Mirny Lab

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  1. James M. Jusuf, Simon Grosse-Holz, Michele Gabriele, Pia Mach, Ilya M. Flyamer, Christoph Zechner, Luca Giorgetti, Leonid A. Mirny, Anders S. Hansen
    Genome-wide absolute quantification of chromatin looping
    bioRxiv 2025.01.13.632736; doi: https://doi.org/10.1101/2025.01.13.632736
  2. Ànnia Carré-Simon, Renaud Batrin, Sarah Isler, Henrik Dahl Pinholt, Timothy Földes, Guillaume Laflamme, Maria Barbi, Leonid Mirny, Damien D’Amours, Emmanuelle Fabre
    Smc5/6 association with microtubules controls dynamic pericentromeric chromatin folding
    bioRxiv 2024.11.13.623393; doi: https://doi.org/10.1101/2024.11.13.623393
  3. Dekker J, Mirny LA. The chromosome folding problem and how cells solve it. Cell. 2024 Nov 14;187(23):6424-6450. doi: 10.1016/j.cell.2024.10.026. PMID: 39547207; PMCID: PMC11569382. doi: https://doi.org/10.1016/j.cell.2024.10.026
  4. Viraat Y. Goel, Nicholas G. Aboreden, James M. Jusuf, Haoyue Zhang, Luisa P. Mori, Leonid A. Mirny, Gerd A. Blobel, Edward J. Banigan, Anders S. Hansen
    Dynamics of microcompartment formation at the mitosis-to-G1 transition
    bioRxiv 2024.09.16.611917; doi: https://doi.org/10.1101/2024.09.16.611917
  5. . Karagyozova, A. Gatto, A. Forest, J.-P. Quivy, M. Marti-Renom, L. Mirny, G. Almouzni
    HIRA-dependent provision of histone H3.3 in active chromatin ensures genome compartmentalisation
    Preprint. bioRx 2024.08.27.609896 doi: https://doi.org/10.1101/2024.08.27.609896
  6. T. Karagyozova, A. Gatto, A. Forest, J.-P. Quivy, M. Marti-Renom, L. Mirny, G. Almouzni
    HIRA defines early replication initiation zones independently of their genome compartment
    Preprint.bioRxiv 2024.08.29.610220; doi: https://doi.org/10.1101/2024.08.29.610220
  7. Nicholas M. Adams, Aleksandra Galitsyna, Ioanna Tiniakou, Eduardo Esteva, Colleen M. Lau, Jojo Reyes, Nezar Abdennur, Alexey Shkolikov, George S. Yap, Alireza Khodadadi-Jamayran, Leonid A. Mirny, 
    Boris Reizis. Cohesin-mediated chromatin remodeling controls the differentiation and function of conventional dendritic cells. Preprint. bioRxiv 2024.09.18.613709; doi: https://doi.org/10.1101/2024.09.18.613709  
  8. Solovei I, Mirny L. Spandrels of the cell nucleusCurr Opin Cell Biol. 2024;90:102421.
  9. Gil J Jr, Navarrete E, Rosin LF, et al. Unique territorial and compartmental organization of chromosomes in the holocentric silkmoth. Preprint. Res Sq. 2024;rs.3.rs-4732646. 2024 Jul 31.
  10. Hildebrand EM, Polovnikov K, Dekker B, et al. Mitotic chromosomes are self-entangled and disentangle through a topoisomerase-II-dependent two-stage exit from mitosisMol Cell. 2024;84(8):1422-1441.e14.
  11. Scelfo A, Barra V, Abdennur N, Spracklin G, Busato F, Salinas-Luypaert C, Bonaiti E, Velasco G, Bonhomme F, Chipont A, Tijhuis AE, Spierings DCJ, Guérin C, Arimondo P, Francastel C, Foijer F, Tost J, Mirny L, Fachinetti D (2024). Tunable DNMT1 degradation reveals DNMT1/DNMT3B synergy in DNA methylation and genome organizationJournal of Cell Biology 223(4) [bioRxiv (May, 2023)]
  12. Hildebrand EM, Polovnikov K, Dekker B, Liu Y, Lafontaine DL, Fox AN, Li Y, Venev SV, Mirny LA, Dekker J (2024). Mitotic chromosomes are self-entangled and disentangle through a topoisomerase-II-dependent two-stage exit from mitosisMolecular Cell 84(8):1422-1441.e14 [bioRxiv (January, 2024)]
  13. Samejima K, Gibcus JH, Abraham S, Cisneros-Soberanis F, Samejima I, Beckett AJ, Pučeková N, Abad MA, Medina-Pritchard B, Paulson JR, Xie L, Jeyaprakash AA, Prior IA, Mirny LA, Dekker J, Goloborodko A, Earnshaw WC (2024). Rules of engagement for condensins and cohesins guide mitotic chromosome formationbioRxiv
  14. Owen JA, Osmanović D, Mirny L (2023). Design principles of 3D epigenetic memory systemsScience 382(6672) [bioRxiv (September, 2022)]
  15. Polovnikov KE, Brandão HB, Belan S, Slavov B, Imakaev M, Mirny LA (2023). Crumpled polymer with loops recapitulates key features of chromosome organizationPhysical Review X 13(4) [bioRxiv (May, 2023)]
  16. Gil J, Rosin LF, Navarrete E, Chowdhury N, Abraham S, Cornilleau G, Lei EP, Mozziconacci J, Mirny LA, Muller H, Drinnenberg IA (2023). Unique territorial and sub-chromosomal organization revealed in the holocentric mothBombyx moribioRxiv
  17. Liu S, Miné-Hattab J, Villemeur M, Guerois R, Pinholt HD, Mirny LA, Taddei A (2023). In vivo tracking of functionally tagged Rad51 unveils a robust strategy of homology searchNature Structural & Molecular Biology 30(10):1582-1591
  18. Galitsyna A, Ulianov SV, Bykov NS, Veil M, Gao M, Perevoschikova K, Gelfand M, Razin SV, Mirny L, Onichtchouk D (2023). Extrusion fountains are hallmarks of chromosome organization emerging upon zygotic genome activationbioRxiv
  19. Gurjao C, Tsukrov D, Imakaev M, Luquette LJ, Mirny LA (2023). Is tumor mutational burden predictive of response to immunotherapy?eLife
  20. Mirny LA (2023). Chromosome and protein folding: In search for unified principlesCurrent Opinion in Structural Biology 81
  21. Spracklin G, Abdennur N, Imakaev M, Chowdhury N, Pradhan S, Mirny LA, Dekker J (2022). Diverse silent chromatin states modulate genome compartmentalization and loop extrusion barriersNature Structural & Molecular Biology [bioRxiv (August, 2021)]
  22. Keizer VIP, Grosse-Holz S, Woringer M, Zambon L, Aizel K, Bongaerts M, Delille F, Kolar-Znika L, Scolari VF, Hoffmann S, Banigan EJ, Mirny LA, Dahan M, Fachinetti D, Coulon A (2022). Live-cell micromanipulation of a genomic locus reveals interphase chromatin mechanicsScience 377(6605):489-495 [bioRxiv (Apr, 2021)]
  23. Nagano M, Hu B, Yokobayashi S, Yamamura A, Umemura F, Coradin M, Ohta H, Yabuta Y, Ishikura Y, Okamoto I, Ikeda H, Kawahira N, Nosaka Y, Shimizu S, Kojima Y, Mizuta K, Kasahara T, Imoto Y, Meehan K, Stocsits R, Wutz G, Hiraoka Y, Murakawa Y, Yamamoto T, Tachibana K, Peters J, Mirny LA, Garcia BA, Majewski J, Saitou M (2022). Nucleome programming is required for the foundation of totipotency in mammalian germline developmentThe EMBO Journal 41(13)
  24. Dequeker BJH, Scherr MJ, Brandão HB, Gassler J, Powell S, Gaspar I, Flyamer IM, Lalic A, Tang W, Stocsits R, Davidson IF, Peters J, Duderstadt KE, Mirny LA, Tachibana K (2022). MCM complexes are barriers that restrict cohesin-mediated loop extrusionNature 606(7912):197-203 [bioRxiv (Oct, 2020)]
  25. Reiff SB, Schroeder AJ, Kırlı K, Cosolo A, Bakker C, Lee S, Veit AD, Balashov AK, Vitzthum C, Ronchetti W, Pitman KM, Johnson J, Ehmsen SR, Kerpedjiev P, Abdennur N, Imakaev M, Öztürk SU, Çamoğlu U, Mirny LA, Gehlenborg N, Alver BH, Park PJ (2022). The 4D nucleome data portal as a resource for searching and visualizing curated nucleomics dataNature Communications 13(1) [bioRxiv (Oct, 2021)]
  26. Deforzh E, Uhlmann EJ, Das E, Galitsyna A, Arora R, Saravanan H, Rabinovsky R, Wirawan AD, Teplyuk NM, El Fatimy R, Perumalla S, Jairam A, Wei Z, Mirny L, Krichevsky AM (2022). Promoter and enhancer RNAs regulate chromatin reorganization and activation of miR-10b/HOXD locus, and neoplastic transformation in gliomaMolecular Cell 82(10):1894-1908.e5
  27. Gabriele M, Brandão HB, Grosse-Holz S, Jha A, Dailey GM, Cattoglio C, Hsieh TS, Mirny L, Zechner C, Hansen AS (2022). Dynamics of CTCF- and cohesin-mediated chromatin looping revealed by live-cell imagingScience 376(6592):496-501 [bioRxiv (Dec, 2021)]
  28. Leidescher S, Ribisel J, Ullrich S, Feodorova Y, Hildebrand E, Galitsyna A, Bultmann S, Link S, Thanisch K, Mulholland C, Dekker J, Leonhardt H, Mirny L, Solovei I (2022). Spatial organization of transcribed eukaryotic genesNature Cell Biology 24(3):327-339 [bioRxiv (Apr, 2021)]
  29. Polovnikov K, Belan S, Imakaev M, Brandão HB, Mirny LA (2022). Fractal polymer with loops recapitulates key features of chromosome organizationbioRxiv
  30. Banigan EJ, Tang W, Berg AA, Stocsits RR, Wutz G, Brandão HB, Busslinger GA, Peters J, Mirny LA (2022). Transcription shapes 3D chromatin organization by interacting with loop extrusionbioRxiv
  31. Mirny L, Dekker J (2021). Mechanisms of chromosome folding and nuclear organization: Their interplay and open questionsCold Spring Harbor Perspectives in Biology 14(7):a040147
  32. Akgol Oksuz B, Yang L, Abraham S, Venev SV, Krietenstein N, Parsi KM, Ozadam H, Oomen ME, Nand A, Mao H, Genga RMJ, Maehr R, Rando OJ, Mirny LA, Gibcus JH, Dekker J (2021). Systematic evaluation of chromosome conformation capture assaysNature Methods 18(9):1046-1055 [bioRxiv (Dec, 2020)]
  33. Spracklin G, Abdennur N, Imakaev M, Chowdhury N, Pradhan S, Mirny L, Dekker J (2021). Heterochromatin diversity modulates genome compartmentalization and loop extrusion barriersbioRxiv
  34. Brandão HB, Ren Z, Karaboja X, Mirny LA, Wang X (2021). DNA-loop-extruding SMC complexes can traverse one another in vivoNature Structural & Molecular Biology 28(8):642-651 [bioRxiv (Oct, 2020)]
  35. Mirny LA (2021). Cells use loop extrusion to weave and tie the genomeNature 590(7847):554-555
  36. Mirny LA, Solovei I (2021). Keeping chromatin in the loop(s)Nature Reviews Molecular Cell Biology 22(7):439-440
  37. Banigan EJ, Mirny LA (2020). The interplay between asymmetric and symmetric DNA loop extrusioneLife 9 [bioRxiv (Sep, 2020)]
  38. Nora EP, Caccianini L, Fudenberg G, So K, Kameswaran V, Nagle A, Uebersohn A, Hajj B, Le Saux A, Coulon A, et al. (2020). Molecular basis of CTCF binding polarity in genome foldingNature Communications 11(1):1-13 [bioRxiv (Dec, 2019)]
  39. Gurjao C, Tsukrov D, Imakaev M, Luquette LJ, Mirny LA (2020). Limited evidence of tumour mutational burden as a biomarker of response to immunotherapybioRxiv
  40. Samata M, Alexiadis A, Richard G, Georgiev P, Nuebler J, Kulkarni T, Renschler G, Basilicata MF, Zenk FL, Shvedunova M, et al. (2020). Intergenerationally maintained histone h4 lysine 16 acetylation is instructive for future gene activationCell
  41. Abdennur N, Mirny LA (2020). Cooler: Scalable storage for Hi-C data and other genomically labeled arraysBioinformatics 36(1):311-316 [bioRxiv (Feb, 2019)]
  42. Banigan EJ, Mirny LA (2020). Loop extrusion: Theory meets single-molecule experimentsCurrent Opinion in Cell Biology 64
  43. Krietenstein N, Abraham S, Venev SV, Abdennur N, Gibcus J, Hsieh TS, Parsi KM, Yang L, Maehr R, Mirny LA, et al. (2020). Ultrastructural details of mammalian chromosome architectureMolecular Cell [bioRxiv (May, 2019)]
  44. Banigan EJ, van den Berg AA, Brandão HB, Marko JF, Mirny LA (2020). Chromosome organization by one-sided and two-sided loop extrusioneLife [bioRxiv (Apr, 2020)]
  45. Feodorova Y, Falk M, Mirny LA, Solovei I (2020). Viewing nuclear architecture through the eyes of nocturnal mammalsTrends in Cell Biology 30(4):276-289
  46. Brandão HB, Paul P, Berg AA, Rudner DZ, Wang X, Mirny LA (2019). RNA polymerases as moving barriers to condensin loop extrusionProceedings of the National Academy of Sciences 116(41):20489-20499 [bioRxiv (Apr, 2019)]
  47. Banigan EJ, Mirny LA (2019). Limits of chromosome compaction by loop-extruding motorsPhysical Review X 9(3) [bioRxiv (Jan, 2018)]
  48. Mirny LA, Imakaev M, Abdennur N (2019). Two major mechanisms of chromosome organizationCurrent Opinion in Cell Biology 58
  49. Falk M, Feodorova Y, Naumova N, Imakaev M, Lajoie BR, Leonhardt H, Joffe B, Dekker J, Fudenberg G, Solovei I, Mirny LA (2019). Heterochromatin drives compartmentalization of inverted and conventional nucleiNature 570 [bioRxiv (Jan, 2018)]
  50. Finn EH, Pegoraro G, Brandão HB, Valton A, Oomen ME, Dekker J, Mirny L, Misteli T (2019). Extensive heterogeneity and intrinsic variation in spatial genome organizationCell 176(6):1502-1515.e10 [bioRxiv (Aug, 2017)]
  51. Nuebler J, Fudenberg G, Imakaev M, Abdennur N, Mirny LA (2018). Chromatin organization by an interplay of loop extrusion and compartmental segregationProceedings of the National Academy of Sciences 115(29):E6697-E6706 [bioRxiv (Oct, 2017)]
  52. Gibcus JH, Samejima K, Goloborodko A, Samejima I, Naumova N, Nuebler J, Kanemaki MT, Xie L, Paulson JR, Earnshaw WC, et al. (2018). A pathway for mitotic chromosome formationScience 359(6376):eaao6135 [bioRxiv (Aug, 2017)]
  53. Fudenberg G, Abdennur N, Imakaev M, Goloborodko A, Mirny LA (2017). Emerging evidence of chromosome folding by loop extrusionCold Spring Harbor Symposia on Quantitative Biology 82
  54. Gassler J, Brandao HB, Imakaev M, Flyamer IM, Ladstatter S, Bickmore WA, Peters J, Mirny LA, Tachibana-Konwalski K (2017). A mechanism of cohesin-dependent loop extrusion organizes zygotic genome architectureThe EMBO Journal e201798083 [bioRxiv (Aug, 2017)]
  55. Kerpedjiev P, Abdennur N, Lekschas F, McCallum C, Dinkla K, Strobelt H, Luber JM, Ouellette SB, Ahzir A, Kumar N, Hwang J, Lee S, Alver B, Pfister H, Mirny LA, Park PJ, Gehlenborg N (2018). HiGlass: Web-based visual exploration and analysis of genome interaction mapsGenome Biology 19(1) [bioRxiv (Mar, 2017)]
  56. Schwarzer W, Abdennur N, Goloborodko A, Pekowska A, Fudenberg G, Loe-Mie Y, Fonseca NA, Huber W, H. Haering C, Mirny L, Spitz F (2017). Two independent modes of chromatin organization revealed by cohesin removalNature 551(7678):51-56 [bioRxiv (Dec, 2016)]
  57. Dekker J, Belmont AS, Guttman M, Leshyk VO, Lis JT, Lomvardas S, Mirny LA, O’Shea CC, Park PJ, Ren B, et al. (2017). The 4D nucleome projectNature 549(7671):219-226
  58. Phillips AM, Gonzalez LO, Nekongo EE, Ponomarenko AI, McHugh SM, Butty VL, Levine SS, Lin Y, Mirny LA, Shoulders MD (2017). Host proteostasis modulates influenza evolutioneLife 6
  59. Schalbetter SA, Goloborodko A, Fudenberg G, Belton J, Miles C, Yu M, Dekker J, Mirny L, Baxter J (2017). SMC complexes differentially compact mitotic chromosomes according to genomic contextNature Cell Biology 19(9):1071-1080 [bioRxiv (Dec, 2016)]
  60. Nora EP, Goloborodko A, Valton A, Gibcus JH, Uebersohn A, Abdennur N, Dekker J, Mirny LA, Bruneau BG (2017). Targeted degradation of CTCF decouples local insulation of chromosome domains from genomic compartmentalizationCell 169(5):930-944.e22 [bioRxiv (Dec, 2016)]
  61. McFarland CD, Yaglom JA, Wojtkowiak JW, Scott JG, Morse DL, Sherman MY, Mirny LA (2017). The damaging effect of passenger mutations on cancer progressionCancer Research [bioRxiv (Sep, 2015)]
  62. Flyamer IM, Gassler J, Imakaev M, Brandão HB, Ulianov SV, Abdennur N, Razin SV, Mirny LA, Tachibana-Konwalski K (2017). Single-nucleus Hi-C reveals unique chromatin reorganization at oocyte-to-zygote transitionNature 544(7648):110-114
  63. Grajkowska LT, Ceribelli M, Lau CM, Warren ME, Tiniakou I, Nakandakari Higa S, Bunin A, Haecker H, Mirny LA, Staudt LM, Reizis B (2017). Isoform-specific expression and feedback regulation of E protein TCF4 control dendritic cell lineage specificationImmunity 46(1):65-77
  64. Sawai CM, Babovic S, Upadhaya S, Knapp DJ, Lavin Y, Lau CM, Goloborodko A, Feng J, Fujisaki J, Ding L, Mirny L, Merad M, Eaves CJ, Reizis B (2016). Hematopoietic stem cells are the major source of multilineage hematopoiesis in adult animalsImmunity 45(3):597-609
  65. Goloborodko A, Marko JF, Mirny LA (2016). Chromosome compaction by active loop extrusionBiophysical Journal 110(10):2162-2168 [bioRxiv (Jun, 2015)]
  66. Fudenberg G, Imakaev M, Lu C, Goloborodko A, Abdennur N, Mirny LA (2016). Formation of chromosomal domains by loop extrusionCell Reports 15(9):2038-2049 [bioRxiv (Aug, 2015)]
  67. Goloborodko A, Imakaev MV, Marko JF, Mirny L (2016). Compaction and segregation of sister chromatids via active loop extrusioneLife 5 [bioRxiv (Jan, 2016)]
  68. Dekker J, Mirny L (2016). The 3D genome as moderator of chromosomal communicationCell 164(6):1110-1121
  69. Boettiger AN, Bintu B, Moffitt JR, Wang S, Beliveau BJ, Fudenberg G, Imakaev M, Mirny LA, Wu C, Zhuang X (2016). Super-resolution imaging reveals distinct chromatin folding for different epigenetic statesNature 529(7586):418-422
  70. Imakaev MV, Fudenberg G, Mirny LA (2015). Modeling chromosomes: Beyond pretty picturesFEBS Letters 589(20PartA):3031-3036
  71. Kind J, Pagie L, Vries SS, Nahidiazar L, Dey SS, Bienko M, Zhan Y, Lajoie B, Graaf CA, Amendola M, Fudenberg G, Imakaev M, Mirny L, Jalink K, Dekker J, van Oudenaarden A, van Steensel B (2015). Genome-wide maps of nuclear lamina interactions in single human cellsCell 163(1):134-147
  72. Imakaev MV, Tchourine KM, Nechaev SK, Mirny LA (2015). Effects of topological constraints on globular polymersSoft Matter 11(4):665-671
  73. Mizuguchi T, Fudenberg G, Mehta S, Belton J, Taneja N, Folco HD, FitzGerald P, Dekker J, Mirny L, Barrowman J, Grewal S (2014). Cohesin-dependent globules and heterochromatin shape 3D genome architecture in s. pombeNature 516(7531):432-435
  74. Dolmatova E, Tucker NR, Lin H, Cooper RR, Ye J, Sinner MF, Imakaev M, Lubitz SA, Leyton-Mange J, Vlahakes G, et al. (2014). Identification of a functional SNP regulating pRRX1 at the 1q24 locus for atrial fibrillation. Circulation 130(Suppl 2):A18865-A18865
  75. Doyle B, Fudenberg G, Imakaev M, Mirny LA (2014). Chromatin loops as allosteric modulators of enhancer-promoter interactionsPLoS Computational Biology 10(10):e1003867 [bioRxiv (Nov, 2014)]
  76. McFarland CD, Mirny LA, Korolev KS (2014). Tug-of-war between driver and passenger mutations in cancer and other adaptive processesProceedings of the National Academy of Sciences 111(42):15138-15143 [bioRxiv (Feb, 2014)]
  77. Yaglom JA, McFarland C, Mirny L, Sherman MY (2014). Oncogene-triggered suppression of DNA repair leads to DNA instability in cancerOncotarget 5(18):8367-8378
  78. Weisberg SP, Smith-Raska MR, Esquilin JM, Zhang J, Arenzana TL, Lau CM, Churchill M, Pan H, Klinakis A, Dixon JE, et al. (2014). ZFX controls propagation and prevents differentiation of acute t-lymphoblastic and myeloid leukemiaCell Reports 6(3):528-540
  79. Naumova N, Imakaev M, Fudenberg G, Zhan Y, Lajoie BR, Mirny LA, Dekker J (2013). Organization of the mitotic chromosomeScience 342(6161):948-953
  80. McFarland CD, Korolev KS, Kryukov GV, Sunyaev SR, Mirny LA (2013). Impact of deleterious passenger mutations on cancer progressionProceedings of the National Academy of Sciences 110(8):2910-2915
  81. Le TBK, Imakaev MV, Mirny LA, Laub MT (2013). High-resolution mapping of the spatial organization of a bacterial chromosomeScience 342(6159):731-734
  82. Dekker J, Mirny L (2013). Biological techniques: Chromosomes captured one by oneNature 502(7469):45-46
  83. Dekker J, Marti-Renom MA, Mirny LA (2013). Exploring the three-dimensional organization of genomes: Interpreting chromatin interaction dataNature Reviews Genetics 14(6):390-403
  84. Leith JS, Tafvizi A, Huang F, Uspal WE, Doyle PS, Fersht AR, Mirny LA, Oijen AM (2012). Sequence-dependent sliding kinetics of p53Proceedings of the National Academy of Sciences 109(41):16552-16557
  85. Imakaev M, Fudenberg G, McCord RP, Naumova N, Goloborodko A, Lajoie BR, Dekker J, Mirny LA (2012). Iterative correction of Hi-C data reveals hallmarks of chromosome organizationNature Methods 9(10):999-1003
  86. Engreitz JM, Agarwala V, Mirny LA (2012). Three-dimensional genome architecture influences partner selection for chromosomal translocations in human diseasePLoS ONE 7(9):e44196
  87. Fudenberg G, Mirny LA (2012). Higher-order chromatin structure: Bridging physics and biologyCurrent Opinion in Genetics & Development 22(2):115-124
  88. Fudenberg G, Getz G, Meyerson M, Mirny LA (2011). High order chromatin architecture shapes the landscape of chromosomal alterations in cancerNature Biotechnology 29(12):1109-1113
  89. Marti-Renom MA, Mirny LA (2011). Bridging the resolution gap in structural modeling of 3D genome organizationPLoS Computational Biology 7(7):e1002125
  90. Tafvizi A, Mirny LA, Oijen AM (2011). Dancing on DNA: Kinetic aspects of search processes on DNAChemPhysChem 12(8):1481-1489
  91. Tafvizi A, Huang F, Fersht AR, Mirny LA, Oijen AM (2011). A single-molecule characterization of p53 search on DNAProceedings of the National Academy of Sciences 108(2):563-568
  92. Mirny LA (2011). The fractal globule as a model of chromatin architecture in the cellChromosome Research 19(1):37-51
  93. Mirny LA (2010). Nucleosome-mediated cooperativity between transcription factorsProceedings of the National Academy of Sciences 107(52):22534-22539
  94. Mirny LA, Needleman DJ (2010). Quantitative characterization of filament dynamics by single-molecule lifetime measurementsMicrotubules, in vitro
  95. Berkum NL, Lieberman-Aiden E, Williams L, Imakaev M, Gnirke A, Mirny LA, Dekker J, Lander ES (2010). Hi-C: A method to study the three-dimensional architecture of genomes.Journal of Visualized Experiments
  96. Bölinger D, Sułkowska JI, Hsu H, Mirny LA, Kardar M, Onuchic JN, Virnau P (2010). A stevedore’s protein knotPLoS Computational Biology 6(4):e1000731
  97. Needleman DJ, Groen A, Ohi R, Maresca T, Mirny L, Mitchison T (2009). Fast microtubule dynamics in meiotic spindles measured by single molecule imaging: Evidence that the spindle environment does not stabilize microtubulesMolecular Biology of the Cell 21(2):323-333
  98. Wunderlich Z, Mirny LA (2009). Using genome-wide measurements for computational prediction of SH2-peptide interactionsNucleic Acids Research 37(14):4629-4641
  99. Lieberman-Aiden E, Berkum NL, Williams L, Imakaev M, Ragoczy T, Telling A, Amit I, Lajoie BR, Sabo PJ, Dorschner MO, et al. (2009). Comprehensive mapping of long-range interactions reveals folding principles of the human genomeScience 326(5950):289-293
  100. Wunderlich Z, Mirny LA (2009). Different gene regulation strategies revealed by analysis of binding motifsTrends in Genetics 25(10):434-440
  101. Mirny L, Slutsky M, Wunderlich Z, Tafvizi A, Leith J, Kosmrlj A (2009). How a protein searches for its site on DNA: The mechanism of facilitated diffusionJournal of Physics A: Mathematical and Theoretical 42(43):434013
  102. Leith JS, Tafvizi A, Huang F, Fersht AR, Mirny LA, Oijen AM (2009). Sequence-dependent kinetics of one-dimensional diffusion of p53 on DNA. Biophysical Journal 96(3):416a
  103. Kolesov G, Mirny LA (2009). Using evolutionary information to find specificity-determining and co-evolving residues. Computational Systems Biology
  104. Jamal Rahi S, Virnau P, Mirny LA, Kardar M (2008). Predicting transcription factor specificity with all-atom modelsNucleic Acids Research 36(19):6209-6217
  105. Tafvizi A, Huang F, Leith JS, Fersht AR, Mirny LA, Oijen AM (2008). Tumor suppressor p53 slides on DNA with low friction and high stabilityBiophysical Journal 95(1):L01-L03
  106. Wunderlich Z, Mirny LA (2008). Spatial effects on the speed and reliability of protein-DNA searchNucleic Acids Research 36(11):3570-3578
  107. Mirny L (2008). Biophysics: Cell commuters avoid delaysNature Physics 4(2):93-95
  108. Gomez-Uribe C, Verghese GC, Mirny LA (2007). Operating regimes of signaling cycles: Statics, dynamics, and noise filteringPLoS Computational Biology 3(12):e246
  109. Kolesov G, Wunderlich Z, Laikova ON, Gelfand MS, Mirny LA (2007). How gene order is influenced by the biophysics of transcription regulationProceedings of the National Academy of Sciences 104(35):13948-13953
  110. Kolesov G, Virnau P, Kardar M, Mirny LA (2007). Protein knot server: Detection of knots in protein structuresNucleic Acids Research 35(Web Server):W425-W428
  111. Levine J, Kueh HY, Mirny L (2007). Intrinsic fluctuations, robustness, and tunability in signaling cyclesBiophysical Journal 92(12):4473-4481
  112. Galan-Caridad JM, Harel S, Arenzana TL, Hou ZE, Doetsch FK, Mirny LA, Reizis B (2007). Zfx controls the self-renewal of embryonic and hematopoietic stem cellsCell 129(2):345-357
  113. Wunderlich Z, Mirny LA (2006). Using the topology of metabolic networks to predict viability of mutant strainsBiophysical Journal 91(6):2304-2311
  114. Virnau P, Mirny LA, Kardar M (2006). Intricate knots in proteins: Function and evolutionPLoS Computational Biology 2(9):e122
  115. Spirin V, Gelfand MS, Mironov AA, Mirny LA (2006). A metabolic network in the evolutionary context: Multiscale structure and modularityProceedings of the National Academy of Sciences 103(23):8774-8779
  116. Donald JE, Hubner IA, Rotemberg VM, Shakhnovich EI, Mirny LA (2005). CoC: A database of universally conserved residues in protein foldsBioinformatics 21(10):2539-2540
  117. Slutsky M, Mirny LA (2004). Kinetics of protein-DNA interaction: Facilitated target location in sequence-dependent potentialBiophysical Journal 87(6):4021-4035
  118. Slutsky M, Kardar M, Mirny L (2004). Diffusion in correlated random potentials, with applications to DNAPhysical Review E 69(6)
  119. Lidmar J, Mirny L, Nelson DR (2003). Virus shapes and buckling transitions in spherical shellsPhysical Review E 68(5)
  120. Spirin V, Mirny LA (2003). Protein complexes and functional modules in molecular networksProceedings of the National Academy of Sciences 100(21):12123-12128
  121. Spirin V, Gelfand M, Mirny L (2003). Computational analysis of metabolic modules and pathways in E. coli metabolic network. ISCB 4
  122. Chen W, Mirny L, Shakhnovich EI (2003). Fold recognition with minimal gapsProteins: Structure, Function, and Bioinformatics 51(4):531-543
  123. Li L, Shakhnovich EI, Mirny LA (2003). Amino acids determining enzyme-substrate specificity in prokaryotic and eukaryotic protein kinasesProceedings of the National Academy of Sciences 100(8):4463-4468
  124. Ekins S, Mirny L, Schuetz EG (2002). A Ligand-Based Approach to Understanding Selectivity of Nuclear Hormone Receptors PXR, CAR, FXR, LXRα, and LXRβPharmaceutical Research 19(12):1788-1800
  125. Dokholyan NV, Mirny LA, Shakhnovich EI (2002). Understanding conserved amino acids in proteinsPhysica A: Statistical Mechanics and its Applications 314(1-4):600-606
  126. Mirny LA, Gelfand MS (2002). Using orthologous and paralogous proteins to identify specificity determining residuesGenome Biology 3(3):preprint0002.1
  127. Mirny LA (2002). Structural analysis of conserved base pairs in protein-DNA complexesNucleic Acids Research 30(7):1704-1711
  128. Mirny L, Shakhnovich E (2001). Protein folding theory: From lattice to all-atom modelsAnnual Review of Biophysics and Biomolecular Structure 30(1):361-396
  129. Mirny L, Shakhnovich E (2001). Evolutionary conservation of the folding nucleusJournal of Molecular Biology 308(2):123-129
  130. Mirny L, Gelfand M (2001). What evolution can tell us about protein-DNA interactions. Proceedings of the International School of Physics “Enrico Fermi” 145
  131. Mirny L, Shakhnovich E (2001). Protein folding: Matching theory and experiment. Proceedings of the International School of Physics “Enrico Fermi” 145
  132. Vendruscolo M, Mirny LA, Shakhnovich EI, Domany E (2000). Comparison of two optimization methods to derive energy parameters for protein folding: Perceptron and Z score3.0.CO;2-3>Proteins: Structure, Function, and Genetics 41(2):192-201
  133. Mirny LA, Finkelstein AV, Shakhnovich EI (2000). Statistical significance of protein structure prediction by threadingProceedings of the National Academy of Sciences 97(18):9978-9983
  134. Li L, Mirny LA, Shakhnovich EI (2000). Kinetics, thermodynamics and evolution of non-native interactions in a protein folding nucleusNature Structural Biology 7(4):336-342
  135. Mirny LA, Shakhnovich EI (1999). Universally conserved positions in protein folds: Reading evolutionary signals about stability, folding kinetics and functionJournal of Molecular Biology 291(1):177-196
  136. Finkelstein A, Rykunov D, Lobanov MY, Badretdinov AY, Reva B, Skolnick J, Mirny L, Shakhnovich E (1999). Molecular biophysics-overcoming the crudeness of energy estimates in protein 3D structure prediction by homologs: The when and the how.. Biophysics 44(6):946-956
  137. Mirny LA, Shakhnovich EI (1998). Protein structure prediction by threading. Why it works and why it does not.Journal of Molecular Biology 283(2):507-526
  138. Mirny LA, Abkevich VI, Shakhnovich EI (1998). How evolution makes proteins fold quickly. Proceedings of the National Academy of Sciences 95(9):4976-4981
  139. Mirny LA (1998). Protein folding: From lattice models to real proteins. Harvard University, Ph.D. Thesis.
  140. Mirny LA, Shakhnovich EI (1996). How to derive a protein folding potential? A new approach to an old problemJournal of Molecular Biology 264(5):1164-1179
  141. Shlyakhter A, Mirny L, Vlasov A, Wilson R (1996). Monte carlo modeling of epidemiological studiesHuman and Ecological Risk Assessment: An International Journal 2(4):920-938
  142. Mirny L, Domany E (1996). Protein fold recognition and dynamics in the space of contact mapsProteins: Structure, Function, and Genetics 26(4):391-410
  143. Mirny LA, Abkevich V, Shakhnovich EI (1996). Universality and diversity of the protein folding scenarios:a comprehensive analysis with the aid of a lattice modelFolding and Design 1(2):103-116
  144. Alon RN, Mirny L, Sussman JL, Gutnick DL (1995). Detection of alpha/beta-hydrolase fold in the cell surface esterases of acinetobacter species using an analysis of 3D profilesFEBS letters 371(3):231-235
  145. Chepel VY, Khvostunov I, Mirny L, Talyzina T, Andreev S (1994). 3-D computer modelling of chromatin fibres for radiation damage simulation. Radiation Protection Dosimetry 52(1):259-264