Kordon MM, Szczurek A, Berniak K, Szelest O, Solarczyk K, Tworzydło M, Wachsmann-Hogiu S, Vaahtokari A, Cremer C, Pederson T and Dobrucki JW. (2019). PML-like subnuclear bodies, containing XRCC1, juxtaposed to DNA replication-based single-strand breaks. FASEB J, 33: 2301–2313. Link

Neumann J, Ziegler K, Gelléri M, Fröhlich-Nowoisky J, Liu F, Bellinghausen I, Schuppan D, Birk U, Pöschl U, Cremer C and Lucas K. (2019). Nanoscale distribution of TLR4 on primary human macrophages stimulated with LPS and ATI. Nanoscale, doi: 10.1039/C9NR00943D. Link

Ziegler K, Neumann J, Liu F, Fröhlich-Nowoisky J, Cremer C, Saloga J, Reinmuth-Selzle K, Pöschl U, Schuppan D, Bellinghausen I and Lucas K. (2019). Nitration of wheat amylase trypsin inhibitors increases their innate and adaptive immunostimulatory potential in vitro. Front Immunol, 9: 3174. Link


Chen SY, Bestvater F, Schaufler W, Heintzmann R and Cremer C. (2018). Patterned illumination single molecule localization microscopy (piSMLM): User defined blinking regions of interest. Opt. Express, 26: 30009–30020. Link

Cremer C, Szczurek A, Strickfaden H, Birk U, Cremer M and Cremer T. (2018). Der Zellkern – eine Stadt in der Zelle, Teil 2. Biol. Unserer Zeit, 48: 45–53. Link

Cremer C. (2018). Mit Laserlicht ins Innerste des Zellkerns. pages 43-91, In: Heidelberger Physiker berichten. Appenzeller I, Dubbers D, Siebig HG and Winnacker A (ed). Physikalisches Institut, Heidelberg.

Cremer C. (2018). Mobilität und Dynamik im Zellkern. Heidelberger Jahrbücher, 3: 157-192. Link

Cremer T, Cremer M and Cremer C. (2018). The 4D nucleome: Genome compartmentalization in an evolutionary context. Biochem, 83: 313–325. Link

Eryilmaz M, Schmitt E, Krufczik M, Theda F, Lee JH, Cremer C, Bestvater F, Schaufler W, Hausmann M and Hildenbrand G. (2018). Localization microscopy analyses of MRE11 clusters in 3D-conserved cell nuclei of different cell lines. Cancer, 10: 25. Link

Schink A, Neumann J, Leifke AL, Ziegler K, Fröhlich-Nowoisky J, Cremer C, Thines E, Weber B, Pöschl U, Schuppan D and Lucas K. (2018). Screening of herbal extracts for TLR2- and TLR4-dependent anti-inflammatory effects. PLoS ONE, 13: e0203907.    Link

Szczurek A, Birk U, Knecht H, Dobrucki J, Mai S and Cremer C. (2018). Super-resolution binding activated localization microscopy through reversible change of DNA conformation. Nucleus, 9: 182–189. Link


Bach M, Savini C, Krufczik M, Cremer C, Rösl F and Hausmann M. (2017). Super-resolution localization microscopy of γ-H2AX and heterochromatin after folate deficiency. Int J Mol Sci, 18: 1726. Link

Birk U, Von Hase J and Cremer C. (2017). Super-resolution microscopy with very large working distance by means of distributed aperture illumination. Sci Rep, 7: 3685. Link

Birk U, Szczurek A and Cremer C. (2017). Super-resolved linear fluorescence localization microscopy using photostable fluorophores: A virtual microscopy study. Opt Commun, 404: 42–50. Link

Birk UJ. (2017). Super-Resolution Microscopy: A Practical Guide. Wiley-VCH. Link

Cremer C, Szczurek A, Schock F, Gourram A and Birk U. (2017). Super-resolution microscopy approaches to nuclear nanostructure imaging. Methods, 123: 11–13. Link

Hausmann M, Ilić N, Pilarczyk G, Lee JH, Logeswaran A, Borroni AP, Krufczik M, Theda F, Waltrich N, Bestvater F, Hildenbrand G, Cremer C and Blank M. (2017). Challenges for super-resolution localization microscopy and biomolecular fluorescent nano-probing in cancer research. Int J Mol Sci, 18: 2066. Link

Richter V, Bruns S, Bruns T, Weber P, Wagner M, Cremer C and Schneckenburger H. (2017). Axial tomography in live cell laser microscopy. J Biomed Opt, 22: 91505. Link

Richter V, Bruns S, Bruns T, Piper M, Weber P, Wagner M, Cremer C and Schneckenburger H. (2017). Axial tomography in 3D live cell microscopy. Proceedings Volume 10414, Advances in Microscopic Imaging. SPIE: 104140P. Link

Szczurek A, Klewes L, Xing J, Gourram A, Birk U, Knecht H, Dobrucki JW, Mai S and Cremer C. (2017). Imaging chromatin nanostructure with binding-activated localization microscopy based on DNA structure fluctuations. Nucleic Acids Res, 45: e56. Link


Pierzyńska-Mach A, Szczurek A, Cella Zanacchi F, Pennacchietti F, Drukała J, Diaspro A, Cremer C, Darzynkiewicz Z and Dobrucki JW. (2016). Subnuclear localization, rates and effectiveness of UVC-induced unscheduled DNA synthesis visualized by fluorescence widefield, confocal and super-resolution microscopy. Cell Cycle, 15: 1156–1167. Link

Boyd PS, Struve N, Bach M, Eberle JP, Gote M, Schock F, Cremer C, Kriegs M and Hausmann M. (2016). Clustered localization of EGFRvIII in glioblastoma cells as detected by high precision localization microscopy. Nanoscale, 8: 20037–20047. Link

Cremer C and Birk U. (2016). Perspectives in super-resolved fluorescence microscopy: What comes next? Front Phys, 4: 11. Link

Lopez Perez R, Best G, Nicolay NH, Greubel C, Rossberger S, Reindl J, Dollinger G, Weber KJ, Cremer C and Huber PE. (2016). Superresolution light microscopy shows nanostructure of carbon ion radiation-induced DNA double-strand break repair foci. FASEB J, 30: 2767–2776. Link

Moser F, Hildenbrand G, Müller P, Al Saroori A, Biswas A, Bach M, Wenz F, Cremer C, Burger N, Veldwijk MR and Hausmann M. (2016). Cellular uptake of gold nanoparticles and their behavior as labels for localization microscopy. Biophys J, 110: 947–953. Link

Neumann J, Scherhag A, Otten S, Shen F, Leifke AL, Birk U, Greb C, Lucas K and Cremer C. (2016). Chronic inflammation under the microscope. Micros Today, 24: 38–45. Link

Szczurek A, Xing J, Birk UJ and Cremer C. (2016). Single molecule localization microscopy of mammalian cell nuclei on the nanoscale. Front Genet, 7: 114. Link

Zurek-Biesiada D, Szczurek AT, Prakash K, Mohana GK, Lee HK, Roignant JY, Birk UJ, Dobrucki JW and Cremer C. (2016). Localization microscopy of DNA in situ using Vybrant® DyeCycleTM Violet fluorescent probe: A new approach to study nuclear nanostructure at single molecule resolution. Exp Cell Res, 343: 97–106. Link

Żurek-Biesiada D, Szczurek AT, Prakash K, Best G, Mohana GK, Lee HK, Roignant JY, Dobrucki JW, Cremer C and Birk U. (2016). Quantitative super-resolution localization microscopy of DNA in situ using Vybrant®DyeCycleTM Violet fluorescent probe. Data Br, 7: 157–171. Link


Cremer T, Cremer M, Hübner B, Strickfaden H, Smeets D, Popken J, Sterr M, Markaki Y, Rippe K and Cremer C. (2015). The 4D nucleome: Evidence for a dynamic nuclear landscape based on co-aligned active and inactive nuclear compartments. FEBS Lett, 589: 2931–2943. Link

Grab AL, Hagmann M, Dahint R and Cremer C. (2015). Localization microscopy (SPDM) facilitates high precision control of lithographically produced nanostructures. Micron, 68: 1–7. Link

Kirmes I, Szczurek A, Prakash K, Charapitsa I, Heiser C, Musheev M, Schock F, Fornalczyk K, Ma D, Birk U, Cremer C and Reid G. (2015). A transient ischemic environment induces reversible compaction of chromatin. Genome Biol, 16: 246. Link

Oleksiuk O, Abba M, Tezcan KC, Schaufler W, Bestvater F, Patil N, Birk U, Hafner M, Altevogt P, Cremer C and Allgayer H. (2015). Single-molecule localization microscopy allows for the analysis of cancer metastasis-specific miRNA distribution on the nanoscale. Oncotarget, 6: 44745–44757. Link

Prakash K, Fournier D, Redl S, Best G, Borsos M, Tiwari VK, Tachibana-Konwalski K, Ketting RF, Parekh SH, Cremer C and Birk UJ. (2015). Superresolution imaging reveals structurally distinct periodic patterns of chromatin along pachytene chromosomes. Proc Natl Acad Sci, 112: 14635–14640. Link

Stuhlmüller M, Schwarz-Finsterle J, Fey E, Lux J, Bach M, Cremer C, Hinderhofer K, Hausmann M and Hildenbrand G. (2015). In situ optical sequencing and structure analysis of a trinucleotide repeat genome region by localization microscopy after specific COMBO-FISH nano-probing. Nanoscale, 7: 17938–17946. Link


Cremer C, Kaufmann R, Gunkel M, Polanski F, Müller P, Dierkes R, Degenhard S, Wege C, Hausmann M and Birk U. (2014). Application perspectives of localization microscopy in virology. Histochem Cell Biol, 142: 43–59. Link

Cremer C. (2014). Far-field Light Microscopy. pages 1–13, In: eLS. John Wiley & Sons, Ltd, Chichester, UK.   Link

Cremer C. (2014). Vorstoß in atomare Dimensionen. Laborjournal. Link

Cremer T, Cremer C and Lichter P. (2014). Recollections of a scientific journey published in human genetics: From chromosome territories to interphase cytogenetics and comparative genome hybridization. Hum Genet, 133: 403–416. Link

Müller P, Lemmermann NA, Kaufmann R, Gunkel M, Paech D, Hildenbrand G, Holtappels R, Cremer C and Hausmann M. (2014). Spatial distribution and structural arrangement of a murine cytomegalovirus glycoprotein detected by SPDM localization microscopy. Histochem Cell Biol, 142: 61–67. Link

Szczurek AT, Prakash K, Lee HK, Żurek-Biesiada DJ, Best G, Hagmann M, Dobrucki JW, Cremer C and Birk U. (2014). Single molecule localization microscopy of the distribution of chromatin using Hoechst and DAPI fluorescent probes. Nucleus, 5: 331–340. Link

Wang Q, Dierkes R, Kaufmann R and Cremer C. (2014). Quantitative analysis of individual hepatocyte growth factor receptor clusters in influenza A virus infected human epithelial cells using localization microscopy. Biochim Biophys Acta - Biomembr, 1838: 1191–1198. Link


Best G, Amberger R and Cremer C. (2013). Super-resolution microscopy: Interference and pattern techniques.pages 354–374, In: Fluorescence Microscopy: From principles to biological applications. Kubitscheck U (ed). Wiley-VCH Verlag GmbH & Co. KGaA. Weinheim, Germany. Link

Cremer C and Masters BR. (2013). Resolution enhancement techniques in microscopy. Eur Phys J H, 38: 281–344. Link

Hausmann M, Müller P, Kaufmann R and Cremer C. (2013). Entering the nano-cosmos of the cell by means of spatial position determination microscopy (SPDM): Implications for medical diagnostics and radiation research. pages 93–95. In: International Symposium on Biomedical Engineering and Medical Physics, 10-12 October, 2012, Riga, Latvia. IFMBE Proceedings, vol 38. Dekhtyar Y, Katashev A and Lancere L (ed). Springer, Berlin, Heidelberg. Link

Rossberger S, Best G, Baddeley D, Heintzmann R, Birk U, Dithmar S and Cremer C. (2013). Combination of structured illumination and single molecule localization microscopy in one setup. J Opt, 15: 94003. Link

Rossberger S, Ach T, Best G, Cremer C, Heintzmann R and Dithmar S. (2013). High-resolution imaging of autofluorescent particles within drusen using structured illumination microscopy. Br J Ophthalmol, 97: 518–523. Link


Ach T, Best G, Rossberger S, Heintzmann R, Cremer C and Dithmar S. (2012). Autofluorescence imaging of human RPE cell granules using structured illumination microscopy. Br J Ophthalmol, 96: 1141–1144. Link

Cremer C. (2012). Optics far beyond the diffraction limit. pages 1351–1389, In: Springer handbook of lasers and optics. Träger F (ed). Springer, Heidelberg. Link

Cremer C. (2012). Vom Farbenkreis zum Supermikroskop: Goethe – Dilettant oder Fachmann? pages 74–94, In: Bayerische Akademie der schönen Künste. Jahrbuch 26. Göttingen: Wallstein Verlag.  Link

Cremer T, Markaki Y, Hübner B, Zunhammer A, Strickfaden H, Beichmanis S, Heß M, Shermelleh L, Cremer M and Cremer C. (2012). Chromosome territory organization within the nucleus. page 451–484.  In: Encyclopedia of molecular cell biology and molecular medicine: Epigenetic regulation and epigenomics. 2nd edition. Meyers RA (ed). Wiley‐VCH. Link

Huber O, Brunner A, Maier P, Kaufmann R, Couraud PO, Cremer C and Fricker G. (2012). Localization microscopy (SPDM) reveals clustered formations of P-glycoprotein in a human blood-brain barrier model. PLoS One, 7: e44776. Link

Kaufmann R, Cremer C and Gall JG. (2012). Superresolution imaging of transcription units on newt lampbrush chromosomes. Chromosom Res, 20: 1009–1015. Link

Kaufmann R, Piontek J, Grüll F, Kirchgessner M, Rossa J, Wolburg H, Blasig IE and Cremer C. (2012). Visualization and quantitative analysis of reconstituted tight junctions using localization microscopy. PLoS One, 7: e31128. Link

Müller P, Weiland Y, Kaufmann R, Gunkel M, Hillebrandt S, Cremer C and Hausmann M. (2012). Analysis of fluorescent nanostructures in biological systems by means of Spectral Position Determination Microscopy (SPDM). Pages 3–12. In:  Current Microscopy Contributions to Advances in Science and Technology. Méndez-Vilas A (ed). Formatex, Badajoz. Link

Maruyama EO, Hori T, Tanabe H, Kitamura H, Matsuda R, Tone S, Hozak P, Habermann FA, von Hase J, Cremer C, Fukagawa T and Harata M. (2012). The actin family member Arp6 and the histone variant H2A.Z are required for spatial positioning of chromatin in chicken cell nuclei. J Cell Sci, 125: 3739–3743. Link


Baddeley D, Crossman D, Rossberger S, Cheyne JE, Montgomery JM, Jayasinghe ID, Cremer C, Cannell MB and Soeller C. (2011). 4D super-resolution microscopy with conventional fluorophores and single wavelength excitation in optically thick cells and tissues. PLoS One, 6: e20645. Link

Best G, Amberger R, Baddeley D, Ach T, Dithmar S, Heintzmann R and Cremer C. (2011). Structured illumination microscopy of autofluorescent aggregations in human tissue. Micron, 42: 330–335. Link

Brunner A, Best G, Amberger R, Lemmer P, Ach T, Dithmar S, Heintzmann R and Cremer C. (2011). Fluorescence microscopy with structured excitation illumination. pages 543–560, In: Handbook of biomedical optics. Boas DA, Pitris C and Ramanujam N (ed). CRC Press, Boca Raton. Link

Cremer C. (2011). Lichtmikroskopie unterhalb des Abbe-Limits. Lokalisationsmikroskopie. Phys unserer Zeit, 42: 21–29. Link

Cremer C. (2011). Mikroskope und Mikroben. pages 99-136, In: Viren und andere Mikroben: Heil oder Plage? Zum 100. Todestag von Robert Koch. Sonntag K (ed). Universitätsverlag Winter, Heidelberg. Link

Cremer C, Kaufmann R, Gunkel M, Pres S, Weiland Y, Müller P, Ruckelshausen T, Lemmer P, Geiger F, Degenhard S, Wege C, Lemmermann NAW, Holtappels R, Strickfaden H and Hausmann M. (2011). Superresolution imaging of biological nanostructures by spectral precision distance microscopy. Biotechnol J, 6: 1037–1051. Link

Hübschmann D, Kepper N, Cremer C and Kreth G. (2011). Quantitative approaches to nuclear architecture analysis and modelling. pages 87–129, In: Advances in nuclear architecture. Adams NM (ed). Springer, New York. Link

Kaufmann R, Müller P, Hildebrand G, Hausmann M and Cremer C. (2011). Analysis of Her2/neu membrane protein clusters in different types of breast cancer cells using localization microscopy. J Microsc, 242: 46–54. Link

Kaufmann R, Müller P, Hausmann M and Cremer C. (2011). Imaging label-free intracellular structures by localisation microscopy. Micron, 42: 348–352. Link

Markaki Y, Gunkel M, Schermelleh L, Beichmanis S, Neumann J, Heidemann M, Leonhardt H, Eick D, Cremer C and Cremer T. (2010). Functional nuclear organization of transcription and DNA replication: A topographical marriage between chromatin domains and the interchromatin compartment. Cold Spring Harb Symp Quant Biol, 75: 475–492. Link

Remmele S, Oehm B, Staier F, Eipel H, Cremer C and Hesser J. (2011). Reconstruction of high-resolution fluorescence microscopy images based on axial tomography.  page 79624O. In: SPIE 7962, Medical Imaging 2011: Image Processing. Dawant BM and Haynor DR (ed). SPIE.  Link

Staier F, Eipel H, Matula P, Evsikov AV, Kozubek M, Cremer C and Hausmann M. (2011). Micro axial tomography: A miniaturized, versatile stage device to overcome resolution anisotropy in fluorescence light microscopy. Rev Sci Instrum, 82: 093701. Link

Weiland Y, Lemmer P and Cremer C. (2011). Combining FISH with localisation microscopy: Super-resolution imaging of nuclear genome nanostructures. Chromosom Res, 19: 5–23. Link


Ach T, Best G, Ruppenstein M, Amberger R, Cremer C and Dithmar S. (2010). Hochauflösende Fluoreszenzmikroskopie des retinalen Pigmentepithels mittels strukturierter Beleuchtung. Der Ophthalmol, 107: 1037–1042. Link

Bohn M, Diesinger P, Kaufmann R, Weiland Y, Müller P, Gunkel M, von Ketteler A, Lemmer P, Hausmann M, Heermann DW and Cremer C. (2010). Localization microscopy reveals expression-dependent parameters of chromatin nanostructure. Biophys J, 99: 1358–1367. Link

Cremer C. (2010). Licht aus dem Dunkeln. Phys J, 9: 18–19. Link

Cremer C, von Ketteler A, Lemmer P, Kaufmann R, Weiland Y, Müller P, Hausmann M, Gunkel M, Ruckelshausen T, Baddeley D and Amberger R. (2010). Far-field fluorescence microscopy of cellular structures at molecular optical resolution. pages 1–35, In: Nanoscopy and multidimensional optical fluorescence microscopy. Diaspro A (ed). CRC Press, Boca Raton. Link

Gröner N, Capoulade J, Cremer C and Wachsmuth M. (2010). Measuring and imaging diffusion with multiple scan speed image correlation spectroscopy. Opt Express, 18: 21225–21237. Link

Grossmann C, Schwarz-Finsterle J, Schmitt E, Birk U, Hildenbrand G, Cremer C, Trakhtenbrot L and Hausmann M. (2010). Variations of the spatial fluorescence distribution in ABL gene chromatin domains measured in blood cell nuclei by SMI microscopy after COMBO – FISH labelling. pages 688–695. In: Microscopy: Science, technology, applications and vducation. Vol. 1. Mendez-Vilas A and Diaz JB (ed). Formatex, Badajoz. Link

Heride C, Ricoul M, Kiêu K, von Hase J, Guillemot V, Cremer C, Dubrana K and Sabatier L. (2010). Distance between homologous chromosomes results from chromosome positioning constraints. J Cell Sci, 123: 4063–4075. Link

Lang M, Jegou T, Chung I, Richter K, Münch S, Udvarhelyi A, Cremer C, Hemmerich P, Engelhardt J, Hell SW and Rippe K. (2010). Three-dimensional organization of promyelocytic leukemia nuclear bodies. J Cell Sci, 123: 392–400. Link

Müller P, Schmitt E, Jacob A, Hoheisel J, Kaufmann R, Cremer C and Hausmann M. (2010). COMBO-FISH enables high precision localization microscopy as a prerequisite for nanostructure analysis of genome loci. Int J Mol Sci, 11: 4094–4105. Link

Rouquette J, Cremer C, Cremer T and Fakan S. (2010). Functional nuclear architecture studied by microscopy: Present and future. International Review of Cell and Molecular Biology, 282: 1–90. Link

Tykocinski LO, Sinemus A, Rezavandy E, Weiland Y, Baddeley D, Cremer C, Sonntag S, Willecke K, Derbinski J and Kyewski B. (2010). Epigenetic regulation of promiscuous gene expression in thymic medullary epithelial cells. Proc Natl Acad Sci, 107: 19426–19431. Link


Baddeley D, Jayasinghe ID, Cremer C, Cannell MB and Soeller C. (2009). Light-induced dark states of organic fluochromes enable 30 nm resolution imaging in standard media. Biophys J, 96: L22–L24. Link

Baddeley D, Chagin VO, Schermelleh L, Martin S, Pombo A, Carlton PM, Gahl A, Domaing P, Birk U, Leonhardt H, Cremer C and Cardoso MC. (2010). Measurement of replication structures at the nanometer scale using super-resolution light microscopy. Nucleic Acids Res, 38: e8. Link

Baddeley D, Weiland Y, Batram C, Birk U and Cremer C. (2010). Model based precision structural measurements on barely resolved objects. J Microsc, 237: 70–78. Link

Cremer C. (2009). Lichtoptische Nanoskopie. Biospektrum,  27–30.

Gunkel M, Erdel F, Rippe K, Lemmer P, Kaufmann R, Hörmann C, Amberger R and Cremer C. (2009). Dual color localization microscopy of cellular nanostructures. Biotechnol J, 4: 927–938. Link

Kaufmann R, Lemmer P, Gunkel M, Weiland Y, Müller P, Hausmann M, Baddeley D, Amberger R and Cremer C. (2009). SPDM: Single molecule superresolution of cellular nanostructures, pages 71850J. In: SPIE Proceedings Vol. 7185. Enderlein J, Gryczynski ZK and Erdmann R (ed). SPIE.  Link


Lemmer P, Gunkel M, Weiland Y, Müller P, Baddeley D, Kaufmann R, Urich A, Eipel H, Amberger R, Hausmann M and Cremer C. (2009). Using conventional fluorescent markers for far-field fluorescence localization nanoscopy allows resolution in the 10-nm range. J Microsc, 235: 163–171. Link

Batram C, Baddeley D, Kreth G and Cremer C. (2008). High precision size measurement of centromere 8 and the 8q24/c-myc gene region in metaphase and interphase human fibroblasts indicate differential condensation. J Struct Biol, 164: 293–303. Link

Birk UJ, Baddeley D and Cremer C. (2008). Nanosizing by spatially modulated illumination (SMI) microscopy and applications to the nucleus. pages 389–401, In: The Nucleus, Vol. 2: Chromatin, transcription, envelope, proteins, dynamics, and imaging.  Hancock R (ed). Humana Press, New York. Link

Cremer C. (2008). Vorstoß in den Nanokosmos: Neue Mikroskope überschreiten für bislang unüberwindlich gehaltene Grenzen. Ruperto Carola. Link

Friedland W, Paretzke HG, Ballarini F, Ottolenghi A, Kreth G and Cremer C. (2008). First steps towards systems radiation biology studies concerned with DNA and chromosome structure within living cells. Radiat Environ Biophys, 47: 49–61. Link

Lemmer P, Gunkel M, Baddeley D, Kaufmann R, Urich A, Weiland Y, Reymann J, Müller P, Hausmann M and Cremer C. (2008). SPDM: Light microscopy with single-molecule resolution at the nanoscale. Appl Phys B, 93: 1–12. Link

Rauch J, Knoch TA, Solovei I, Teller K, Stein S, Buiting K, Horsthemke B, Langowski J, Cremer T, Hausmann M and Cremer C. (2008). Light optical precision measurements of the active and inactive Prader–Willi syndrome imprinted regions in human cell nuclei. Differentiation, 76: 66–82. Link

Reymann J, Baddeley D, Gunkel M, Lemmer P, Stadter W, Jegou T, Rippe K, Cremer C and Birk U. (2008). High-precision structural analysis of subnuclear complexes in fixed and live cells via spatially modulated illumination (SMI) microscopy. Chromosom Res, 16: 367–382. Link

Ronneberger O, Baddeley D, Scheipl F, Verveer PJ, Burkhardt H, Cremer C, Fahrmeir L, Cremer T and Joffe B. (2008). Spatial quantitative analysis of fluorescently labeled nuclear structures: Problems, methods, pitfalls. Chromosom Res, 16: 523–562. Link


Baddeley D, Batram C, Weiland Y, Cremer C and Birk UJ. (2007). Nanostructure analysis using spatially modulated illumination microscopy. Nat Protoc, 2: 2640–2646. Link

Birk UJ, Upmann U, Wagner C and Cremer C. (2007). Size estimation of protein clusters in the nanometer range by using spatially modulated illumination microscopy. pages 272–279, In: Modern research and educational topics in microscopy. Vol. 1. Méndez-Vilas A and Díaz J (ed). Formatex, Badajoz. Link

Caddle LB, Grant JL, Szatkiewicz J, van Hase J, Shirley BJ, Bewersdorf J, Cremer C, Arneodo A, Khalil A and Mills KD. (2007). Chromosome neighborhood composition determines translocation outcomes after exposure to high-dose radiation in primary cells. Chromosom Res, 15: 1061–1073. Link

Fenz S, Mathée H, Kreth G, Baddeley D, Weiland Y, Schwarz-Finstlerle J, Cremer CG and Birk UJ. (2007). Two-color intranuclear distance measurements of gene regions in human lymphocytes. pages 663002. In: Proceedings SPIE 6630, confocal, multiphoton, and nonlinear microscopic imaging III. Wilson T and Periasamy A (ed). SPIE. Link

Kreth G, Pazhanisamy SK, Hausmann M and Cremer C. (2007). Cell type-specific quantitative predictions of radiation-induced chromosome aberrations: A computer model approach. Radiat Res, 167: 515–525. Link

Kreth G and Cremer C. (2007). Chromatin structure and the formation of chromosomal alterations. pages 201–209, In: Chromosomal Alterations: Methods, results and importance in human health. Obe G and Vijayalaxmi (ed). Springer, Berlin. Link

Mathée H, Baddeley D, Wotzlaw C, Cremer CG and Birk UJ. (2007). Spatially modulated illumination microscopy using one objective lens. Opt Eng, 46: 083603. Link

Schwarz-Finsterle J, Stein S, Groβmann C, Schmitt E, Trakhtenbrot L, Rechavi G, Amariglio N, Cremer C and Hausmann M. (2007). Comparison of triple helical COMBO-FISH and standard FISH by means of quantitative microscopic image analysis of abl/bcr positions in cell nuclei. J Biochem Biophys Methods, 70: 397–406. Link