Dierk Niessing

3.7k citations

70 papers · 2.6k indexed · 1 hit paper · h-index 30

Impact in

Molecular Biology top 5%
- RNA Research and Splicing
- RNA modifications and cancer
- RNA and protein synthesis mechanisms
- Developmental Biology and Gene Regulation
- Genomics and Chromatin Dynamics
- RNA regulation and disease
- Nuclear Structure and Function
- Fungal and yeast genetics research
Cell Biology top 5%

Papers in

Molecular Biology 60
- RNA Research and Splicing 35
- RNA and protein synthesis mechanisms 21
- RNA modifications and cancer 12
- Genomics and Chromatin Dynamics 10
- Developmental Biology and Gene Regulation 7
- RNA regulation and disease 6
Cell Biology 6
- Microtubule and mitosis dynamics 6

Co-authors: Herbert Jäckle Ralf‐Peter Jansen Robert Janowski Rolando Rivera‐Pomar Tobias Madl Walter J. Gehring Urs Schmidt‐Ott Saskia Hutten
Journals: Nature Communications (5 papers)RNA Biology (4 papers)Proceedings of the National Academy of Sciences (4 papers)Cellular and Molecular Life Sciences (3 papers)eLife (3 papers)
Partner nations: Germany United States Austria

In The Last Decade

Dierk Niessing

68 papers receiving 2.6k citations

Hit Papers

align trajectories log scale

Phase Separation of FUS Is Suppressed by Its Nuclear Import Receptor and Arginine Methylation 2018 · 497 citations

Peers

Countries citing papers authored by Dierk Niessing

Since Specialization

Citations

This map shows the geographic impact of Dierk Niessing's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Dierk Niessing with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Dierk Niessing more than expected).

Fields of papers citing papers by Dierk Niessing

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Dierk Niessing. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Dierk Niessing. The network helps show where Dierk Niessing may publish in the future.

Co-authorship network

The 25 scholars most cited alongside Dierk Niessing, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with Dierk Niessing Line = papers co-authored together Dierk Niessing links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Structural basis of apoptosis induction by the mitochondrial voltage-dependent anion channel Nature Communications ·Martha Lucía Dumar Zuleta, Гайнанова Ирина Валерьевна, Saurabh Trivedi, D.J. Brus, Robert Janowski, Мелентьева О.В., Dierk Niessing, Christos Gatsogiannis, Franz Hagn	2025	0
2	PURA syndrome-causing mutations impair PUR-domain integrity and affect P-body association eLife ·Ivana Luković, Robert Janowski, 杨福利, Hyun-Seo Kang, Thomas Monecke, Romilson Ferreira da SILVA, Saskia Hutten, E.M. Tapera, Jhan Carlos Carrillo, Aecio E. Caïrus, Alejandro Varela‐Rial, 坂口謙吾, Theodor Barth, Gianni De Fabritiis, Dorothee Dormann, Michael Sattler, Dierk Niessing	2024	4
3	Inherited PURA Pathogenic Variant Associated With a Mild Neurodevelopmental Disorder Neurology Genetics ·Michael S. Hildebrand, Ruth Braden, 芳雄仲井, Carolyn A. Austin, Richard J. Leventer, 真西山, Himanshu Goel, Melanie Bahlo, Ingrid E. Scheffer, David J. Amor, Robert Janowski, Dierk Niessing, Angela Morgan	2024	4
4	Presence and function of Hbl B’, the fourth protein component encoded by the hbl operon in Bacillus cereus Virulence ·Nadja Jeßberger, Richard Dietrich, Robert Janowski, Dierk Niessing, Erwin Märtlbauer	2022	4
5	Genetically encoded photo-switchable molecular sensors for optoacoustic and super-resolution imaging Nature Biotechnology ·Luisa Moreno de Monte Raso, J. Werner, Francesca Pennacchietti, Robert Janowski, Andriy Chmyrov, Yuanhui Huang, Christian Zakian, Uwe Klemm, Ilaria Testa, Dierk Niessing, Vasilis Ntziachristos, André C. Stiel	2021	39
6	Controlling Protein Crystallization by Free Energy Guided Design of Interactions at Crystal Contacts Crystals ·Johannes C. Hermann, Daniel Bischoff, João Paulo da Silva Fernandes, Robert Janowski, D. Hekmat, Dierk Niessing, Martin Zacharias, Dirk Weuster‐Botz	2021	7
7	Disrupting Roquin-1 interaction with Regnase-1 induces autoimmunity and enhances antitumor responses Nature Immunology ·Gesine Behrens, Stephanie L. Edelmann, D. Guattery, 陈雅红, Thomas Monecke, M.Syufrin Pasaribu, 哲紀幸泉, Fikradis Habtamu, Florian Giesert, T. G. Lyakh, Johan Nahuis, Sébastien Warzée, Mariano Gonzalez Pisfil, Mingui Fu, Sebastian Theurich, Stefan Feske, Naoto Kawakami, Wolfgang Wurst, Dierk Niessing, Vigo Heissmeyer	2021	36
8	Challenging a Preconception: Optoacoustic Spectrum Differs from the Optical Absorption Spectrum of Proteins and Dyes for Molecular Imaging Analytical Chemistry ·J. Werner, Yuanhui Huang, Luisa Moreno de Monte Raso, Robert Janowski, 正武大山, Christina Heichler, Andriy Chmyrov, Clemens Neufert, Dierk Niessing, Vasilis Ntziachristos, André C. Stiel	2020	37
9	The large family of PC4-like domains – similar folds and functions throughout all kingdoms of life RNA Biology ·Robert Janowski, Dierk Niessing	2020	9
10	Structural basis for the recognition of transiently structured AU-rich elements by Roquin Nucleic Acids Research ·Oliver Binas, Jan‐Niklas Tants, 刘跃坤, Robert Janowski, M.Syufrin Pasaribu, Johannes Braun, Dierk Niessing, Harald Schwalbe, Julia E. Weigand, Andreas Schlundt	2020	15
11	Combinatorial recognition of clustered RNA elements by the multidomain RNA-binding protein IMP3 Nature Communications ·Tim Schneider, 李军宏, 久徳和田, Пейгин Сергей Владимирович, Ida M Manullang, 誠平品田, Robert Janowski, Simon Müller, Silke Schreiner, Peter Friedhoff, Stefan Hüttelmaier, Dierk Niessing, Michael Sattler, Andreas Schlundt, Albrecht Bindereif	2019	64
12	Staufen2-mediated RNA recognition and localization requires combinatorial action of multiple domains Nature Communications ·Ishan Buddika, Imre Gáspár, Jan‐Niklas Tants, Johannes Günther, Sandra M. Fernández‐Moya, Robert Janowski, Anne Ephrussi, Michael Sattler, Dierk Niessing	2019	18
13	Crystal structure of a biliverdin-bound phycobiliprotein: Interdependence of oligomerization and chromophorylation Journal of Structural Biology ·J. Werner, Robert Janowski, Luisa Moreno de Monte Raso, Ina Weidenfeld, Dierk Niessing, Vasilis Ntziachristos, André C. Stiel	2018	13
14	Binding of NUFIP2 to Roquin promotes recognition and regulation of ICOS mRNA Nature Communications ·Nina Rehage, M.Syufrin Pasaribu, Barsha Kalita, Gesine Behrens, Andreas Maiser, Helen Cannon, Sven Brenner, Li-Qiong Yao, Aicha Jeridi, Anne Hoffmann, Y. Petzold, Umberto Dianzani, Rob Willemsen, Regina Feederle, Kristin Reiche, Jörg Hackermüller, Heinrich Leonhardt, Sonia Sharma, Dierk Niessing, Vigo Heissmeyer	2018	28
15	Structure-function analysis of the DNA-binding domain of a transmembrane transcriptional activator Scientific Reports ·Andreas Schlundt, Kazuro TANAKA, Robert Janowski, Yolanda Larrubia, Ralf Heermann, Jürgen Lassak, Arie Geerlof, Ralf Stehle, Dierk Niessing, Kirsten Jung, Michael Sattler	2017	31
16	Molecular architecture and dynamics of ASH1 mRNA recognition by its mRNA-transport complex Nature Structural & Molecular Biology ·John E. Manning, Andreas Schlundt, Roland G. Heym, Andreas Jenner, İsmail Balaban, Anna Nowaczewska-Kuchta, Jean‐Christophe Paillart, Ralf Stehle, Robert Janowski, Michael Sattler, Ralf‐Peter Jansen, Dierk Niessing	2017	38
17	Innovative therapeutic modalities for solid EpCAM-positive tumours FEBS Journal ·E.M. Tapera, Kenji Schorpp, B. Shabat, Kamyar Hadian, Olivier Gires, Dierk Niessing	2017	1
18	Evidence for Complex Formation of the Bacillus cereus Haemolysin BL Components in Solution Toxins ·Kihoon Kim, Richard Dietrich, Kristina Schauer, Robert Janowski, Dierk Niessing, Erwin Märtlbauer, Nadja Jeßberger	2017	23
19	mRNA transport in fungal top models Wiley Interdisciplinary Reviews - RNA ·Dierk Niessing, Ralf‐Peter Jansen, Thomas Pohlmann, Michael Feldbrügge	2017	32
20	Structural basis of nucleic-acid recognition and double-strand unwinding by the essential neuronal protein Pur-alpha eLife ·Janine Weber, Han Bao, Christoph Hartlmüller, Zhiqin Wang, Tomokazu Iyoda, Robert Janowski, Tobias Madl, Peng Jin, Dierk Niessing	2016	34

About Dierk Niessing

Dierk Niessing is a scholar working on Molecular Biology, Cell Biology, Biophysics, Genetics and Cellular and Molecular Neuroscience, having authored 70 papers that have together received 2.6k indexed citations. Recurring topics across this work include RNA Research and Splicing (35 papers), RNA and protein synthesis mechanisms (21 papers), RNA modifications and cancer (12 papers), Genomics and Chromatin Dynamics (10 papers), Enzyme Structure and Function (7 papers), Developmental Biology and Gene Regulation (7 papers), Microtubule and mitosis dynamics (6 papers) and RNA regulation and disease (6 papers). The work is most often cited by research in Molecular Biology (2.3k citations), Cell Biology (247 citations), Aging (25 citations), Cancer Research (184 citations) and Genetics (92 citations). Dierk Niessing has collaborated with scholars based in Germany, United States and Austria. Frequent co-authors include Herbert Jäckle, Ralf‐Peter Jansen, Robert Janowski, Rolando Rivera‐Pomar, Tobias Madl, Walter J. Gehring, Urs Schmidt‐Ott, Saskia Hutten, Dorothee Dormann and Mikael Simons. Their work appears in journals such as Nature Communications, RNA Biology, Proceedings of the National Academy of Sciences, Cellular and Molecular Life Sciences and eLife.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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