characterization of protein interaction networks
    Proteomics 4, 928-942 (2004). [ PDF ] [ Supplementary Material ]
  41. E. Almaas, B. Kovacs, T. Vicsek, Z.N. Oltvai and A.-L. Barabási
    Global organization of metabolic fluxes in the bacterium Escherichia coli
    Nature 427, 839-843 (2004). [ PDF ] [ Supplementary Material ]
  42. M. Argollo de Menezes, Albert-László Barabási
    Fluctuations in network dynamics
    Physical Review Letters 92, 028701 (2004). [ PDF ]
  43. A. Vazquez, R. Dobrin, D. Sergi, J.-P. Eckmann, Z.N. Oltvai, A.-L. Barabási
    The topological relationship between the large-scale attributes and local interactions patterns of complex networks
    Proceedings of the Nat'l Academy of Sciences 101, 17940-17945 (2004). [ PDF ] [ Supplementary Material S1, S2, S3, S4, S5, S6, S7, S8 ]
  44. M. Argollo de Menezes, A.-L. Barabási
    Separating internal and external dynamics of complex systems
    Phys. Rev. Lett. 93, 068701 (2004). [ PDF ]
  45. Gergely Palla, Illés Farkas, Imre Derényi, Albert-László Barabási, and Tamás Vicsek
    Reverse engineering of linking preferences from network restructuring
    Physical Review E 70, 046115 (2004). [ PDF ] [ Abstract ]
  46. Z. Eisler, J. Kertesz, S.-H. Yook, A.-L. Barabási
    Multiscaling and non-universality in fluctuations of driven complex systems
    Europhysics Letters 69, pp. 664-670 (2005). [ PDF ] [ References ]
  47. P. J. Macdonald, E. Almaas, A.-L. Barabási
    Minimum spanning trees of weighted scale-free networks
    Europhysics Letters 72 (2): 308-314 (2005). [ PDF ]
  48. M.A. Makeev, I. Derenyi I, A.-L. Barabási
    Emergence of large-scale vorticity during diffusion in a random potential under an alternating bias
    Physical Review E 71 (2), 026112 (2005). [ PDF ]
  49. Albert-László Barabási
    Network Theory-The emergence of the creative enterprise
    Science 308, 639 (2005). [ PDF ]
  50. Albert-László Barabási
    The origin of bursts and heavy tails in human dynamics
    Nature 207, 435 (2005). [ PDF ] [ Supplementary Material ]
  51. A. Vázquez, J. G. Oliveira, A.-L. Barabási
    Inhomogeneous evolution of subgraphs and cycles in complex networks
    Physical Review E 71, 025103 (2005). [ PDF ]
  52. G. Balázsi, A.-L. Barabási, Z. N. Oltvai
    Topological units of environmental signal processing in the transcriptional regulatory network of Escherichia coli
    Proceedings of the Nat'l Academy of Sciences 102: 7841-7846 (2005). [ PDF ] [ Supplementary Material A1, A2, A3, T2, T3, T4, T5 ]
  53. J. G. Oliveira, A.-L. Barabási
    Darwin and Einstein correspondence patterns
    Nature 437, 1251 (2005) . [ PDF ] [ Supplementary Materials ]
  54. Albert-László Barabási
    Taming complexity
    Nature Physics 1, 68-70 (2005). [ PDF ]
  55. A. Vázquez
    Exact results for the Barabási model of Human Dynamics
    Physical Review Letters 95, 248701 (2005). [ PDF ]
  56. E. Almaas, Z. N. Oltvai, A.-L. Barabási
    The activity reaction core and plasticity of metabolic networks
    PLoS Computational Biology 1, 0557-0563 (2005). [ PDF ] [ Full-Text ] [ Protocol S1 ] [ Table S1 ]
  57. S. Wuchty, A.-L. Barabasi, M.T. Ferdig
    Stable evolutionary signal in a Yeast protein interaction network
    BMC Evolutionary Biology 6: Art. No. 8 (2006). [ PDF ]
  58. G. Madey, G. Szabó, A.L. Barabási
    WIPER: The Integrated Wireless Phone-Based Emergency Response System
    Computational Science--ICCS 2006: 6th International Conference, Reading, UK, May 2006
    Lecture Notes in Computer Science 3993, 417 (2006). [ PDF ]
  59. J.G. Oliveira, A.-L. Barabási
    Correspondence patterns- Mechanisms and models of human dynamics - Reply
    Nature 441, E5-E6 (2006) [PDF]
  60. A. Vázquez, J. G. Oliveira, Z. Dezsö, K.-I. Goh, I. Kondor, A.-L. Barabási
    Modeling bursts and heavy tails in human dynamics
    Physical Review E 73, 036127 (2006). [ PDF ]
  61. C. A. Hidalgo, A. Castro, C. Rodriguez-Sickert
    The effect of social interactions in the primary life cycle of motion pictures
    New Journal of Physics 8, 52 (2006) [ PDF ]
  62. J. Lim, T. Hao, C. Shaw, A.J. Patel, G. Szabó , J.-F. Rual, C.J. Fisk, N. Li, A. Smolyar, D.E. Hill, A.-L. Barabási, M. Vidal, H.Y. Zoghbi
    A protein-protein interaction network for human inherited ataxias and disorders of Purkinje cell degeneration
    Cell 125, 801 (2006). [ PDF ]
  63. Z. Dezso, E. Almaas, A. Lukacs, B. Racz, I. Szakadat, A.-L. Barabasi
    Dynamics of information access on the web
    Physical Review E 73 (6): Art. No. 066132 Part 2, (2006). [ PDF ]
  64. C. Hidalgo, A.-L. Barabasi
    Inter-event tIme of uncorrelated and seasonal systems
    Physica A 369, 877-883 (2007) [PDF]
  65. J.-P. Onnela, J. Saramäki, J. Hyvönen, G. Szabó, D. Lazer, K. Kaski, J. Kertész, and A.-L. Barabási
    Structure and tie strengths in mobile communication networks
    Proceeding of the National Academy of Sciences, (2007). [ PDF ] [ supplemantary material ]
  66. Marta C. González and Albert-László Barabási
    Complex networks: From data to models
    Nature Physics 3, 224 - 225 (2007). [ PDF ]
  67. Gergely Palla, A.-L. Barabási, Tamas Vicsek
    Quantifying social group evolution
    Nature 446, 664-667 (2007). [PDF]
  68. A. Vázquez, B. Rácz , A. Lukács , A.-L. Barabási
    Impact of non-poissonian activity patterns of spreading process
    Physical Review Letters 98, 158702 (2007). [ PDF ]
  69. Jukka-Pekka Onnela, Jari Saramäki, Jörkki Hyvönen, Gábor Szabó, M Argollo de Menezes,
    Kimmo Kaski, Albert-László Barabási and János Kertèsz

    Analysis of a large-scale weighted network of one-to-one human communication
    New Journal of Physics 9, 179 (8 June 2007). [ PDF ]
  70. D. Dupuy, N. Bertin, C. A. Hidalgo R., K. Venkatesan, D. Tu, D. Lee, J. Rosenberg, N. Svrzikapa, A. Blanc, A. Carnec, A.-R. Carvunis, R. Pulak, J. Shingles, J. Reece-Hoyes, R. Newbury, R. Viveiros, W. A. Mohler, C. Le Peuch, I. A. Hope, R. Johnsen, D. Moerman, A.-L. Barabási, D. Baillie and M. Vidal
    Genome-scale analysis of in vivo spatiotemporal promoter activity in C. elegans
    Nature Biotechnology 25 (6), 663-668 (June 6, 2007). [ PDF ]
  71. V. Vermeirssen, M. Inmaculada Barrasa, C. A. Hidalgo R., J. Aurielle, B. Babon, R. Sequerra, L. Doucette-Stamm, A.-L. Barabási, A. J. M. Walhout
    Transcription factor modularity in a gene-centered C. elegans protein-DNA interaction network
    Genome Research 17, 1061-1071 (July 2007). [ PDF ] [ Supplemental Materials ]
  72. C. A. Hidalgo. R. B. Klinger, A.-L. Barabási, and R. Haussmann
    The product space conditions the development of nations
    Science 317, (2007) [ Website ]
  73. Albert-László Barabási
    Network medicine - from obesity to the "diseasome"
    New England Journal of Medicine 357, No. 4, 404-407 (July 2007)
  74. Q. K. Beg, A. Vazquez, J. Ernst, M. A. de Menezes, Z. Bar-Joseph, A.-L. Barabási, and Z. N. Oltvai
    Intracellular crowding defines the mode and sequence of substrate uptake by Escherichia coli and constrains its metabolic activity
    Proc. of the Nat'l Academy of Sciences 104, No. 31, 12663-12668 (2007)
  75. K-I. Goh, M.E. Cusick, D, Valle, B. Childs, M. Vidal, and A.-L. Barabási
    The human disease network

    Proc. of the National Academy of Sciences 104, 8685 (2007) [ PDF ] [ Poster ] [ Supplementary Materials ]
  76. J. Park, A.-L. Barabási
    Distribution of node characteristics in complex networks
    Proc. of the National Academy of Sciences 104, 17916-17920 (2007) [ PDF ] [Supplementary Materials]
  77. J. Loscalzo. I. Kohane, and A.-L. Barabási
    Human disease classification in the postgenomic era: A complex systems approach to human pathobiology
    Molecular Systems Biology 3, 179 (2007) [ PDF ]
  78. M. A. Yildirim, K.-L. Goh, M.E. Cusick, A.-L. Barabási, and M. Vidal
    Drug-target network
    Nature Biotechnology 25:10, 1119-1126 (2007) [ PDF ] [ Supplementary Material ]
  79. K.-L. Goh, A.-L. Barabási
    Bustiness and memory in complex systems
    Europhysics Letters 81, 48002 (2008) [ PDF ]

Ten Most Cited Publications

  1. Albert-László Barabási and Réka Albert
    Emergence of scaling in random networks
    Science 286, 509-512 (1999). [ PDF ] [ cond-mat/9910332 ]
  2. Réka Albert and Albert-László Barabási
    Statistical mechanics of complex networks
    Review of Modern Physics 74, 47-97 (2002). [ PDF ] [cond-mat/0106096 ]
  3. H. Jeong, B. Tombor, R. Albert, Z.N. Oltvai, and A.-L. Barabási
    The large-scale organization of metabolic networks
    Nature 407, 651-654 (2000). [ PDF ] [ cond-mat/0010278 ]
  4. R. Albert, H. Jeong, and A.-L. Barabási
    Error and attack tolerance in complex networks
    Nature 406 , 378 (2000). [ PDF ] [ cond-mat/0008064 ]
  5. R. Albert, H. Jeong, and A.-L. Barabási
    Diameter of the World Wide Web
    Nature 401, 130-131 (1999). [ PDF ] [ cond-mat/9907038 ]
  6. H. Jeong, S. Mason, A.-L. Barabási and Zoltan N. Oltvai
    Lethality and centrality in protein networks
    Nature 411, 41-42 (2001). [ PDF ] [ Supplementary Materials  1,   2  ]
  7. E. Ravasz, A. L. Somera, D. A. Mongru, Z. N. Oltvai, and A.-L. Barabási
    Hierarchical organization of modularity in metabolic networks
    Science 297, 1551-1555 (2002). [ PDF ] [ cond-mat/0209244 ] [ Supplementary Material ]
  8. A.-L. Barabási, R. Albert, and H. Jeong
    Mean-field theory for scale-free random networks >
    Physica A 272, 173-187 (1999). [ PDF ] [ cond-mat/9907068 ]
  9. Réka Albert and Albert-László Barabási
    Topology of evolving networks: Local events and universality
    Physical Review Letters 85, 5234 (2000). [ PDF ] [ cond-mat/0005085 ]
  10. Albert-László Barabási and Zoltán N. Oltvai
    Network Biology: Understanding the cells's functional organization
    Nature Reviews Genetics 5, 101-113 (2004). [ PDF ]

Book Chapters

  1. S. Wuchty, E. Ravasz and A.-L. Barabási
    The Architecture of Biological Networks
    in T.S. Deisboeck, J. Yasha Kresh and T.B. Kepler (eds.)
    Complex Systems in Biomedicine
    Kluwer Academic Publishing, New York (2003). [ PDF ]
  2. A.L. Barabási, Z. Deszo, E. Ravasz, S. H. Yook, and Z. Oltvai
    Scale-free and hierarchical structures in complex networks
    (to appear in Sitges Proceedings on Complex Networks, 2004). [ PDF ]
  3. Albert-Lászlo Barabási
    Science of Networks from Society to the Web
    in Kristof Nyiri (ed.)
    A Sense of Place: The Global and the Local in Mobile Communication
    Passagen Verlag, Vienna (2005). [ PDF; not available]
  4. E. Almaas and A.-L. Barabási
    The Architecture of Complexity: From the WWW to Cellular Metabolism
    in A.T. Skjeltorp and A. V. Belushkin (eds.)
    Dynamics of Complex Interconnected Systems: Networks and Bioprocesses
    NATO Sciences Series, Springer and IOS Press Amsterdam (2006).

Talks (.ppt)

  1. Albert-László Barabási
    The architecture of complexity, ASIST Annual Conference
    2006 Austin, TX [ PPT ]
  2. Albert-László Barabási, Zoltán N. Oltvai, H. Jeong, R. Albert, E. Ravasz, G. Bianconi, E. Almaas
    The Architecture of Complexity: From the topology of the WWW to cell's genetic network
    2005 Norway [ PPT ]
  3. Albert-László Barabási
    The Architecture of Complexity: From the WWW to network biology
    2004 Princeton [ PPT ]
  4. Albert-László Barabási, Zoltán N. Oltvai, H. Jeong, R. Albert, E. Ravasz, G. Bianconi, E. Almaas
    The Architecture of Complexity: From the topology of the WWW to cell's genetic network
    2004 India [ PPT ]
  5. Albert-László Barabási,
    Linked: Networks from Biology to the World Wide Web
    [ Audio-English ] [ Audio-Hungarian ]

Journal articles

Biological Networks

  1. H. Jeong, B. Tombor, R. Albert, Z.N. Oltvai, and A.-L. Barabási
    The large-scale organization of metabolic networks
    Nature 407, 651-654 (2000). [ PDF ] [ cond-mat/0010278 ]
  2. H. Jeong, S. Mason, A.-L. Barabási and Zoltan N. Oltvai
    Lethality and centrality in protein networks
    Nature 411, 41-42 (2001). [ PDF ] [ Supplementary Materials  1,   2  ]
  3. R. J. Williams, E. L. Berlow, J. A. Dunne, A.-L. Barabási, and N. D. Martinez
    Two degrees of separation in complex food webs
    Proceedings of the Nat'l Academy of Sciences 99, 12913-12916 (2002). [ PDF ] [ abstract ]
  4. J. Podani, Z.N. Oltvai, H. Jeong, B.Tombor, A.-L. Barabási and E. Szathmáry:
    Comparable system-level organization of Archaea and Eukaryotes
    Nature Genetics 29, 54-56 (2001). [ PDF ] [ cond-mat/0110378 ] [ Supplementary Material ]
  5. Zoltan N. Oltvai and Albert-László Barabási
    Life's complexity pyramid
    Science 298, 763-764 (2002). [ PDF ]
  6. E. Ravasz, A. L. Somera, D. A. Mongru, Z. N. Oltvai, and A.-L. Barabási
    Hierarchical organization of modularity in metabolic networks
    Science 297, 1551-1555 (2002). [ PDF ] [ cond-mat/0209244 ] [ Supplementary Material ]
  7. H. Jeong, Z. N. Oltvai, and A.-L. Barabási
    Prediction of protein essentiality based on genomic data
    ComplexUs 1, 19-28 (2003). [ PDF ] [ Supplementary Material ] [ Article (References) ]
  8. I. Farkas, H. Jeong, T. Vicsek, A.-L. Barabási, and Z.N. Oltvai
    The topology of transcription regulatory network in the yeast, Saccharomyces cerevisiae
    Physica A 318, 601-612 (2003). [ PDF ] [ Supplementary Material ] [ Fig(s). 1, 2, 3 & 4 ]
  9. G. Balázsi, K. A. Kay, A.-L. Barabási and Z. Oltvai
    Spurious spatial periodicity of co-expression in microarray data due to printing design
    Nucleic Acids Research 31, 4425-4433 (2003). [ PDF ] [ Supplementary Material ]
  10. S. Y. Gerdes, M. D. Scholle, J. W. Campbell, G. Balázsi, E. Ravasz, M. D. Daugherty, A. L. Somera, N. C. Kyrpides,  I. Anderson, M. S. Gelfand, A. Bhattacharya, V. Kapatral,  M. D'Souza, M. V. Baev, Y. Grechkin, F. Mseeh, M. Y.  Fonstein, R. Overbeek, A.-L. Barabási, Z. N. Oltvai, and A. L. Osterman
    Experimental Determination and System Level Analysis of Essential Genes in Escherichia coli MG1655
    Journal of Bacteriology 185, 5673-5684 (2003). [ PDF ] [ Supplementary Materials  S1, S2, S6  ] [ Results ]
    [ Assessments ] [ Foot Printing ]
  11. S. Wuchty, Z. N. Oltvai and A.-L. Barabási
    Evolutionary conservation of motif constituents in the yeast protein interaction network

    Nature Genetics 35, 176-179 (2003). [ PDF ] [ Supplementary Material ] [ News and Views
  12. Z. Dezso, Z. N. Oltvai, and A.-L. Barabási
    Bioinformatics analysis of experimentally determined protein complexes in the yeast saccharomyces cerevisiae
    Genome Research 13, 2450-2454 (2003). [ PDF ] [ Supplementary Material ]
  13. R. Dobrin, Q.K. Beg and A.-L. Barabási
    Aggregation of topological motifs in the Escherichia coli tranascriptional
    BMC Bioinformatics 5: 10 (2004). [ PDF ] [ Supplementary Material ]
  14. Albert-László Barabási and Zoltán N. Oltvai
    Network Biology: Understanding the Cells's Functional Organization
    Nature Reviews Genetics 5, 101-113 (2004). [ PDF ]
  15.  S. Y. Yook, Z. N. Oltvai and A.-L. Barabási
    Functional and topological characterization of protein interaction networks
    Proteomics 4, 928-942 (2004). [ PDF ] [ Supplementary Material ]
  16. E. Almaas, B. Kovacs, T. Vicsek, Z.N. Oltvai and A.-L. Barabási
    Global organization of metabolic fluxes in the bacterium Escherichia coli
    Nature 427, 839-843 (2004). [ PDF ] [ Supplementary Material ]
  17. A. Vazquez, R. Dobrin, D. Sergi, J.-P. Eckmann, Z.N. Oltvai, A.-L. Barabási
    The topological relationship between the large-scale attributes and local interactions patterns of complex networks
    Proceedings of the Nat'l Academy of Sciences 101, 17940-17945 (2004). [ PDF ] [ Supplementary Material S1, S2, S3, S4, S5, S6, S7, S8 ]
  18. G. Balázsi, A.-L. Barabási, and Z. N. Oltvai
    Topological units of environmental signal processing in the transcriptional regulatory network of Escherichia coli
    Proceedings of the Nat'l Academy of Sciences 102: 7841-7846. (2005) [ PDF ] [ Supplementary Material a1, a2, a3, t2, t3, t4, t5 ]
  19. E. Almaas, Z. N. Oltvai and A.-L. Barabási
    The Activity Reaction Core and Plasticity of Metabolic Networks
    PLoS Computational Biology 1, 0557-0563 (2005). [ PDF ] [ Full-Text ] [ Protocol S1 ] [ Table S1 ]
  20. S. Wuchty, A.-L. Barabasi, M.T. Ferdig
    Stable evolutionary signal in a Yeast protein interaction network
    BMC Evolutionary Biology 6: Art. No. 8 (2006). [ PDF ]
  21. J. Lim, T. Hao, C. Shaw, A.J. Patel, G. Szabó , J.-F. Rual, C.J. Fisk, N. Li, A. Smolyar, D.E. Hill, A.-L. Barabási, M. Vidal, H.Y. Zoghbi
    A protein-protein interaction network for human inherited ataxias and disorders of Purkinje cell degeneration

    Cell 125, 801 (2006). [ PDF ]
  22. Denis Dupuy, Nicolas Bertin, César A. Hidalgo R., Kavitha Venkatesan, Domena Tu, David Lee, Jennifer Rosenberg, Nenad Svrzikapa, Aurélie Blanc, Alain Carnec, Anne-Ruxandra Carvunis, Rock Pulak, Jane Shingles, John Reece-Hoyes, Rebecca Newbury, Ryan Viveiros, William A. Mohler, Christian Le Peuch, Ian A. Hope, Robert Johnsen, Don Moerman, Albert-László Barabási, David Baillie and Marc Vidal
    Genome-scale analysis of in vivo spatiotemporal promoter activity in C. elegans
    Nature Biotechnology 25 (6), 663-668 (June 6, 2007). [ PDF ]
  23. Vanessa Vermeirssen, M. Inmaculada Barrasa, César Hidalgo, Jenny Aurielle B. Babon, Reynaldo Sequerra, Lynn Doucette-Stamm, Albert-László Barabási, Albertha J.M. Walhout
    Transcription Factor Modularity in a Gene-Centered C. elegans Protein-DNA Interaction Network
    Genome Research 17, 1061-1071 (July 2007). [ PDF ] [ Supplemental Materials ]

Computer Networks

  1. R. Albert, H. Jeong, and A.-L. Barabási
    Diameter of the World Wide Web
    Nature 401, 130-131 (1999). [ PDF ] [ cond-mat/9907038 ]
  2. A.-L. Barabási, R. Albert, and H. Jeong
    Scale-free characteristics of random networks: The topology of the World Wide Web
    Physica A 281, 69-77 (2000). [ PDF ]
  3. Albert-László Barabási
    The Physics of the Web
    Physics World (July 2001). [ PDF Not Available ][ Link ]
  4. S.-H. Yook, H. Jeong, and A.-L. Barabási
    Modeling the Internet's large-scale topology
    Proceedings of the Nat'l Academy of Sciences 99, 13382-13386 (2002). [ PDF ] [ abstract ] [ cond-mat/0107417 ]
  5. M. Argollo de Menezes and A.-L. Barabási
    Separating Internal and External Dynamics of Complex Systems
    Phys. Rev. Lett. 93, 068701 (2004). [ PDF ]
  6. G. Madey, G. Szabó, A.L. Barabási
    WIPER: The Integrated Wireless Phone-Based Emergency Response System
    Computational Science--ICCS 2006: 6th International Conference, Reading, UK, May 2006
    Lecture Notes in Computer Science 3993, 417 (2006). [ PDF ]
  7. Z. Dezso, E. Almaas, A. Lukacs, B. Racz, I. Szakadat, A.-L. Barabasi
    Dynamics of information access on the web
    Physical Review E 73 (6): Art. No. 066132 Part 2, (2006). [ PDF ]

Physics

  1. Albert-László Barabási and Réka Albert
    Emergence of scaling in random networks
    Science 286, 509-512 (1999). [ PDF ] [ cond-mat/9910332 ]
  2. Response to comments on “Emergence of scaling…”
    R. Albert, A.-L. Barabási, H. Jeong, and G. Bianconi

    Power-law distribution of the World Wide Web
    Science 287 2115a (2000). [ PDF ]
  3. A.-L. Barabási, R. Albert, and H. Jeong
    Mean-field theory for scale-free random networks
    Physica A 272, 173-187 (1999). [ PDF ] [ cond-mat/9907068 ]
  4. Réka Albert and Albert-László Barabási
    Dynamics of complex systems: Scaling laws for the period of Boolean Networks
    Physical Review Letters 84, 5660-5663 (2000). [ PDF ]
  5. Réka Albert and Albert-László Barabási
    Topology of evolving networks: Local events and universality
    Physical Review Letters 85, 5234 (2000). [ PDF ] [ cond-mat/0005085 ]
  6. R. Albert, H. Jeong, and A.-L. Barabási
    Error and attack tolerance in complex networks
    Nature 406 , 378 (2000). [ PDF ] [ cond-mat/0008064 ]
  7. Ginestra Bianconi and Albert-László Barabási
    Competition and multiscaling in evolving networks
    Europhysics Letters 54 (4), 436-442 (2001). [ PDF ] [ cond-mat/0011029 ]
  8. Ginestra Bianconi and Albert-László Barabási
    Bose-Einstein condensation in complex networks
    Physical Review Letters 86, 5632-5635 (2001). [ PDF ] [ cond-mat/0011029 ]
  9. S.H. Yook, H. Jeong, A.-L. Barabási and Y. Tu
    Weighted evolving networks
    Physical Review Letters 86, 5835-5838 (2001). [ PDF ] [ cond-mat/0101309 ]
  10. I. J. Farkas, I. Derényi, A.-L. Barabási, and Tamás Vicsek
    Spectra of "real-world" graphs: Beyond the semicircle law
    Physical Review E 63, 026704 (2001). [ PDF ] [ cond-mat/0102335 ] [ Resources ]
  11. A.-L. Barabási, E. Ravasz and T. Vicsek
    Deterministic scale-free networks
    Physica A 299, 559-564 (2001). [ PDF ] [ cond-mat/0107419 ]
  12. Zoltán Dezso and Albert-László Barabási
    Can we stop the AIDS epidemic?
    Physcial Review E 65, 055103(R) (2002). [ PDF ] [ cond-mat/0107420 ]
  13. Réka Albert and Albert-László Barabási
    Statistical mechanics of complex networks
    Review of Modern Physics 74, 47-97 (2002). [ PDF ] [cond-mat/0106096 ]
  14. N. Schwartz, R. Cohen, D. ben-Avrahm, A.-L. Barabási, and S. Havlin
    Percolation in directed scale-free networks
    Physical Review E 66, 015104(R) (2002). [ PDF ] [ cond-mat/0204523 ]
  15. I. Farkas, I. Dereny, H. Jeong, Z. Neda, Z.N. Oltvai, E. Ravasz, A. Schurbert, A.-L. Barabási, and T. Vecsek
    Networks in life: Scaling properties and eigenvalue spectra
    Physica A 314, 25-34 (2002). [ PDF ]  [ abstract ]
  16. Erzsébet Ravasz and Albert-László Barabási
    Hierarchical organization in complex networks
    Physical Review E 67, 026112 (2003). [ PDF ] [ cond-mat/0206130 ]
  17. M. Argollo de Menezes and Albert-László Barabási
    Fluctuations in Network Dynamics
    Physical Review Letters 92, 028701 (2004). [ PDF ]
  18. A. Vazquez, R. Dobrin, D. Sergi, J.-P. Eckmann, Z.N. Oltvai, and A.-L. Barabási
    The topological relationship between the large-scale attributes and local interactions patterns of complex networks
    Proceedings of the Nat'l Academy of Sciences 101, 17940-17945 (2004). [ PDF ]
  19. Gergely Palla, Illés Farkas, Imre Derényi, Albert-László Barabási, and Tamás Vicsek1
    Reverse engineering of linking preferences from network restructuring
    Physical Review E 70, 046115 (2004). [ PDF ] [ Abstract ]
  20. Z. Eisler, J. Kertesz, S.-H. Yook and A.-L. Barabási
    Multiscalling and non-universality in fluctuations of driven complex systems
    Europhysics Letters 69, pp. 664-670 (2005). [ PDF ] [ References ]
  21. P. J. Macdonald, E. Almaas, and A.-L. Barabási
    Minimum spanning trees of weighted scale-free networks
    Europhysics Letters 72 (2): 308-314 (2005). [ PDF ]
  22. M.A. Makeev, I. Derenyi, and A.-L. Barabási
    Emergence of large-scale vorticity during diffusion in a random potential under an alternating bias
    Physical Review E 71 (2), 026112 (2005). [ PDF ]
  23. A. Vázquez, J. G. Oliveira, and A.-L. Barabási
    Inhomogeneous evolution of subgraphs and cycles in complex networksiversality in complex networks
    Physical Review E 71, 025103 (2005). [ PDF ]
  24. Albert-László Barabási
    Taming complexity
    Nature Physics 1, 68-70 (2005). [ PDF ]

Social Networks

  1. A.-L. Barabási, H. Jeong, R. Ravasz, Z. Néda, T. Vicsek, and A. Schubert
    On the topology of the scientific collaboration networks
    Physica A 311, 590-614 (2002). [ PDF ] [ cond-mat/0104162 ]
  2. H. Jeong, Z. Néda, and A.-L. Barabási
    Measuring preferential attachment for evolving networks
    Europhysics Letters 61, 567-572 (2003). [ PDF ] [ cond-mat/0104131 ]
  3. Albert-László Barabási
    Network Theory-The emergence of the creative enterprise
    Science 308, 639 (2005). [ PDF ]
  4. Albert-László Barabási
    The origin of bursts and heavy tails in human dynamics
    Nature 207, 435 (2005). [ PDF ] [ Supplementary Material ]
  5. Joao Gama Oliveira and Albert-László Barabási
    Darwin and Einstein correspondence patterns
    Nature 437, 1251 (2005) . [ PDF ] [ Supplementary Materials ]
  6. Alexei Vázquez
    Exact Results for the Barabási Model of Human Dynamics
    Physical Review Letters 95, 248701 (2005). [ PDF ]

  7. A. Vázquez, J. G. Oliveira, Z. Dezsö, K.-I. Goh, I. Kondor, A.-L. Barabási
    Modeling bursts and heavy tails in human dynamics
    Physical Review E 73, 036127 (2006). [ PDF ]
  8. César A. Hidalgo R.
    Conditions for the emergence of scaling in the inter-event time of uncorrelated and seasonal systems
    Physica A 369, 877-883 (15 September 2006). [ PDF ]
  9. César A Hidalgo R, Alejandra Castro and Carlos Rodriguez-Sickert
    The effect of social interactions in the primary consumption life cycle of motion pictures
    New Journal of Physics 8, 52 (10 April 2006). [ PDF ]
  10. J.-P. Onnela, J. Saramäki, J. Hyvönen, G. Szabó, D. Lazer, K. Kaski, J. Kertész, and A.-L. Barabási
    Structure and tie strengths in mobile communication networks
    Proceeding of the National Academy of Sciences, (2007). [ PDF ] [ supplemantary material ]
  11. Marta C. González and Albert-László Barabási
    Complex networks: From data to models
    Nature Physics 3, 224 - 225 (2007). [ PDF ]
  12. Jukka-Pekka Onnela, Jari Saramäki, Jörkki Hyvönen, Gábor Szabó, M Argollo de Menezes,
    Kimmo Kaski, Albert-László Barabási and János Kertèsz

    Analysis of a large-scale weighted network of one-to-one human communication
    New Journal of Physics 9, 179 (8 June 2007).

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