Simone Codeluppi

16.3k total citations · 5 hit papers
32 papers, 6.9k citations indexed

About

Simone Codeluppi is a scholar working on Molecular Biology, Cellular and Molecular Neuroscience and Physiology. According to data from OpenAlex, Simone Codeluppi has authored 32 papers receiving a total of 6.9k indexed citations (citations by other indexed papers that have themselves been cited), including 17 papers in Molecular Biology, 12 papers in Cellular and Molecular Neuroscience and 7 papers in Physiology. Recurrent topics in Simone Codeluppi's work include Single-cell and spatial transcriptomics (7 papers), Neuroinflammation and Neurodegeneration Mechanisms (6 papers) and Neurogenesis and neuroplasticity mechanisms (6 papers). Simone Codeluppi is often cited by papers focused on Single-cell and spatial transcriptomics (7 papers), Neuroinflammation and Neurodegeneration Mechanisms (6 papers) and Neurogenesis and neuroplasticity mechanisms (6 papers). Simone Codeluppi collaborates with scholars based in Sweden, United States and Switzerland. Simone Codeluppi's co-authors include Sten Linnarsson, Gioele La Manno, Amit Zeisel, Peter Lönnerberg, Jens Hjerling‐Leffler, Lars E. Borm, Charlotte Rolny, Christer Betsholtz, Hermany Munguba and Liqun He and has published in prestigious journals such as Science, Cell and Proceedings of the National Academy of Sciences.

In The Last Decade

Simone Codeluppi

32 papers receiving 6.8k citations

Hit Papers

Cell types in the mouse c... 2015 2026 2018 2022 2015 2018 2016 2016 2018 500 1000 1.5k 2.0k
What are hit papers?

Hit papers significantly outperform the citation benchmark for their cohort. A paper qualifies if it has ≥500 total citations, achieves ≥1.5× the top-1% citation threshold for papers in the same subfield and year (this is the minimum needed to enter the top 1%, not the average within it), or reaches the top citation threshold in at least one of its specific research topics.

  1. Cell types in the mouse cortex and hippocampus revealed by single-cell RNA-seq
    2015 2.1k citations Amit Zeisel, Ana B. Muñoz‐Manchado et al. Science profile →
  2. Molecular Architecture of the Mouse Nervous System
    2018 1.6k citations Amit Zeisel, Hannah Hochgerner et al. Cell profile →
  3. Single-Cell RNA-Seq Reveals Lineage and X Chromosome Dynamics in Human Preimplantation Embryos
    2016 735 citations Simone Codeluppi, Sten Linnarsson et al. Cell profile →
  4. Molecular Diversity of Midbrain Development in Mouse, Human, and Stem Cells
    2016 531 citations Gioele La Manno, Daniel Gyllborg et al. Cell profile →
  5. Spatial organization of the somatosensory cortex revealed by osmFISH
    2018 384 citations Simone Codeluppi, Lars E. Borm et al. Nature Methods profile →

Author Peers

Peers are selected by citation overlap in the author's most active subfields. citations · hero ref

Author Last Decade Papers Cites
Simone Codeluppi 4.6k 1.3k 1.2k 841 776 32 6.9k
Amit Zeisel 5.1k 1.1× 1.3k 1.1× 1.2k 1.0× 697 0.8× 888 1.1× 38 7.6k
Gioele La Manno 5.1k 1.1× 1.3k 1.1× 1.2k 1.0× 691 0.8× 994 1.3× 29 7.5k
Peter Lönnerberg 6.3k 1.4× 1.5k 1.2× 1.9k 1.5× 1.4k 1.6× 1.1k 1.4× 36 9.7k
Gonçalo Castelo‐Branco 4.4k 1.0× 1.5k 1.2× 1.4k 1.1× 373 0.4× 903 1.2× 52 6.8k
Moritz J. Rossner 2.9k 0.6× 1.2k 1.0× 1.5k 1.2× 617 0.7× 687 0.9× 115 6.1k
Charles Vanderburg 4.3k 0.9× 725 0.6× 711 0.6× 1.3k 1.5× 572 0.7× 63 6.8k
Christine Caneda 3.6k 0.8× 2.5k 2.0× 1.6k 1.3× 1.1k 1.3× 1.1k 1.4× 7 7.0k
Sebastian Kügler 4.1k 0.9× 1.4k 1.1× 2.7k 2.1× 1.3k 1.6× 487 0.6× 124 7.7k
Seth Blackshaw 8.6k 1.9× 690 0.5× 2.8k 2.2× 1.3k 1.5× 766 1.0× 213 13.0k
Steven A. Sloan 5.5k 1.2× 2.9k 2.3× 2.4k 1.9× 1.3k 1.5× 1.2k 1.6× 39 10.0k

Countries citing papers authored by Simone Codeluppi

Since Specialization
Citations

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

Fields of papers citing papers by Simone Codeluppi

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Simone Codeluppi

This figure shows the co-authorship network connecting the top 25 collaborators of Simone Codeluppi. A scholar is included among the top collaborators of Simone Codeluppi 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 Simone Codeluppi. Simone Codeluppi 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.
Borm, Lars E., Alejandro Mossi Albiach, Rebecca D. Hodge, et al.. (2022). Scalable in situ single-cell profiling by electrophoretic capture of mRNA using EEL FISH. Nature Biotechnology. 41(2). 222–231. 65 indexed citations
2.
Park, Jeongbin, Sebastian Tiesmeyer, Brian Long, et al.. (2021). Cell segmentation-free inference of cell types from in situ transcriptomics data. Nature Communications. 12(1). 3545–3545. 75 indexed citations
3.
Park, Jeongbin, Sebastian Tiesmeyer, Brian Long, et al.. (2021). Author Correction: Cell segmentation-free inference of cell types from in situ transcriptomics data. Nature Communications. 12(1). 4103–4103. 1 indexed citations
4.
Lin, Chenhong, Cinzia Calzarossa, Jia Liu, et al.. (2020). Human ex vivo spinal cord slice culture as a useful model of neural development, lesion, and allogeneic neural cell therapy. Stem Cell Research & Therapy. 11(1). 320–320. 5 indexed citations
5.
Wang, Yiqiao, Haohao Wu, Paula Fontanet, et al.. (2019). A cell fitness selection model for neuronal survival during development. Nature Communications. 10(1). 4137–4137. 11 indexed citations
6.
Ibarra, Cristián, Marie Karlsson, Simone Codeluppi, et al.. (2018). BCG‐induced cytokine release in bladder cancer cells is regulated by Ca2+ signaling. Molecular Oncology. 13(2). 202–211. 12 indexed citations
7.
Codeluppi, Simone, Lars E. Borm, Amit Zeisel, et al.. (2018). Spatial organization of the somatosensory cortex revealed by osmFISH. Nature Methods. 15(11). 932–935. 384 indexed citations breakdown →
8.
Zeisel, Amit, Hannah Hochgerner, Peter Lönnerberg, et al.. (2018). Molecular Architecture of the Mouse Nervous System. Cell. 174(4). 999–1014.e22. 1572 indexed citations breakdown →
9.
Codeluppi, Simone, et al.. (2017). An ex vivo spinal cord injury model to study ependymal cells in adult mouse tissue. Experimental Cell Research. 357(2). 236–242. 12 indexed citations
10.
Manno, Gioele La, Daniel Gyllborg, Simone Codeluppi, et al.. (2016). Molecular Diversity of Midbrain Development in Mouse, Human, and Stem Cells. Cell. 167(2). 566–580.e19. 531 indexed citations breakdown →
11.
Zeisel, Amit, Ana B. Muñoz‐Manchado, Simone Codeluppi, et al.. (2015). Cell types in the mouse cortex and hippocampus revealed by single-cell RNA-seq. Science. 347(6226). 1138–1142. 2108 indexed citations breakdown →
12.
Codeluppi, Simone, Katalin Sándor, Jacob Kjell, et al.. (2014). Interleukin-6 Secretion by Astrocytes Is Dynamically Regulated by PI3K-mTOR-Calcium Signaling. PLoS ONE. 9(3). e92649–e92649. 33 indexed citations
13.
Delaney, Ada, Sally Abdelmoaty, Duygu B. Bas, et al.. (2012). Pentoxifylline and propentofylline prevent proliferation and activation of the mammalian target of rapamycin and mitogen activated protein kinase in cultured spinal astrocytes. Journal of Neuroscience Research. 91(2). 300–312. 21 indexed citations
14.
Bas, Duygu B., Jie Su, Katalin Sándor, et al.. (2012). Collagen antibody–induced arthritis evokes persistent pain with spinal glial involvement and transient prostaglandin dependency. PubMed. 64(12). 3886–3896. 92 indexed citations
15.
Saitô, Osamu, Camilla I. Svensson, Kirsten Wegner, et al.. (2010). Spinal glial TLR4‐mediated nociception and production of prostaglandin E 2 and TNF. British Journal of Pharmacology. 160(7). 1754–1764. 85 indexed citations
16.
Codeluppi, Simone, et al.. (2010). Mammalian target of rapamycin in spinal cord neurons mediates hypersensitivity induced by peripheral inflammation. Neuroscience. 169(3). 1392–1402. 76 indexed citations
17.
Nie, Duyu, Alessia Di Nardo, Juliette M. Han, et al.. (2010). Tsc2-Rheb signaling regulates EphA-mediated axon guidance. Nature Neuroscience. 13(2). 163–172. 196 indexed citations
18.
Codeluppi, Simone, et al.. (2009). The Rheb–mTOR Pathway Is Upregulated in Reactive Astrocytes of the Injured Spinal Cord. Journal of Neuroscience. 29(4). 1093–1104. 136 indexed citations
19.
Rivetti, Claudio, Simone Codeluppi, Giorgio Dieci, & Carlos Bustamante. (2003). Visualizing RNA Extrusion and DNA Wrapping in Transcription Elongation Complexes of Bacterial and Eukaryotic RNA Polymerases. Journal of Molecular Biology. 326(5). 1413–1426. 47 indexed citations
20.
Rivetti, Claudio & Simone Codeluppi. (2001). Accurate length determination of DNA molecules visualized by atomic force microscopy: evidence for a partial B- to A-form transition on mica. Ultramicroscopy. 87(1-2). 55–66. 96 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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