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2. MicroRNA Signatures Associated with Basal Cell Carcinoma Subtypes

Author

Suzanne Fastner, Hafeez Rahman, Jose Gutierrez, Nathan Shen, Scott R. Florell, Abigail Florell, Chris J. Stubben, Kenneth M. Boucher, Dekker C. Deacon, Robert L. Judson-Torres, and Douglas Grossman

Subjects
BCC, miRNA, Sequencing, Signature, Subtype, Dermatology, RL1-803
Abstract

Basal cell carcinoma (BCC) is classified histologically into subtypes that determine treatment decisions. MicroRNAs (miRs) are short noncoding RNAs that may serve as diagnostic biomarkers. We investigated if particular miRs could distinguish BCC subtypes. We sequenced miRs from 55 archival BCC and 9 control skin specimens and then validated these miRs by qRT-PCR assay on a second BCC cohort (18 superficial, 16 nodular, 15 infiltrative) and control skin (n = 12). Expression values for individual miRs were normalized to miR-16-5p, which was the least variant among the control skin and BCC samples. We found that (i) miR-383-5p and miR-145-5p are downregulated in all BCC subtypes compared with control skin, (ii) miR-181c-5p is downregulated in superficial compared with invasive (nodular/infiltrative) BCC, and (iii) miR-22-5p and miR-708-5p are upregulated in infiltrative compared with superficial/nodular BCC and miR-30c-5p is downregulated in infiltrative compared with nodular BCC. Receiver operating characteristic analysis demonstrated excellent capacity of these miRs to discriminate between BCC and control skin (area under the curve, 0.94–0.98), whereas the capacity to discriminate between superficial and invasive subtypes was less robust (area under the curve, 0.7–0.8). Future prospective studies may determine the utility of these miRs as diagnostic biomarkers to guide biopsy and treatment of BCC.

Published
2024
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4. Amelanotic Melanoma Treated as Fungal Infection for Years

Author

Guilherme Kuceki, Dekker C. Deacon, and Aaron M. Secrest

Subjects
Dermatology, RL1-803
Abstract

This study describes a case of amelanotic lentigo maligna melanoma in a 69-year-old female that had been growing for approximately 5 years. The asymptomatic lesion had been previously diagnosed and treated as a fungal skin infection, an inflammatory rash, and an actinic keratosis that did not respond to standard treatments. Biopsy revealed confluent and nested atypical melanocytes at the dermal-epidermal junction, consistent with melanoma in situ. Excisional biopsy revealed invasive lentigo maligna melanoma, Breslow depth 0.3 mm, with positive melanoma in situ at margins. She is now 3 years post-Mohs surgery without recurrence. When working up a patient with a hypopigmented or inflammatory lesion not responding to standard therapies, physicians should always consider biopsy to rule out unusual neoplastic etiologies, such as amelanotic melanomas.

Published
2022
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5. Molecular Biomarkers for Melanoma Screening, Diagnosis and Prognosis: Current State and Future Prospects

Author

Dekker C. Deacon, Eric A. Smith, and Robert L. Judson-Torres

Subjects
melanoma, biomarkers, diagnostics, prognostics, likelihood ratio, Medicine (General), R5-920
Abstract

Despite significant progress in the development of treatment options, melanoma remains a leading cause of death due to skin cancer. Advances in our understanding of the genetic, transcriptomic, and morphologic spectrum of benign and malignant melanocytic neoplasia have enabled the field to propose biomarkers with potential diagnostic, prognostic, and predictive value. While these proposed biomarkers have the potential to improve clinical decision making at multiple critical intervention points, most remain unvalidated. Clinical validation of even the most commonly assessed biomarkers will require substantial resources, including limited clinical specimens. It is therefore important to consider the properties that constitute a relevant and clinically-useful biomarker-based test prior to engaging in large validation studies. In this review article we adapt an established framework for determining minimally-useful biomarker test characteristics, and apply this framework to a discussion of currently used and proposed biomarkers designed to aid melanoma detection, staging, prognosis, and choice of treatment.

Published
2021
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6. Cell-Surface Marker Signature for Enrichment of Ventricular Cardiomyocytes Derived from Human Embryonic Stem Cells

Author

Jennifer Veevers, Elie N. Farah, Mirko Corselli, Alec D. Witty, Karina Palomares, Jason G. Vidal, Nil Emre, Christian T. Carson, Kunfu Ouyang, Canzhao Liu, Patrick van Vliet, Maggie Zhu, Jeffrey M. Hegarty, Dekker C. Deacon, Jonathan D. Grinstein, Ralf J. Dirschinger, Kelly A. Frazer, Eric D. Adler, Kirk U. Knowlton, Neil C. Chi, Jody C. Martin, Ju Chen, and Sylvia M. Evans

Subjects
Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

Summary: To facilitate understanding of human cardiomyocyte (CM) subtype specification, and the study of ventricular CM biology in particular, we developed a broadly applicable strategy for enrichment of ventricular cardiomyocytes (VCMs) derived from human embryonic stem cells (hESCs). A bacterial artificial chromosome transgenic H9 hESC line in which GFP expression was driven by the human ventricular-specific myosin light chain 2 (MYL2) promoter was generated, and screened to identify cell-surface markers specific for MYL2-GFP-expressing VCMs. A CD77+/CD200− cell-surface signature facilitated isolation of >97% cardiac troponin I-positive cells from H9 hESC differentiation cultures, with 65% expressing MYL2-GFP. This study provides a tool for VCM enrichment when using some, but not all, human pluripotent stem cell lines. Tools generated in this study can be utilized toward understanding CM subtype specification, and enriching for VCMs for therapeutic applications. : In this article, Evans and colleagues generated an H9 BAC transgenic reporter cell line and performed a flow cytometry screen to identify a cell-surface signature specific for MYL2-GFP-expressing VCMs. The cell-surface signature, CD77+/CD200−, facilitated isolation of a nearly pure hESC-derived CM population, enriched for VCMs. VCM enrichment was achieved when using some, but not all, human pluripotent stem cell lines. Tools generated in this study serve to advance our understanding of CM subtype specification, commitment, and maturation. Keywords: cardiac differentiation, human embryonic stem cells, ventricular cardiomyocytes, cell-surface marker signature

Published
2018
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9. Mutation in mouse hei10, an e3 ubiquitin ligase, disrupts meiotic crossing over.

Author

Jeremy O Ward, Laura G Reinholdt, William W Motley, Lisa M Niswander, Dekker C Deacon, Laurie B Griffin, Kristofor K Langlais, Vickie L Backus, Kerry J Schimenti, Marilyn J O'Brien, John J Eppig, and John C Schimenti

Subjects
Genetics, QH426-470
Abstract

Crossing over during meiotic prophase I is required for sexual reproduction in mice and contributes to genome-wide genetic diversity. Here we report on the characterization of an N-ethyl-N-nitrosourea-induced, recessive allele called mei4, which causes sterility in both sexes owing to meiotic defects. In mutant spermatocytes, chromosomes fail to congress properly at the metaphase plate, leading to arrest and apoptosis before the first meiotic division. Mutant oocytes have a similar chromosomal phenotype but in vitro can undergo meiotic divisions and fertilization before arresting. During late meiotic prophase in mei4 mutant males, absence of cyclin dependent kinase 2 and mismatch repair protein association from chromosome cores is correlated with the premature separation of bivalents at diplonema owing to lack of chiasmata. We have identified the causative mutation, a transversion in the 5' splice donor site of exon 1 in the mouse ortholog of Human Enhancer of Invasion 10 (Hei10; also known as Gm288 in mouse and CCNB1IP1 in human), a putative B-type cyclin E3 ubiquitin ligase. Importantly, orthologs of Hei10 are found exclusively in deuterostomes and not in more ancestral protostomes such as yeast, worms, or flies. The cloning and characterization of the mei4 allele of Hei10 demonstrates a novel link between cell cycle regulation and mismatch repair during prophase I.

Published
2007
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10. Prognostic Gene Expression Profiling in Cutaneous Melanoma

Author

Grossman, Douglas, Okwundu, Nwanneka, Bartlett, Edmund K, Marchetti, Michael A, Othus, Megan, Coit, Daniel G, Hartman, Rebecca I, Leachman, Sancy A, Berry, Elizabeth G, Korde, Larissa, Lee, Sandra J, Bar-Eli, Menashe, Berwick, Marianne, Bowles, Tawnya, Buchbinder, Elizabeth I, Burton, Elizabeth M, Chu, Emily Y, Curiel-Lewandrowski, Clara, Curtis, Julia A, Daud, Adil, Deacon, Dekker C, Ferris, Laura K, Gershenwald, Jeffrey E, Grossmann, Kenneth F, Hu-Lieskovan, Siwen, Hyngstrom, John, Jeter, Joanne M, Judson-Torres, Robert L, Kendra, Kari L, Kim, Caroline C, Kirkwood, John M, Lawson, David H, Leming, Philip D, Long, Georgina V, Marghoob, Ashfaq A, Mehnert, Janice M, Ming, Michael E, Nelson, Kelly C, Polsky, David, Scolyer, Richard A, Smith, Eric A, Sondak, Vernon K, Stark, Mitchell S, Stein, Jennifer A, Thompson, John A, Thompson, John F, Venna, Suraj S, Wei, Maria L, and Swetter, Susan M

Subjects
Cancer, Clinical Research, Patient Safety, Prevention, 4.2 Evaluation of markers and technologies, Detection, screening and diagnosis, Good Health and Well Being, Clinical Decision-Making, Consensus, Consensus Development Conferences as Topic, Gene Expression Profiling, Humans, Melanoma, Neoplasm Staging, Practice Guidelines as Topic, Prognosis, Sentinel Lymph Node Biopsy, Skin Neoplasms, Clinical Sciences, Oncology and Carcinogenesis
Abstract

ImportanceUse of prognostic gene expression profile (GEP) testing in cutaneous melanoma (CM) is rising despite a lack of endorsement as standard of care.ObjectiveTo develop guidelines within the national Melanoma Prevention Working Group (MPWG) on integration of GEP testing into the management of patients with CM, including (1) review of published data using GEP tests, (2) definition of acceptable performance criteria, (3) current recommendations for use of GEP testing in clinical practice, and (4) considerations for future studies.Evidence reviewThe MPWG members and other international melanoma specialists participated in 2 online surveys and then convened a summit meeting. Published data and meeting abstracts from 2015 to 2019 were reviewed.FindingsThe MPWG members are optimistic about the future use of prognostic GEP testing to improve risk stratification and enhance clinical decision-making but acknowledge that current utility is limited by test performance in patients with stage I disease. Published studies of GEP testing have not evaluated results in the context of all relevant clinicopathologic factors or as predictors of regional nodal metastasis to replace sentinel lymph node biopsy (SLNB). The performance of GEP tests has generally been reported for small groups of patients representing particular tumor stages or in aggregate form, such that stage-specific performance cannot be ascertained, and without survival outcomes compared with data from the American Joint Committee on Cancer 8th edition melanoma staging system international database. There are significant challenges to performing clinical trials incorporating GEP testing with SLNB and adjuvant therapy. The MPWG members favor conducting retrospective studies that evaluate multiple GEP testing platforms on fully annotated archived samples before embarking on costly prospective studies and recommend avoiding routine use of GEP testing to direct patient management until prospective studies support their clinical utility.Conclusions and relevanceMore evidence is needed to support using GEP testing to inform recommendations regarding SLNB, intensity of follow-up or imaging surveillance, and postoperative adjuvant therapy. The MPWG recommends further research to assess the validity and clinical applicability of existing and emerging GEP tests. Decisions on performing GEP testing and patient management based on these results should only be made in the context of discussion of testing limitations with the patient or within a multidisciplinary group.

Published
2020

11. Combinatorial interactions of genetic variants in human cardiomyopathy.

Author

Deacon, Dekker C, Happe, Cassandra L, Chen, Chao, Tedeschi, Neil, Manso, Ana Maria, Li, Ting, Dalton, Nancy D, Peng, Qian, Farah, Elie N, Gu, Yusu, Tenerelli, Kevin P, Tran, Vivien D, Chen, Ju, Peterson, Kirk L, Schork, Nicholas J, Adler, Eric D, Engler, Adam J, Ross, Robert S, and Chi, Neil C

Subjects
Extracellular Matrix, Myocytes, Cardiac, Pluripotent Stem Cells, Animals, Humans, Mice, Cardiomyopathy, Dilated, Genetic Predisposition to Disease, Pedigree, Gene Expression Regulation, Up-Regulation, Muscle Contraction, Inheritance Patterns, Models, Biological, Female, Male, Genetic Variation, Cardiovascular, Stem Cell Research, Rare Diseases, Heart Disease, Biotechnology, Human Genome, Genetics, 2.1 Biological and endogenous factors
Abstract

Dilated cardiomyopathy (DCM) is a leading cause of morbidity and mortality worldwide; yet how genetic variation and environmental factors impact DCM heritability remains unclear. Here, we report that compound genetic interactions between DNA sequence variants contribute to the complex heritability of DCM. By using genetic data from a large family with a history of DCM, we discovered that heterozygous sequence variants in the TROPOMYOSIN 1 (TPM1) and VINCULIN (VCL) genes cose-gregate in individuals affected by DCM. In vitro studies of patient-derived and isogenic human-pluripotent-stem-cell-derived cardio-myocytes that were genome-edited via CRISPR to create an allelic series of TPM1 and VCL variants revealed that cardiomyocytes with both TPM1 and VCL variants display reduced contractility and sarcomeres that are less organized. Analyses of mice genetically engineered to harbour these human TPM1 and VCL variants show that stress on the heart may also influence the variable penetrance and expressivity of DCM-associated genetic variants in vivo. We conclude that compound genetic variants can interact combinatorially to induce DCM, particularly when influenced by other disease-provoking stressors.

Published
2019

12. Through-membrane electron-beam lithography for ultrathin membrane applications

Author

Neklyudova, M., Erdamar, A. K., Vicarelli, L., Heerema, S. J., Rehfeldt, T., Pandraud, G., Kolahdouz, Z., Dekker, C., and Zandbergen, H. W.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

We present a technique to fabricate ultrathin (down to 20 nm) uniform electron transparent windows at dedicated locations in a SiN membrane for in situ transmission electron microscopy experiments. An electron-beam (e-beam) resist is spray-coated on the backside of the membrane in a KOH- etched cavity in silicon which is patterned using through-membrane electron-beam lithography. This is a controlled way to make transparent windows in membranes, whilst the topside of the membrane remains undamaged and retains its flatness. Our approach was optimized for MEMS-based heating chips but can be applied to any chip design. We show two different applications of this technique for (1) fabrication of a nanogap electrode by means of electromigration in thin free-standing metal films and (2) making low-noise graphene nanopore devices.

Published
2017
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13. Cell-Surface Marker Signature for Enrichment of Ventricular Cardiomyocytes Derived from Human Embryonic Stem Cells

Author

Veevers, Jennifer, Farah, Elie N, Corselli, Mirko, Witty, Alec D, Palomares, Karina, Vidal, Jason G, Emre, Nil, Carson, Christian T, Ouyang, Kunfu, Liu, Canzhao, van Vliet, Patrick, Zhu, Maggie, Hegarty, Jeffrey M, Deacon, Dekker C, Grinstein, Jonathan D, Dirschinger, Ralf J, Frazer, Kelly A, Adler, Eric D, Knowlton, Kirk U, C., Neil, Martin, Jody C, Chen, Ju, and Evans, Sylvia M

Subjects
Biochemistry and Cell Biology, Biological Sciences, Stem Cell Research, Heart Disease, Biotechnology, Regenerative Medicine, Cardiovascular, Stem Cell Research - Embryonic - Human, Development of treatments and therapeutic interventions, 1.1 Normal biological development and functioning, 5.2 Cellular and gene therapies, Underpinning research, Antigens, CD, Cardiac Myosins, Cell Differentiation, Cell Line, Cells, Cultured, Heart Ventricles, Human Embryonic Stem Cells, Humans, Myocytes, Cardiac, Myosin Light Chains, Trihexosylceramides, cardiac differentiation, cell-surface marker signature, human embryonic stem cells, ventricular cardiomyocytes, Clinical Sciences, Biochemistry and cell biology
Abstract

To facilitate understanding of human cardiomyocyte (CM) subtype specification, and the study of ventricular CM biology in particular, we developed a broadly applicable strategy for enrichment of ventricular cardiomyocytes (VCMs) derived from human embryonic stem cells (hESCs). A bacterial artificial chromosome transgenic H9 hESC line in which GFP expression was driven by the human ventricular-specific myosin light chain 2 (MYL2) promoter was generated, and screened to identify cell-surface markers specific for MYL2-GFP-expressing VCMs. A CD77+/CD200- cell-surface signature facilitated isolation of >97% cardiac troponin I-positive cells from H9 hESC differentiation cultures, with 65% expressing MYL2-GFP. This study provides a tool for VCM enrichment when using some, but not all, human pluripotent stem cell lines. Tools generated in this study can be utilized toward understanding CM subtype specification, and enriching for VCMs for therapeutic applications.

Published
2018

14. Veterinaire adviescommissie geeft aanbevelingen over PROK

Author

Dekker, C. and Dekker, C.

Abstract

In de zomer van 2023 werd de PROK-vereiste weer ingevoerd binnen het hengstenselectietraject. Tegelijkertijd stelde het Algemeen Bestuur een Veterinaire Adviescommissie samen om de huidige PROK-eis te herijken. Deze groep van gerenommeerde dierenartsen en radiologen heeft een aantal adviezen geformuleerd die het Algemeen Bestuur heeft overgenomen. De belangrijkste doelstelling van het KWPN is om paarden te fokken die op het hoogste niveau in de sport kunnen presteren. Het waarborgen van de juiste selectie op gezondheidskenmerken is van belang om het onderscheidend vermogen als stamboek te waarborgen. Om die reden moeten ook de gekeurde hengsten zelf voldoende gezond zijn, zodat fokkers betere keuzes kunnen maken en duurzamere paarden kunnen fokken.

Published
2024

15. Regulation of farm groundwater table to sustain grass production: a case study in the Netherlands

Author

Dekker, C., Oenema, J., Noij, G.J., de Groot, W., Dekker, C., Oenema, J., Noij, G.J., and de Groot, W.

Abstract

Drought periods in recent Dutch summers are becoming longer and more intense. There is a need for cost-effective drought adaptation by farmers to keep and sustain grass production. A case study was performed on a dairy farm on light sandy soil by building an adaptable weir in a ditch to control the local surface water level. Monitoring tubes were placed to monitor surface and groundwater level. Satellites measured remotely the grass temperature and NDVI on four 0.5 hectare plots to determine crop evapotranspiration and need for irrigation. The surface water level in the ditch before the weir remains higher compared to the level in the surrounding area (control) shortly after rainfall. The famer noticed that after a period of rainfall water infiltrates quickly into the soil but with no increased crop growth or decreased irrigation demand. Remote sensing with the SEBAL-model showed a lower irrigation demand on land adjacent to the ditch with the weir. Due to an insufficient rainfall in the summer season and fast water infiltration the function of the weir could be doubted.

Published
2024

16. Single-molecule visualization of twin-supercoiled domains generated during transcription

Author

Janissen, R. (author), Barth, R. (author), Polinder, M.L. (author), van der Torre, J. (author), Dekker, C. (author), Janissen, R. (author), Barth, R. (author), Polinder, M.L. (author), van der Torre, J. (author), and Dekker, C. (author)

Abstract

Transcription-coupled supercoiling of DNA is a key factor in chromosome compaction and the regulation of genetic processes in all domains of life. It has become common knowledge that, during transcription, the DNA-dependent RNA polymerase (RNAP) induces positive supercoiling ahead of it (downstream) and negative supercoils in its wake (upstream), as rotation of RNAP around the DNA axis upon tracking its helical groove gets constrained due to drag on its RNA transcript. Here, we experimentally validate this so-called twin-supercoiled-domain model with in vitro real-time visualization at the single-molecule scale. Upon binding to the promoter site on a supercoiled DNA molecule, RNAP merges all DNA supercoils into one large pinned plectoneme with RNAP residing at its apex. Transcription by RNAP in real time demonstrates that up- and downstream supercoils are generated simultaneously and in equal portions, in agreement with the twin-supercoiled-domain model. Experiments carried out in the presence of RNases A and H, revealed that an additional viscous drag of the RNA transcript is not necessary for the RNAP to induce supercoils. The latter results contrast the current consensus and simulations on the origin of the twin-supercoiled domains, pointing at an additional mechanistic cause underlying supercoil generation by RNAP in transcription., BN/Bionanoscience, BN/Cees Dekker Lab

Published
2024
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17. Engineering ssRNA tile filaments for (dis)assembly and membrane binding

Author

De Franceschi, N. (author), Hoogenberg, B. (author), Katan, A.J. (author), Dekker, C. (author), De Franceschi, N. (author), Hoogenberg, B. (author), Katan, A.J. (author), and Dekker, C. (author)

Abstract

Cytoskeletal protein filaments such as actin and microtubules confer mechanical support to cells and facilitate many cellular functions such as motility and division. Recent years have witnessed the development of a variety of molecular scaffolds that mimic such filaments. Indeed, filaments that are programmable and compatible with biological systems may prove useful in studying or substituting such proteins. Here, we explore the use of ssRNA tiles to build and modify filaments in vitro. We engineer a number of functionalities that are crucial to the function of natural proteins filaments into the ssRNA tiles, including the abilities to assemble or disassemble filaments, to tune the filament stiffness, to induce membrane binding, and to bind proteins. This work paves the way for building dynamic cytoskeleton-mimicking systems made out of rationally designed ssRNA tiles that can be transcribed in natural or synthetic cells., BN/Cees Dekker Lab, QN/Afdelingsbureau

Published
2024
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18. Connecting the dots: key insights on ParB for chromosome segregation from single-molecule studies

Author

Tišma, M. (author), Kaljević, Jovana (author), Gruber, Stephan (author), Le, Tung B.K. (author), Dekker, C. (author), Tišma, M. (author), Kaljević, Jovana (author), Gruber, Stephan (author), Le, Tung B.K. (author), and Dekker, C. (author)

Abstract

Bacterial cells require DNA segregation machinery to properly distribute a genome to both daughter cells upon division. The most common system involved in chromosome and plasmid segregation in bacteria is the ParABS system. A core protein of this system - partition protein B (ParB) - regulates chromosome organization and chromosome segregation during the bacterial cell cycle. Over the past decades, research has greatly advanced our knowledge of the ParABS system. However, many intricate details of the mechanism of ParB proteins were only recently uncovered using in vitro single-molecule techniques. These approaches allowed the exploration of ParB proteins in precisely controlled environments, free from the complexities of the cellular milieu. This review covers the early developments of this field but emphasizes recent advances in our knowledge of the mechanistic understanding of ParB proteins as revealed by in vitro single-molecule methods. Furthermore, we provide an outlook on future endeavors in investigating ParB, ParB-like proteins, and their interaction partners., BN/Cees Dekker Lab

Published
2024
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19. Waterverhalen’ over toekomstgericht watermanagement op melkveebedrijven

Author

Verloop, K., Noij, G.J., Teenstra, E., Dekker, C., Verloop, K., Noij, G.J., Teenstra, E., and Dekker, C.

Abstract

De afgelopen jaren hebben melkveehouders in het project Koeien & Kansen ervaringen opgedaan met het verbeteren van het water- en bodemmanagement. Deelnemende melkveehouders hebben in een aantal ‘Waterverhalen’ hun ervaringen met verbetering van het bodem- en watermanagement beschreven.

Published
2024

20. Direct observation of a crescent-shape chromosome in expanded Bacillus subtilis cells

Author

Tišma, M. (author), Bock, Florian Patrick (author), Kerssemakers, J.W.J. (author), Antar, Hammam (author), Japaridze, A. (author), Gruber, Stephan (author), Dekker, C. (author), Tišma, M. (author), Bock, Florian Patrick (author), Kerssemakers, J.W.J. (author), Antar, Hammam (author), Japaridze, A. (author), Gruber, Stephan (author), and Dekker, C. (author)

Abstract

Bacterial chromosomes are folded into tightly regulated three-dimensional structures to ensure proper transcription, replication, and segregation of the genetic information. Direct visualization of chromosomal shape within bacterial cells is hampered by cell-wall confinement and the optical diffraction limit. Here, we combine cell-shape manipulation strategies, high-resolution fluorescence microscopy techniques, and genetic engineering to visualize the shape of unconfined bacterial chromosome in real-time in live Bacillus subtilis cells that are expanded in volume. We show that the chromosomes predominantly exhibit crescent shapes with a non-uniform DNA density that is increased near the origin of replication (oriC). Additionally, we localized ParB and BsSMC proteins – the key drivers of chromosomal organization – along the contour of the crescent chromosome, showing the highest density near oriC. Opening of the BsSMC ring complex disrupted the crescent chromosome shape and instead yielded a torus shape. These findings help to understand the threedimensional organization of the chromosome and the main protein complexes that underlie its structure., BN/Cees Dekker Lab, Dynamics of Micro and Nano Systems

Published
2024
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21. Correction to: Direct observation of a crescent-shape chromosome in expanded Bacillus subtilis cells (Nature Communications, (2024), 15, 1, (2737), 10.1038/s41467-024-47094-x)

Author

Tišma, M. (author), Bock, Florian Patrick (author), Kerssemakers, J.W.J. (author), Antar, Hammam (author), Japaridze, A. (author), Gruber, Stephan (author), Dekker, C. (author), Tišma, M. (author), Bock, Florian Patrick (author), Kerssemakers, J.W.J. (author), Antar, Hammam (author), Japaridze, A. (author), Gruber, Stephan (author), and Dekker, C. (author)

Abstract

Correction to: Nature Communicationhttps://doi.org/10.1038/s41467-024-47094-x, published online 28 March 2024 The original version of this article contained an error in the “Acknowledgement “section. The original version read “We also acknowledge funding for the work in S.G. lab by the Swiss National Science Foundation (grant number: 310030L_170242).” This has been amended to “We also acknowledge funding for the work in S.G. lab by the Swiss National Science Foundation (grant number: 310030_197770).” This has now been corrected in both the PDF and HTML versions of the Article., correction to 1038/s41467-024-4709-x, BN/Cees Dekker Lab, Dynamics of Micro and Nano Systems

Published
2024
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24. Brief Report: Oxidative Stress Mediates Cardiomyocyte Apoptosis in a Human Model of Danon Disease and Heart Failure

Author

Hashem, Sherin I, Perry, Cynthia N, Bauer, Matthieu, Han, Sangyoon, Clegg, Stacey D, Ouyang, Kunfu, Deacon, Dekker C, Spinharney, Mary, Panopoulos, Athanasia D, Belmonte, Juan Carlos Izpisua, Frazer, Kelly A, Chen, Ju, Gong, Qiuming, Zhou, Zhengfeng, C., Neil, and Adler, Eric D

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Stem Cell Research - Induced Pluripotent Stem Cell - Human, Stem Cell Research, Genetics, Rare Diseases, Heart Disease, Stem Cell Research - Induced Pluripotent Stem Cell, Cardiovascular, Clinical Research, Aetiology, 2.1 Biological and endogenous factors, Apoptosis, Autophagy, Glycogen Storage Disease Type IIb, Heart Failure, Humans, Induced Pluripotent Stem Cells, Myocytes, Cardiac, Oxidative Stress, Induced pluripotent stem cells, Danon disease, Oxidative stress, Technology, Medical and Health Sciences, Immunology, Biological sciences, Biomedical and clinical sciences
Abstract

Danon disease is a familial cardiomyopathy associated with impaired autophagy due to mutations in the gene encoding lysosomal-associated membrane protein type 2 (LAMP-2). Emerging evidence has highlighted the importance of autophagy in regulating cardiomyocyte bioenergetics, function, and survival. However, the mechanisms responsible for cellular dysfunction and death in cardiomyocytes with impaired autophagic flux remain unclear. To investigate the molecular mechanisms responsible for Danon disease, we created induced pluripotent stem cells (iPSCs) from two patients with different LAMP-2 mutations. Danon iPSC-derived cardiomyocytes (iPSC-CMs) exhibited impaired autophagic flux and key features of heart failure such as increased cell size, increased expression of natriuretic peptides, and abnormal calcium handling compared to control iPSC-CMs. Additionally, Danon iPSC-CMs demonstrated excessive amounts of mitochondrial oxidative stress and apoptosis. Using the sulfhydryl antioxidant N-acetylcysteine to scavenge free radicals resulted in a significant reduction in apoptotic cell death in Danon iPSC-CMs. In summary, we have modeled Danon disease using human iPSC-CMs from patients with mutations in LAMP-2, allowing us to gain mechanistic insight into the pathogenesis of this disease. We demonstrate that LAMP-2 deficiency leads to an impairment in autophagic flux, which results in excessive oxidative stress, and subsequent cardiomyocyte apoptosis. Scavenging excessive free radicals with antioxidants may be beneficial for patients with Danon disease. In vivo studies will be necessary to validate this new treatment strategy.

Published
2015

25. Formation and control of wrinkles in graphene by the wedging transfer method

Author

Calado, V. E., Schneider, G. F., Theulings, A. M. M. G., Dekker, C., and Vandersypen, L. M. K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We study the formation of wrinkles in graphene upon wet transfer onto a target substrate, whereby draining of water appears to play an important role. We are able to control the orientation of the wrinkles by tuning the surface morphology. Wrinkles are absent in flakes transferred to strongly hydrophobic substrates, a further indication of the role of the interaction of water with the substrate in wrinkle formation. The electrical and structural integrity of the graphene is not affected by the wrinkles, as inferred from Raman measurements and electrical conductivity measurements., Comment: 5 pages, 4 figures

Published
2012
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26. Antagonistic roles of ubiquitin ligase HEI10 and SUMO ligase RNF212 regulate meiotic recombination

Author

Qiao, Huanyu, Prasada Rao, HBD, Yang, Ye, Fong, Jared H, Cloutier, Jeffrey M, Deacon, Dekker C, Nagel, Kathryn E, Swartz, Rebecca K, Strong, Edward, Holloway, J Kim, Cohen, Paula E, Schimenti, John, Ward, Jeremy, and Hunter, Neil

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Agricultural Biotechnology, Biotechnology, Animals, Cell Cycle Proteins, Crossing Over, Genetic, Electrophoresis, Polyacrylamide Gel, In Situ Nick-End Labeling, Indoles, Ligases, Male, Meiosis, Mice, Mice, Inbred C57BL, SUMO-1 Protein, Spermatocytes, Statistics, Nonparametric, Synaptonemal Complex, Ubiquitin, Ubiquitin-Protein Ligases, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology
Abstract

Crossover recombination facilitates the accurate segregation of homologous chromosomes during meiosis. In mammals, poorly characterized regulatory processes ensure that every pair of chromosomes obtains at least one crossover, even though most recombination sites yield non-crossovers. Designation of crossovers involves selective localization of the SUMO ligase RNF212 to a minority of recombination sites, where it stabilizes pertinent factors such as MutSγ (ref. 4). Here we show that the ubiquitin ligase HEI10 (also called CCNB1IP1) is essential for this crossover/non-crossover differentiation process. In HEI10-deficient mice, RNF212 localizes to most recombination sites, and dissociation of both RNF212 and MutSγ from chromosomes is blocked. Consequently, recombination is impeded, and crossing over fails. In wild-type mice, HEI10 accumulates at designated crossover sites, suggesting that it also has a late role in implementing crossing over. As with RNF212, dosage sensitivity for HEI10 indicates that it is a limiting factor for crossing over. We suggest that SUMO and ubiquitin have antagonistic roles during meiotic recombination that are balanced to effect differential stabilization of recombination factors at crossover and non-crossover sites.

Published
2014

29. Tunneling in suspended carbon nanotubes assisted by longitudinal phonons

Author

Sapmaz, S., Jarillo-Herrero, P., Blanter, Ya. M., Dekker, C., and van der Zant, H. S. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Current-voltage characteristics of suspended single-wall carbon nanotube quantum dots show a series of steps equally spaced in voltage. The energy scale of this harmonic, low-energy excitation spectrum is consistent with that of the longitudinal low-k phonon mode (stretching mode) in the nanotube. Agreement is found with a Franck-Condon-based model in which the phonon-assisted tunneling process is modeled as a coupling of electronic levels to underdamped quantum harmonic oscillators. Comparison with this model indicates a rather strong electron-phonon coupling factor of order unity., Comment: 4 pages

Published
2005
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30. Three-terminal scanning tunneling spectroscopy of suspended carbon nanotubes

Author

LeRoy, B. J., Kong, J., Pahilwani, V. K., Dekker, C., and Lemay, S. G.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have performed low-temperature scanning tunneling spectroscopy measurements on suspended single-wall carbon nanotubes with a gate electrode allowing three-terminal spectroscopy measurements. These measurements show well-defined Coulomb diamonds as well as side peaks from phonon-assisted tunneling. The side peaks have the same gate voltage dependence as the main Coulomb peaks, directly proving that they are excitations of these states., Comment: 6 pages, 5 figures

Published
2005
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31. Integration of a gate electrode into carbon nanotube devices for scanning tunneling microscopy

Author

Kong, J., LeRoy, B. J., Lemay, S. G., and Dekker, C.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have developed a fabrication process for incorporating a gate electrode into suspended single-walled carbon nanotube structures for scanning tunneling spectroscopy studies. The nanotubes are synthesized by chemical vapor deposition directly on a metal surface. The high temperature ~800 C involved in the growth process poses challenging issues such as surface roughness and integrity of the structure which are addressed in this work. We demonstrate the effectiveness of the gate on the freestanding part of the nanotubes by performing tunneling spectroscopy that reveals Coulomb blockade diamonds. Our approach enables combined scanning tunneling microscopy and gated electron transport investigations of carbon nanotubes., Comment: 4 pages, 3 figures, to appear in Applied Physics Letters

Published
2005
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32. Electrical generation and absorption of phonons in carbon nanotubes

Author

LeRoy, B. J., Lemay, S. G., Kong, J., and Dekker, C.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The interplay between discrete vibrational and electronic degrees of freedom directly influences the chemical and physical properties of molecular systems. This coupling is typically studied through optical methods such as fluorescence, absorption, and Raman spectroscopy. Molecular electronic devices provide new opportunities for exploring vibration-electronic interactions at the single molecule level. For example, electrons injected from a scanning tunneling microscope tip into a metal can excite vibrational excitations of a molecule in the gap between tip and metal. Here we show how current directly injected into a freely suspended individual single-wall carbon nanotube can be used to excite, detect, and control a specific vibrational mode of the molecule. Electrons inelastically tunneling into the nanotube cause a non-equilibrium occupation of the radial breathing mode, leading to both stimulated emission and absorption of phonons by successive electron tunneling events. We exploit this effect to measure a phonon lifetime on the order of 10 nanoseconds, corresponding to a quality factor well over 10000 for this nanomechanical oscillator., Comment: 17 pages, 4 figures

Published
2005
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33. Electronic excitation spectrum of metallic carbon nanotubes

Author

Sapmaz, S., Jarillo-Herrero, P., Kong, J., Dekker, C., Kouwenhoven, L. P., and van der Zant, H. S. J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have studied the discrete electronic spectrum of closed metallic nanotube quantum dots. At low temperatures, the stability diagrams show a very regular four-fold pattern that allows for the determination of the electron addition and excitation energies. The measured nanotube spectra are in excellent agreement with theoretical predictions based on the nanotube band structure. Our results permit the complete identification of the electron quantum states in nanotube quantum dots., Comment: 4 pages, 3 figures

Published
2004
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34. Electronic Transport Spectroscopy of Carbon Nanotubes in a Magnetic Field

Author

Jarillo-Herrero, P., Kong, J., van der Zant, H. S. J., Dekker, C., Kouwenhoven, L. P., and De Franceschi, S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We report magnetic field spectroscopy measurements in carbon nanotube quantum dots exhibiting four-fold shell structure in the energy level spectrum. The magnetic field induces a large splitting between the two orbital states of each shell, demonstrating their opposite magnetic moment and determining transitions in the spin and orbital configuration of the quantum dot ground state. We use inelastic cotunneling spectroscopy to accurately resolve the spin and orbital contributions to the magnetic moment. A small coupling is found between orbitals with opposite magnetic moment leading to anticrossing behavior at zero field., Comment: 7 pages, 4 figures

Published
2004
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35. Scanning Tunneling Spectroscopy of Suspended Single-Wall Carbon Nanotubes

Author

LeRoy, B. J., Lemay, S. G., Kong, J., and Dekker, C.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have performed low-temperature STM measurements on single-wall carbon nanotubes that are freely suspended over a trench. The nanotubes were grown by CVD on a Pt substrate with predefined trenches etched into it. Atomic resolution was obtained on the freestanding portions of the nanotubes. Spatially resolved spectroscopy on the suspended portion of both metallic and semiconducting nanotubes was also achieved, showing a Coulomb-staircase behavior superimposed on the local density of states. The spacing of the Coulomb blockade peaks changed with tip position reflecting a changing tip-tube capacitance.

Published
2004
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36. Efficient Generation of Human iPSCs by a Synthetic Self-Replicative RNA

Author

Yoshioka, Naohisa, Gros, Edwige, Li, Hai-Ri, Kumar, Shantanu, Deacon, Dekker C, Maron, Cornelia, Muotri, Alysson R, C., Neil, Fu, Xiang-Dong, Yu, Benjamin D, and Dowdy, Steven F

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Transplantation, Stem Cell Research - Induced Pluripotent Stem Cell, Stem Cell Research - Embryonic - Human, Stem Cell Research - Induced Pluripotent Stem Cell - Human, Stem Cell Research, Genetics, Biotechnology, Regenerative Medicine, Stem Cell Research - Nonembryonic - Human, 1.1 Normal biological development and functioning, Generic health relevance, Adult, Animals, Cell Differentiation, Cell Line, Cellular Reprogramming, Clone Cells, Fibroblasts, Humans, Induced Pluripotent Stem Cells, Kruppel-Like Factor 4, Male, Mice, Mice, Nude, RNA, Replicon, Transfection, Biological Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

The generation of human induced pluripotent stem cells (iPSCs) holds great promise for the development of regenerative medicine therapies to treat a wide range of human diseases. However, the generation of iPSCs in the absence of integrative DNA vectors remains problematic. Here, we report a simple, highly reproducible RNA-based iPSC generation approach that utilizes a single, synthetic self-replicating VEE-RF RNA replicon that expresses four reprogramming factors (OCT4, KLF4, and SOX2, with c-MYC or GLIS1) at consistent high levels prior to regulated RNA degradation. A single VEE-RF RNA transfection into newborn or adult human fibroblasts resulted in efficient generation of iPSCs with all the hallmarks of stem cells, including cell surface markers, global gene expression profiles, and in vivo pluripotency, to differentiate into all three germ layers. The VEE-RF RNA-based approach has broad applicability for the generation of iPSCs for ultimate use in human stem cell therapies in regenerative medicine.

Published
2013

37. Correlated tunneling in intramolecular carbon nanotube quantum dots

Author

Thorwart, M., Grifoni, M., Cuniberti, G., Postma, H. W. Ch., and Dekker, C.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We investigate correlated electronic transport in single-walled carbon nanotubes with two intramolecular tunneling barriers. We suggest that below a characteristic temperature the long range nature of the Coulomb interaction becomes crucial to determine the temperature dependence of the maximum G_max of the conductance peak. Correlated sequential tunneling dominates transport yielding the power-law G_max ~ T^{\alpha_{end-end}-1}, typical for tunneling between the ends of two Luttinger liquids. Our predictions are in agreement with recent measurements.

Published
2002
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38. Backbone-induced semiconducting behavior in short DNA wires

Author

Cuniberti, G., Craco, L., Porath, D., and Dekker, C.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Quantitative Biology
Abstract

We propose a model Hamiltonian for describing charge transport through short homogeneous double stranded DNA molecules. We show that the hybridization of the overlapping pi orbitals in the base-pair stack coupled to the backbone is sufficient to predict the existence of a gap in the nonequilibrium current-voltage characteristics with a minimal number of parameters. Our results are in a good agreement with the recent finding of semiconducting behavior in short poly(G)-poly(C) DNA oligomers. In particular, our model provides a correct description of the molecular resonances which determine the quasi-linear part of the current out of the gap region., Comment: 4 pages, 3 figures

Published
2002
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40. Temperature Dependent Resistivity of Single Wall Carbon Nanotubes

Author

Kane, C. L., Mele, E. J., Lee, R. S., Fischer, J. E., Petit, P., Dai, H., Thess, A., Smalley, R. E., Verschueren, A. R. M., Tans, S. J., and Dekker, C.

Subjects
Condensed Matter
Abstract

Nonchiral single wall carbon nanotubes with an "armchair" wrapping are theoretically predicted to be conducting, and high purity samples consisting predominantly of these tubes exhibit metallic behavior with an intrinsic resistivity which increases approximately linearly with temperature over a wide temperature range. Here we study the coupling of the conduction electrons to long wavelength torsional shape fluctuations, or twistons. A one dimensional theory of the scattering of electrons by twistons is presented which predicts an intrinsic resistivity proportional to the absolute temperature. Experimental measurements of the temperature dependence of the resistivity are reported and compared with the predictions of the twiston theory., Comment: 4 pages REVTeX, 2 postscript figures

Published
1997
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46. Modelling soil carbon measures on dairy farms

Author

Schils, R.L.M., Dekker, C., Oenema, O., Hilhorst, G.J., Wagenaar, J.P., Newell Price, Paul, Verloop, J., Schils, R.L.M., Dekker, C., Oenema, O., Hilhorst, G.J., Wagenaar, J.P., Newell Price, Paul, and Verloop, J.

Abstract

Soil carbon sequestration is one of the pathways for the dairy sector to mitigate climate change. Soil carbon measures have been reviewed extensively, including estimates of their impacts on regional or national scales. Eventually, these measures are to be implemented by farmers themselves, justifying an assessment at farm and field level. Here, we simulated the soil carbon changes of 96 fields on 9 dairy farms under current management and after implementation of six carbon measures. The fields were in use as permanent grassland or as a grass-arable rotation with forage maize or other crops. Under current management, the annual changes of simulated soil carbon were +0.68 and +0.39 t ha-1 year-1 for permanent grasslands and crop rotations, respectively. The simulation of carbon measures showed that converting crop rotations with temporary grassland to permanent grassland had a large effect on additional soil carbon storage (0.5 t ha-1 year-1). Other measures like catch crops, applying more manure or compost, and increasing the sward age of permanent grassland had moderate effects (up to 0.1 t ha -1 year-1).

Published
2023

47. Detection of phosphorylation post-translational modifications along single peptides with nanopores

Author

Nova, I.C. (author), Ritmejeris, J. (author), Brinkerhoff, H.D. (author), Koenig, T.J.R. (author), Gundlach, Jens H. (author), Dekker, C. (author), Nova, I.C. (author), Ritmejeris, J. (author), Brinkerhoff, H.D. (author), Koenig, T.J.R. (author), Gundlach, Jens H. (author), and Dekker, C. (author)

Abstract

Current methods to detect post-translational modifications of proteins, such as phosphate groups, cannot measure single molecules or differentiate between closely spaced phosphorylation sites. We detect post-translational modifications at the single-molecule level on immunopeptide sequences with cancer-associated phosphate variants by controllably drawing the peptide through the sensing region of a nanopore. We discriminate peptide sequences with one or two closely spaced phosphates with 95% accuracy for individual reads of single molecules., Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., BN/Cees Dekker Lab, BN/Bionanoscience

Published
2023
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48. The archaeal Cdv cell division system

Author

Blanch Jover, A. (author), Dekker, C. (author), Blanch Jover, A. (author), and Dekker, C. (author)

Abstract

The Cdv system is the protein machinery that performs cell division and other membrane-deforming processes in a subset of archaea. Evolutionarily, the system is closely related to the eukaryotic ESCRT machinery, with which it shares many structural and functional similarities. Since its first description 15 years ago, the understanding of the Cdv system progressed rather slowly, but recent discoveries sparked renewed interest and insights. The emerging physical picture appears to be that CdvA acts as a membrane anchor, CdvB as a scaffold that localizes division to the mid-cell position, CdvB1 and CvdB2 as the actual constriction machinery, and CdvC as the ATPase that detaches Cdv proteins from the membrane. This paper provides a comprehensive overview of the research done on Cdv and explains how this relatively understudied machinery acts to perform its cell-division function. Understanding of the Cdv system helps to better grasp the biophysics and evolution of archaea, and furthermore provides new opportunities for the bottom-up building of a divisome for synthetic cells., Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., BN/Cees Dekker Lab

Published
2023
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49. Supercoiling-dependent DNA binding: quantitative modeling and applications to bulk and single-molecule experiments

Author

Kolbeck, Pauline J. (author), Tišma, M. (author), Analikwu, B.T. (author), Vanderlinden, Willem (author), Dekker, C. (author), Lipfert, Jan (author), Kolbeck, Pauline J. (author), Tišma, M. (author), Analikwu, B.T. (author), Vanderlinden, Willem (author), Dekker, C. (author), and Lipfert, Jan (author)

Abstract

DNA stores our genetic information and is ubiquitous in applications, where it interacts with binding partners ranging from small molecules to large macromolecular complexes. Binding is modulated by mechanical strains in the molecule and can change local DNA structure. Frequently, DNA occurs in closed topological forms where topology and supercoiling add a global constraint to the interplay of binding-induced deformations and strain-modulated binding. Here, we present a quantitative model with a straight-forward numerical implementation of how the global constraints introduced by DNA topology modulate binding. We focus on fluorescent intercalators, which unwind DNA and enable direct quantification via fluorescence detection. Our model correctly describes bulk experiments using plasmids with different starting topologies, different intercalators, and over a broad range of intercalator and DNA concentrations. We demonstrate and quantitatively model supercoiling-dependent binding in a single-molecule assay, where we directly observe the different intercalator densities going from supercoiled to nicked DNA. The single-molecule assay provides direct access to binding kinetics and DNA supercoil dynamics. Our model has broad implications for the detection and quantification of DNA, including the use of psoralen for UV-induced DNA crosslinking to quantify torsional tension in vivo, and for the modulation of DNA binding in cellular contexts., BN/Cees Dekker Lab

Published
2023
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50. Microwell-enhanced optical rapid antibiotic susceptibility testing of single bacteria

Author

Roslon, I.E. (author), Japaridze, A. (author), Rodenhuis, Stef (author), Hamoen, Lieke (author), Ghatkesar, M.K. (author), Steeneken, P.G. (author), Dekker, C. (author), Alijani, F. (author), Roslon, I.E. (author), Japaridze, A. (author), Rodenhuis, Stef (author), Hamoen, Lieke (author), Ghatkesar, M.K. (author), Steeneken, P.G. (author), Dekker, C. (author), and Alijani, F. (author)

Abstract

Bacteria that are resistant to antibiotics present an increasing burden on healthcare. To address this emerging crisis, novel rapid antibiotic susceptibility testing (AST) methods are eagerly needed. Here, we present an optical AST technique that can determine the bacterial viability within 1 h down to a resolution of single bacteria. The method is based on measuring intensity fluctuations of a reflected laser focused on a bacterium in reflective microwells. Using numerical simulations, we show that both refraction and absorption of light by the bacterium contribute to the observed signal. By administering antibiotics that kill the bacteria, we show that the variance of the detected fluctuations vanishes within 1 h, indicating the potential of this technique for rapid sensing of bacterial antibiotic susceptibility. We envisage the use of this method for massively parallelizable AST tests and fast detection of drug-resistant pathogens., Dynamics of Micro and Nano Systems, Micro and Nano Engineering, BN/Cees Dekker Lab

Published
2023
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