Ing. W.A. (Wim) Ensink

Faculteit der Natuurwetenschappen, Wiskunde en Informatica

Swammerdam Institute for Life Sciences

Bezoekadres

Science Park 904
Kamernummer: C2.272

Postadres

Postbus 1212
1000 BE Amsterdam

Contactgegevens

Publicaties
2023

Breit, T. M., Leeuw, W. D., van Olst, M., Ensink, W. A., van Leeuwen, S., Jonker, M. J., & Dekker, R. J. (2023). Genome sequences of 10 new carnation mottle virus variants. Microbiology Resource Announcements, 12(9). https://doi.org/10.1128/MRA.00189-23 [details]
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Breit, T. M., de Leeuw, W. C., van Olst, M., Ensink, W. A., van Leeuwen, S., & Dekker, R. J. (2023). Genome Sequence of a New Carnation Small Viroid-Like RNA, CarSV-1. Microbiology Resource Announcements, 12(3), Article e01219-22. https://doi.org/10.1128/mra.01219-22 [details]
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van Rijn, C. J. M., Vlaming, K. E., Bem, R. A., Dekker, R. J., Poortinga, A., Breit, T., van Leeuwen, S., Ensink, W. A., van Wijnbergen, K., van Hamme, J. L., Bonn, D., & Geijtenbeek, T. B. H. (2023). Author Correction: Low energy nebulization preserves integrity of SARS-CoV-2 mRNA vaccines for respiratory delivery (Scientific Reports, (2023), 13, 1, (8851), 10.1038/s41598-023-35872-4). Scientific Reports, 13(1), Article 10428. https://doi.org/10.1038/s41598-023-37515-0

van Rijn, C. J. M., Vlaming, K. E., Bem, R. A., Dekker, R. J., Poortinga, A., Breit, T., van Leeuwen, S., Ensink, W. A., van Wijnbergen, K., van Hamme, J. L., Bonn, D., & Geijtenbeek, T. B. H. (2023). Low energy nebulization preserves integrity of SARS-CoV-2 mRNA vaccines for respiratory delivery. Scientific Reports, 13(1), Article 8851. https://doi.org/10.1038/s41598-023-35872-4 [details]
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Low energy nebulization preserves integrity of SARS-CoV-2 mRNA vaccines
Supplementary files
Author Correction-Low energy nebulization preserves integrity of SARS-CoV-2 mRNA vaccines
Supporting Information-Low energy nebulization preserves integrity of SARS-CoV-2 mRNA vaccines

2018

Locati, M. D., Pagano, J. F. B., Abdullah, F., Ensink, W. A., van Olst, M., van Leeuwen, S., Nehrdich, U., Spaink, H. P., Rauwerda, H., Jonker, M. J., Dekker, R. J., & Breit, T. M. (2018). Identifying small RNAs derived from maternal- and somatic-type rRNAs in zebrafish development. Genome, 61(5), 371-378. https://doi.org/10.1139/gen-2017-0202 [details]

2017

Locati, M. D., Pagano, J. F. B., Ensink, W. A., van Olst, M., van Leeuwen, S., Nehrdich, U., Zhu, K., Spaink, H. P., Girard, G., Rauwerda, H., Jonker, M. J., Dekker, R. J., & Breit, T. M. (2017). Linking Maternal and Somatic 5S rRNA types with Different Sequence-Specific Non-LTR Retrotransposons. RNA, 23(4), 446-456. Advance online publication. https://doi.org/10.1261/rna.059642.116 [details]
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446.full
9623772 Supplemental Legends
9623772 Supplemental Fig S1
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9623772 Supplemental File S1.fa
9623772 Supplemental Table S1
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9623772 Supplemental Table S7

Locati, M. D., Pagano, J. F. B., Girard, G., Ensink, W. A., van Olst, M., van Leeuwen, S., Nehrdich, U., Spaink, H. P., Rauwerda, H., Jonker, M. J., Dekker, R. J., & Breit, T. M. (2017). Expression of distinct maternal and somatic 5.8S, 18S, and 28S rRNA types during zebrafish development. RNA, 23(8), 1188-1199. https://doi.org/10.1261/rna.061515.117 [details]
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Expression of distinct maternal
Supplementary files
Expression of distinct maternal suppl. 1
Expression of distinct maternal suppl. 2
Expression of distinct maternal suppl. 3
Expression of distinct maternal suppl. 4
Expression of distinct maternal suppl. 5
Expression of distinct maternal suppl. 6
Expression of distinct maternal suppl. 7
Expression of distinct maternal suppl. 8
Expression of distinct maternal suppl. 9
Expression of distinct maternal suppl. 10
Expression of distinct maternal suppl. 11
Expression of distinct maternal suppl. 12

Rauwerda, H., Pagano, J. F. B., de Leeuw, W. C., Ensink, W., Nehrdich, U., de Jong, M., Jonker, M., Spaink, H. P., & Breit, T. M. (2017). Transcriptome dynamics in early zebrafish embryogenesis determined by high-resolution time course analysis of 180 successive, individual zebrafish embryos. BMC Genomics, 18, Article 287. https://doi.org/10.1186/s12864-017-3672-z [details]
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Related datasets
Rauwerda, H., Pagano, J. F. B., Ensink, W., Nehrdich, U., Spaink, H. P., Breit, T. M., de Leeuw, W. C., de Jong, M. & Jonker, M. (2017). Additional file 7: of Transcriptome dynamics in early zebrafish embryogenesis determined by high-resolution time course analysis of 180 successive, individual zebrafish embryos. Figshare. https://doi.org/10.6084/m9.figshare.c.3740003_d16.v1
Rauwerda, H., Pagano, J. F. B., Ensink, W., Nehrdich, U., Spaink, H. P., Breit, T. M., de Leeuw, W. C., de Jong, H. M. & Jonker, M. (2017). Additional file 3: of Transcriptome dynamics in early zebrafish embryogenesis determined by high-resolution time course analysis of 180 successive, individual zebrafish embryos. Figshare. https://doi.org/10.6084/m9.figshare.c.3740003_d12.v1
Rauwerda, H., Pagano, J. F. B., Ensink, W., Nehrdich, U., Spaink, H. P., Breit, T. M., de Leeuw, W. C., de Jong, M. & Jonker, M. (2017). Additional file 1: of Transcriptome dynamics in early zebrafish embryogenesis determined by high-resolution time course analysis of 180 successive, individual zebrafish embryos. Figshare. https://doi.org/10.6084/m9.figshare.c.3740003_d10.v1

2016

Bruning, O., Rodenburg, W., Wackers, P. F. K., van Oostrom, C., Jonker, M. J., Dekker, R. J., Rauwerda, H., Ensink, W. A., de Vries, A., & Breit, T. M. (2016). Confounding Factors in the Transcriptome Analysis of an In-Vivo Exposure Experiment. PLoS ONE, 11(1), Article e0145252. https://doi.org/10.1371/journal.pone.0145252 [details]
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Confounding Factors in the Transcriptome Analysis
Supplementary files
Confounding Factors in the Transcriptome Analysis suppl

Pagano, J. F. B., Rauwerda, H., de Leeuw, W. C., Wackers, P., de Jong, M., Ensink, W., Dekker, R., Nehrdich, U., Spaink, H. P., Jonker, M., & Breit, T. M. (2016). Transcriptome data on maternal RNA of 24 individual zebrafish eggs from five sibling mothers. Data in Brief, 8, 69-72. Advance online publication. https://doi.org/10.1016/j.dib.2016.04.045 [details]
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Transcriptome data on maternal RNA
Supplementary files
Transcriptome data on maternal RNA suppl. 1
Transcriptome data on maternal RNA suppl. 2
Transcriptome data on maternal RNA suppl. 3
Transcriptome data on maternal RNA suppl. 4

Rauwerda, H., Wackers, P., Pagano, J. F. B., de Jong, M., Ensink, W., Dekker, R., Nehrdich, U., Spaink, H. P., Jonker, M., & Breit, T. M. (2016). Mother-Specific Signature in the Maternal Transcriptome Composition of Mature, Unfertilized Zebrafish Eggs. PLoS ONE, 11(1), Article e0147151. https://doi.org/10.1371/journal.pone.0147151 [details]
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Mother-Specific Signature in the Maternal Transcriptome Composition
Supplementary files
Mother-Specific Signature in the Maternal Transcriptome Composition suppl

2015

Bruning, O., Rauwerda, H., Dekker, R. J., de Leeuw, W. C., Wackers, P. F. K., Ensink, W. A., Jonker, M. J., & Breit, T. M. (2015). Valuable lessons-learned in transcriptomics experimentation. Transcription, 6(3), 51-55. https://doi.org/10.1080/21541264.2015.1064195 [details]
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Locati, M. D., Terpstra, I., de Leeuw, W. C., Kuzak, M., Rauwerda, H., Ensink, W. A., van Leeuwen, S., Nehrdich, U., Spaink, H. P., Jonker, M. J., Breit, T. M., & Dekker, R. J. (2015). Improving small RNA-seq by using a synthetic spike-in set for size-range quality control together with a set for data normalization. Nucleic Acids Research, 43(14), Article e89. Advance online publication. https://doi.org/10.1093/nar/gkv303 [details]
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Improving small RNA-seq
Supplementary files
Improving small RNA-seq suppl. 1
Improving small RNA-seq suppl. 2
Improving small RNA-seq suppl. 3
Improving small RNA-seq suppl. 4
2022

Rauwerda, H., Pagano, J. F. B., de Leeuw, W. C., Ensink, W., van Olst, M., Nehrdich, U., Jonker, M. J., Spaink, H. P., & Breit, T. M. (2022). Cellular Factors Involved in Transcriptome Dynamics in Early Zebrafish Embryogenesis. (v1 ed.) BioRxiv. https://doi.org/10.1101/2022.09.29.510050 [details]
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2020

Breit, T. M., Rauwerda, J., Pagano, J. F. B., Ensink, W. A., Nehrdich, U., Spaink, H. P., & Dekker, R. J. (2020). Immunoglobulin switch-like recombination regions implicated in the formation of extrachromosomal circular 45S rDNA involved in the maternal-specific translation system of zebrafish. (v1 ed.) BioRxiv. https://doi.org/10.1101/2020.01.31.928739 [details]
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2020.01.31.928739v1.full
Supplementary files
Supplementary materials

Dekker, R. J., Ensink, W. A., van Leeuwen, S., Rauwerda, J., & Breit, T. M. (2020). Overhauling a faulty control in the CDC-recommended SARS-CoV-2 RT-PCR test panel. (v2 ed.) BioRxiv. https://doi.org/10.1101/2020.06.12.147819 [details]
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Pagano, J. F. B., Locati, M. D., Ensink, W. A., van Olst, M., van Leeuwen, S., de Leeuw, W. C., Nehrdich, U., Spaink, H. P., Rauwerda, H., Jonker, M. J., Dekker, R. J., & Breit, T. M. (2020). Maternal- and Somatic-type snoRNA Expression and Processing in Zebrafish Development. (v3 ed.) BioRxiv. https://doi.org/10.1101/858936 [details]
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2019

Breit, T. M., Pagano, J. F. B., van der Jagt, P. L., Mittring, E., Ensink, W. A., van Olst, M., van Leeuwen, S., de Leeuw, W., Nehrdich, U., Spaink, H. P., Rauwerda, H., & Dekker, R. J. (2019). New observations on non-coding RNAs involved in the dual translation system in zebrafish development. (v2 ed.) BioRxiv. https://doi.org/10.1101/869651 [details]
Downloads
869651v2.full
Supplementary files
media-1
media-2
media-3 (1)

Pagano, J. F. B., Dekker, R. J., Ensink, W. A., van Olst, M., Bos, A., van Leeuwen, S., de Leeuw, W. C., Nehrdich, U., Spaink, H. P., Rauwerda, H., Jonker, M. J., & Breit, T. M. (2019). An alternative spliceosome defined by distinct snRNAs in early zebrafish embryogenesis. (v1 ed.) BioRxiv. https://doi.org/10.1101/858944 [details]
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858944v1.full
Supplementary files
Supplementary materials
2017

Rauwerda, H., Pagano, J. F. B., Ensink, W., Nehrdich, U., Spaink, H. P., Breit, T. M., de Leeuw, W. C., de Jong, M. & Jonker, M. (2017). Additional file 7: of Transcriptome dynamics in early zebrafish embryogenesis determined by high-resolution time course analysis of 180 successive, individual zebrafish embryos. Figshare. https://doi.org/10.6084/m9.figshare.c.3740003_d16.v1

Rauwerda, H., Pagano, J. F. B., Ensink, W., Nehrdich, U., Spaink, H. P., Breit, T. M., de Leeuw, W. C., de Jong, H. M. & Jonker, M. (2017). Additional file 3: of Transcriptome dynamics in early zebrafish embryogenesis determined by high-resolution time course analysis of 180 successive, individual zebrafish embryos. Figshare. https://doi.org/10.6084/m9.figshare.c.3740003_d12.v1

Rauwerda, H., Pagano, J. F. B., Ensink, W., Nehrdich, U., Spaink, H. P., Breit, T. M., de Leeuw, W. C., de Jong, M. & Jonker, M. (2017). Additional file 1: of Transcriptome dynamics in early zebrafish embryogenesis determined by high-resolution time course analysis of 180 successive, individual zebrafish embryos. Figshare. https://doi.org/10.6084/m9.figshare.c.3740003_d10.v1
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Ing. W.A. (Wim) Ensink

2023

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