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  Dekker, C., Haering, C.H., Peters, J.-M., & Rowland, B.D.How do molecular motors fold the genome?Science, 382(6671): 646–648.
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  Shaltiel, I.A., Datta, S., Lecomte, L., Hassler, M., Kschonsak, M., Bravo, S., Stober, C., Ormanns, J., Eustermann, S., & Haering, C.H.A hold-and-feed mechanism drives directional DNA loop extrusion by condensinScience, 376(6597): 1087–1094.
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  Lee, B.-G., Merkel, F., Allegretti, M., Hassler, M., Cawood, C., Lecomte, L., O’Reilly, F.J., Sinn, L.R., Gutierrez-Escribano, P., Kschonsak, M., Bravo, S., Nakane, T., Rappsilber, J., Aragon, L., Beck, M., Loewe, J., & Haering, C.H.Cryo-EM structures of holo condensin reveal a subunit flip-flop mechanismNature Structural and Molecular Biology, 27(8): 743–751.
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  Ryu, J.-K., Katan, A.J., van der Sluis, E.O., Wisse, T., de Groot, R., Haering, C.H., & Dekker, C.The condensin holocomplex cycles dynamically between open and collapsed statesNature Structural and Molecular Biology. https://doi.org/10.1038/s41594-020-0508-3.
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  Kim, E., Kerssemakers, J., Shaltiel, I.A., Haering, C.H., & Dekker, C.DNA-loop extruding condensin complexes can traverse one anotherNature, 579(7799): 438–442.
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  Datta, S., Lecomte, L., & Haering, C.H.Structural insights into DNA loop extrusion by SMC protein complexesCurrent Opinion in Structural Biology, 65: 102–109.
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  Bisht, S., & Haering, C.H.Twist to disentangleNature Structural and Molecular Biology, 26(4): 252–253.
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  Elbatsh, A.M., Kim, E., Eeftens, J.M., Raaijmakers, J.A., van der Weide, R.H., Garc\’\i}}a-Nieto, A., Bravo, S., Ganji, M., uit de Bos, J., Teunissen, H., Medema, R.H., de Wit, E., Haering, C.H., Dekker, C., & Rowland, B.D.Distinct Roles for Condensin’s Two ATPase Sites in Chromosome CondensationMolecular Cell, 76(5): 724–737.e5.
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  Hassler, M., Shaltiel, I.A., Kschonsak, M., Simon, B., Merkel, F., Thärichen, L., Bailey, H.J., Maco\vs}}ek, J., Bravo, S., Metz, J., Hennig, J., & Haering, C.H.Structural Basis of an Asymmetric Condensin ATPase CycleMolecular Cell, 74(6): 1175–1188.
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  Manalastas-Cantos, K., Kschonsak, M., Haering, C.H., & Svergun, D.I.Solution structure and flexibility of the condensin HEAT-repeat subunit Ycg1J Biol Chem, 294(37): 13822–13829.
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  Schiklenk, C., Petrova, B., Kschonsak, M., Hassler, M., Klein, C., Gibson, T.J., & Haering, C.H.Control of mitotic chromosome condensation by the fission yeast transcription factor Zas1Journal of Cell Biology, 217(7): 2383–2401.
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  Li, Y., Muir, K.W., Bowler, M.W., Metz, J., Haering, C.H., & Panne, D.Structural basis for Scc3-dependent cohesin recruitment to chromatinELife, 7. https://doi.org/10.7554/elife.38356.
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  Hassler, M., Shaltiel, I.A., & Haering, C.H.Towards a Unified Model of SMC Complex FunctionCurrent Biology, 28(21): R1266-R1281.
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  Ganji, M., Shaltiel, I.A., Bisht, S., Kim, E., Kalichava, A., Haering, C.H., & Dekker, C.Real-time imaging of DNA loop extrusion by condensinScience, 360(6384): 102–105.
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  Hocquet, C., Robellet, X., Modolo, L., Sun, X.-M., Burny, C., Cuylen-Haering, S., Toselli, E., Clauder-Münster, S., Steinmetz, L., Haering, C.H., Marguerat, S., & Bernard, P.Condensin controls cellular RNA levels through the accurate segregation of chromosomes instead of directly regulating transcriptionELife, 7. https://doi.org/10.7554/elife.38517.
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  Schwarzer, W., Abdennur, N., Goloborodko, A., Pekowska, A., Fudenberg, G., Loe-Mie, Y., Fonseca, N.A., Huber, W., Haering, C.H., Mirny, L., & Spitz, F.Two independent modes of chromatin organization revealed by cohesin removalNature, 551(7678): 51–56.
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  Kschonsak, M., Merkel, F., Bisht, S., Metz, J., Rybin, V., Hassler, M., & Haering, C.H.Structural Basis for a Safety-Belt Mechanism That Anchors Condensin to ChromosomesCell, 171(3): 588–600.e24.
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  Eeftens, J.M., Bisht, S., Kerssemakers, J., Kschonsak, M., Haering, C.H., & Dekker, C.Real-time detection of condensin-driven DNA compaction reveals a multistep binding mechanismThe EMBO Journal, 36(23): 3448–3457.
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  Terakawa, T., Bisht, S., Eeftens, J.M., Dekker, C., Haering, C.H., & Greene, E.C.The condensin complex is a mechanochemical motor that translocates along DNAScience, 358(6363): 672–676.
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  Schiklenk, C., Petrova, B., & Haering, C.H.A Protocol for Measuring Mitotic Chromosome Condensation Quantitatively in Fission Yeast CellsMethods Mol Biol, 1515: 245–255.
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  Eeftens, J.M., Katan, A.J., Kschonsak, M., Hassler, M., de Wilde, L., Dief, E.M., Haering, C.H., & Dekker, C.Condensin Smc2-Smc4 Dimers Are Flexible and DynamicCell Reports, 14(8): 1813–1818.
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  Haering, C.H., & Gruber, S.SnapShot: SMC Protein Complexes Part ICell, 164(1-2): 326–326.e1.
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  Muir, K.W., Kschonsak, M., Li, Y., Metz, J., Haering, C.H., & Panne, D.Structure of the Pds5-Scc1 Complex and Implications for Cohesin FunctionCell Reports, 14(9): 2116–2126.
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  Toselli-Mollereau, E., Robellet, X., Fauque, L., Lemaire, S., Schiklenk, C., Klein, C., Hocquet, C., Legros, P., N’Guyen, L., Mouillard, L., Chautard, E., Auboeuf, D., Haering, C.H., & Bernard, P.Nucleosome eviction in mitosis assists condensin loading and chromosome condensationThe EMBO Journal, 35(14): 1565–1581.
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  Haering, C.H., & Gruber, S.SnapShot: SMC Protein Complexes Part IICell, 164(4): 818–818.e1.
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  Kschonsak, M., & Haering, C.H.Shaping mitotic chromosomes: From classical concepts to molecular mechanismsBioessays, 37(7): 755–66.
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  Frosi, Y., & Haering, C.H.Control of chromosome interactions by condensin complexesCurrent Opinion in Cell Biology, 34: 94–100.
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  H\’e}}rich\’e}}, J.-K., Lees, J.G., Morilla, I., Walter, T., Petrova, B., Roberti, M.J., Hossain, M.J., Adler, P., Fern\’a}}ndez, J.M., Krallinger, M., Haering, C.H., Vilo, J., Valencia, A., Ranea, J.A., Orengo, C., & Ellenberg, J.Integration of biological data by kernels on graph nodes allows prediction of new genes involved in mitotic chromosome condensation (D. G. Drubin, Ed.)Molecular Biology of the Cell, 25(16): 2522–2536.
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  Piazza, I., Rutkowska, A., Ori, A., Walczak, M., Metz, J., Pelechano, V., Beck, M., & Haering, C.H.Association of condensin with chromosomes depends on DNA binding by its HEAT-repeat subunitsNature Structural \& Molecular Biology, 21(6): 560–568.
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  Haering, C.H., & Losada, A.Understanding chromatin and chromosomes: from static views to dynamic thinkingEMBO Reports, 14(2): 109–111.
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  Petrova, B., Dehler, S., Kruitwagen, T., Heriche, J.K., Miura, K., & Haering, C.H.Quantitative analysis of chromosome condensation in fission yeastMol Cell Biol, 33(5): 984–98.
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  Piazza, I., Haering, C.H., & Rutkowska, A.Condensin: crafting the chromosome landscapeChromosoma, 122(3): 175–190.
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  Cuylen, S., Metz, J., Hruby, A., & Haering, C.H.Entrapment of Chromosomes by Condensin Rings Prevents Their Breakage during CytokinesisDevelopmental Cell, 27(4): 469–478.
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  Haering, C.H., & Jessberger, R.Cohesin in determining chromosome architectureExperimental Cell Research, 318(12): 1386–1393.
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  Rutkowska, A., Haering, C.H., & Schultz, C.A FlAsH-based cross-linker to study protein interactions in living cellsAngew Chem Int Ed Engl, 50(52): 12655–8.
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  Petrova, B., & Haering, C.H.Condensin engages chromatinChembiochem, 12(16): 2399–401.
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  Cuylen, S., & Haering, C.H.Deciphering condensin action during chromosome segregationTrends in Cell Biology, 21(9): 552–559.
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  Cuylen, S., Metz, J., & Haering, C.H.Condensin structures chromosomal DNA through topological linksNature Structural and Molecular Biology, 18(8): 894–901.
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  Kurze, A., Michie, K.A., Dixon, S.E., Mishra, A., Itoh, T., Khalid, S., Strmecki, L., Shirahige, K., Haering, C.H., Löwe, J., & Nasmyth, K.A positively charged channel within the Smc1/Smc3 hinge required for sister chromatid cohesionThe EMBO Journal, 30(2): 364–378.
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  Cuylen, S., & Haering, C.H.A New Cohesive Team to Mediate DNA LoopingCell Stem Cell, 7(4): 424–426.
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  Nasmyth, K., & Haering, C.H.Cohesin: Its Roles and MechanismsAnnual Review of Genetics, 43(1): 525–558.
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  Haering, C.H.Foreword: the many fascinating functions of SMC protein complexesChromosome Research, 17(2): 127–129.
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  Haering, C.H., Farcas, A.-M., Arumugam, P., Metson, J., & Nasmyth, K.The cohesin ring concatenates sister DNA moleculesNature, 454(7202): 297–301.
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  Arumugam, P., Nishino, T., Haering, C.H., Gruber, S., & Nasmyth, K.Cohesin’s ATPase Activity Is Stimulated by the C-Terminal Winged-Helix Domain of Its Kleisin SubunitCurrent Biology, 16(20): 1998–2008.
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  Nasmyth, K., & Haering, C.H.THE STRUCTURE AND FUNCTION OF SMC AND KLEISIN COMPLEXESAnnual Review of Biochemistry, 74(1): 595–648.
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  Haering, C.H., Schoffnegger, D., Nishino, T., Helmhart, W., Nasmyth, K., & Löwe, J.Structure and Stability of Cohesin’s Smc1-Kleisin InteractionMolecular Cell, 15(6): 951–964.
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  Haering, C.H., & Nasmyth, K.Building and breaking bridges between sister chromatidsBioessays, 25(12): 1178–91.
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  Arumugam, P., Gruber, S., Tanaka, K., Haering, C.H., Mechtler, K., & Nasmyth, K.ATP Hydrolysis Is Required for Cohesin’s Association with ChromosomesCurrent Biology, 13(22): 1941–1953.
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  Gruber, S., Haering, C.H., & Nasmyth, K.Chromosomal Cohesin Forms a RingCell, 112(6): 765–777.
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  Haering, C.H., Löwe, J., Hochwagen, A., & Nasmyth, K.Molecular Architecture of SMC Proteins and the Yeast Cohesin ComplexMolecular Cell, 9(4): 773–788.
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  Ivanov, D., Schleiffer, A., Eisenhaber, F., Mechtler, K., Haering, C.H., & Nasmyth, K.Eco1 Is a Novel Acetyltransferase that Can Acetylate Proteins Involved in CohesionCurrent Biology, 12(4): 323–328.
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  Haering, C.H., Nakamura, T.M., Baumann, P., & Cech, T.R.Analysis of telomerase catalytic subunit mutants in vivo and in vitro in Schizosaccharomyces pombeProc Natl Acad Sci U S A, 97(12): 6367–72.
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