Alex Tuck

1.8k total citations
24 papers, 1.2k citations indexed

About

Alex Tuck is a scholar working on Molecular Biology, Cancer Research and Surgery. According to data from OpenAlex, Alex Tuck has authored 24 papers receiving a total of 1.2k indexed citations (citations by other indexed papers that have themselves been cited), including 20 papers in Molecular Biology, 7 papers in Cancer Research and 1 paper in Surgery. Recurrent topics in Alex Tuck's work include RNA and protein synthesis mechanisms (15 papers), RNA Research and Splicing (14 papers) and RNA modifications and cancer (13 papers). Alex Tuck is often cited by papers focused on RNA and protein synthesis mechanisms (15 papers), RNA Research and Splicing (14 papers) and RNA modifications and cancer (13 papers). Alex Tuck collaborates with scholars based in United Kingdom, Switzerland and United States. Alex Tuck's co-authors include David Tollervey, Marc Bühler, Grzegorz Kudla, Wiebke Wlotzka, Kedar Nath Natarajan, Sarah A. Teichmann, Claudia Schneider, Tomislav Ilicic, Xuefei Gao and Johan Henriksson and has published in prestigious journals such as Cell, Nucleic Acids Research and Nature Communications.

In The Last Decade

Alex Tuck

23 papers receiving 1.2k citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Alex Tuck United Kingdom 15 1.2k 252 85 44 43 24 1.2k
Graeme Bethel United Kingdom 4 808 0.7× 212 0.8× 103 1.2× 32 0.7× 34 0.8× 4 981
Xiaoyi Cao United States 13 917 0.8× 220 0.9× 140 1.6× 31 0.7× 44 1.0× 24 1.0k
Dan J. Woodcock United Kingdom 10 375 0.3× 146 0.6× 81 1.0× 46 1.0× 78 1.8× 18 620
Sofia A. Quinodoz United States 13 1.3k 1.1× 372 1.5× 129 1.5× 28 0.6× 43 1.0× 17 1.4k
Zakary S. Singer United States 8 675 0.6× 137 0.5× 62 0.7× 104 2.4× 28 0.7× 11 771
Liang-Zhong Yang China 10 888 0.8× 325 1.3× 27 0.3× 22 0.5× 19 0.4× 13 932
Tuan Anh Nguyen Hong Kong 17 1.0k 0.9× 647 2.6× 38 0.4× 41 0.9× 43 1.0× 45 1.2k
Reza Mirzazadeh Sweden 11 658 0.6× 95 0.4× 100 1.2× 42 1.0× 51 1.2× 15 755
Brian T. Lee United States 6 889 0.8× 242 1.0× 205 2.4× 16 0.4× 69 1.6× 8 1.1k
Nico Battich Switzerland 10 873 0.7× 94 0.4× 83 1.0× 154 3.5× 65 1.5× 10 987

Countries citing papers authored by Alex Tuck

Since Specialization
Citations

This map shows the geographic impact of Alex Tuck'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 Alex Tuck with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Alex Tuck more than expected).

Fields of papers citing papers by Alex Tuck

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Alex Tuck. 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 Alex Tuck. The network helps show where Alex Tuck may publish in the future.

Co-authorship network of co-authors of Alex Tuck

This figure shows the co-authorship network connecting the top 25 collaborators of Alex Tuck. A scholar is included among the top collaborators of Alex Tuck based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Alex Tuck. Alex Tuck is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
2.
Gil, Noa, Rotem Ben‐Tov Perry, Zohar Mukamel, et al.. (2023). Complex regulation of Eomes levels mediated through distinct functional features of the Meteor long non-coding RNA locus. Cell Reports. 42(6). 112569–112569. 5 indexed citations
3.
Flemr, Matyáš, Michaela Schwaiger, Daniel Heß, et al.. (2023). Mouse nuclear RNAi-defective 2 promotes splicing of weak 5′ splice sites. RNA. 29(8). 1140–1165. 1 indexed citations
4.
Tuck, Alex, Alaaddin Bulak Arpat, Daniel Heß, et al.. (2020). Mammalian RNA Decay Pathways Are Highly Specialized and Widely Linked to Translation. Molecular Cell. 77(6). 1222–1236.e13. 80 indexed citations
5.
Welte, Thomas, Alex Tuck, Panagiotis Papasaikas, et al.. (2019). The RNA hairpin binder TRIM71 modulates alternative splicing by repressing MBNL1. Genes & Development. 33(17-18). 1221–1235. 30 indexed citations
6.
Rouvière, Jérôme O., et al.. (2018). A SUMO-dependent feedback loop senses and controls the biogenesis of nuclear pore subunits. Nature Communications. 9(1). 1665–1665. 17 indexed citations
7.
Tuck, Alex, Kedar Nath Natarajan, Greggory M. Rice, et al.. (2018). Distinctive features of lincRNA gene expression suggest widespread RNA-independent functions. Life Science Alliance. 1(4). e201800124–e201800124. 28 indexed citations
8.
Bresson, Stefan, et al.. (2017). Nuclear RNA Decay Pathways Aid Rapid Remodeling of Gene Expression in Yeast. Molecular Cell. 65(5). 787–800.e5. 47 indexed citations
9.
Milligan, Laura, Camille Sayou, Alex Tuck, et al.. (2017). RNA polymerase II stalling at pre-mRNA splice sites is enforced by ubiquitination of the catalytic subunit. eLife. 6. 16 indexed citations
10.
Milligan, Laura, Vân Anh Huynh‐Thu, Clémentine Delan‐Forino, et al.. (2016). Strand‐specific, high‐resolution mapping of modified RNA polymerase II. Molecular Systems Biology. 12(6). 874–874. 40 indexed citations
11.
Holmes, Rebecca K., Alex Tuck, Chenchen Zhu, et al.. (2015). Loss of the Yeast SR Protein Npl3 Alters Gene Expression Due to Transcription Readthrough. PLoS Genetics. 11(12). e1005735–e1005735. 20 indexed citations
12.
Kolodziejczyk, Aleksandra A., Jong Kim, Jason C.H. Tsang, et al.. (2015). Single Cell RNA-Sequencing of Pluripotent States Unlocks Modular Transcriptional Variation. Cell stem cell. 17(4). 471–485. 368 indexed citations
13.
Rakovitch, Eileen, Steven Shak, Dave P. Miller, et al.. (2015). A Large Prospectively Designed Study of the DCIS Score: Recurrence Risk After Local Excision For Ductal Carcinoma In Situ Patients With and Without Irradiation. International Journal of Radiation Oncology*Biology*Physics. 93(3). S135–S136. 3 indexed citations
14.
Schneider, Claudia, Fu Yan, Grzegorz Kudla, et al.. (2014). Integrity of SRP RNA is ensured by La and the nuclear RNA quality control machinery. Nucleic Acids Research. 42(16). 10698–10710. 9 indexed citations
15.
Tuck, Alex & David Tollervey. (2013). A Transcriptome-wide Atlas of RNP Composition Reveals Diverse Classes of mRNAs and lncRNAs. Cell. 154(5). 996–1009. 182 indexed citations
16.
Świa̧tkowska, Agata, Wiebke Wlotzka, Alex Tuck, et al.. (2012). Kinetic analysis of pre-ribosome structure in vivo. RNA. 18(12). 2187–2200. 21 indexed citations
17.
Schneider, Claudia, Grzegorz Kudla, Wiebke Wlotzka, Alex Tuck, & David Tollervey. (2012). Transcriptome-wide Analysis of Exosome Targets. Molecular Cell. 48(3). 422–433. 157 indexed citations
18.
Tuck, Alex & David Tollervey. (2011). RNA in pieces. Trends in Genetics. 27(10). 422–432. 114 indexed citations
19.
Worrall, Jonathan A. R., Maria W. Górna, Nicholas T. Crump, et al.. (2008). Reconstitution and Analysis of the Multienzyme Escherichia coli RNA Degradosome. Journal of Molecular Biology. 382(4). 870–883. 63 indexed citations
20.
Rusling, David A., et al.. (2007). Kinetic studies on the formation of DNA triplexes containing the nucleoside analogue 2′-O-(2-aminoethyl)-5-(3-amino-1-propynyl)uridine. Organic & Biomolecular Chemistry. 6(1). 122–129. 14 indexed citations

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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