Michael Thumm

21.2k citations

61 papers · 3.8k indexed · h-index 36

Cell Biology top 0.5%
- Endoplasmic Reticulum Stress and Disease 32
- Cellular transport and secretion 26
Epidemiology top 1%
- Autophagy in Disease and Therapy 41
Physiology top 1%
- Lysosomal Storage Disorders Research 3
Aging top 5%
Molecular Biology top 5%
- Fungal and yeast genetics research 9
- Ubiquitin and proteasome pathways 6
- Studies on Chitinases and Chitosanases 5
- RNA Interference and Gene Delivery 3

Co-authors: Roswitha Krick Michael Straub Ulrike D. Epple Eeva‐Liisa Eskelinen Dieter H. Wolf Detlef Wolf Daniel J. Klionsky Henning Barth
Cited by: Cell Biology Epidemiology Physiology
Journals: Autophagy (16 papers)FEBS Letters (8 papers)Journal of Biological Chemistry (7 papers)
Partner nations: Germany United States Japan

In The Last Decade

Michael Thumm

61 papers receiving 3.8k citations

Peers

Replace Per E. Strømhaug with:

Per E. Strømhaug Norway

Takayoshi Kirisako Japan

Takayuki Sekito Japan

Hayashi Yamamoto Japan

Alexandra Stolz Germany

Maria Manifava United Kingdom

Yūko Fujioka Japan

Wei‐Pang Huang Taiwan

Claudine Kraft Austria

Hilla Weidberg Israel

Michael Thumm relative to Per E. Strømhaug Norway Per E. Strømhaug's profile →

Citations per field

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Per E. Strømhaug · 1×

×1.1 2k/2k

CB

×1.0 2k/2k

EPIDE

×0.7 306/419

PHYSI

×1.2 59/51

AGING

×1.4 2k/1k

MB

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Countries citing papers authored by Michael Thumm

Since Specialization

Citations

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

Fields of papers citing papers by Michael Thumm

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network

The 25 scholars most cited alongside Michael Thumm, 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 Michael Thumm Line = papers co-authored together Michael Thumm links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	Autophagic and non-autophagic functions of the Saccharomyces cerevisiae PROPPINs Atg18, Atg21 and Hsv2 Biological Chemistry ·Luzhu Xu,Michael Thumm	2023	5
2	PI 3P binding by Atg21 organises Atg8 lipidation The EMBO Journal ·Erin Wright,ZeyuWang,俊之高垣,Petra Schlotterhose,Michael Thumm,Roswitha Krick	2015	76
3	Qualitative and quantitative characterization of protein-phosphoinositide interactions with liposome-based methods Autophagy ·Xu Yunjie,Andreea Scacioc,Javier M. Hernández,Roswitha Krick,Milena Stephan,Andreas Janshoff,Michael Thumm,Karin Kühnel	2013	23
4	It takes two to tango Autophagy ·Michael Thumm,Xu Yunjie,Andreea Scacioc,Milena Stephan,Andreas Janshoff,Karin Kühnel,Roswitha Krick	2012	11
5	A comprehensive glossary of autophagy-related molecules and processes Autophagy ·Daniel J. Klionsky,Patrice Codogno,Ana María Cuervo,Vojo Deretić,Zvulun Elazar,Juàn Fueyo,David A. Gewirtz,Guido Kroemer,Beth Levine,Noboru Mizushima,David C. Rubinsztein,Michael Thumm,Sharon A. Tooze	2010	145
6	Quantification of nonselective bulk autophagy inS. cerevisiaeusing Pgk1-GFP Autophagy ·Evelyn Welter,Michael Thumm,Roswitha Krick	2010	58
7	Measuring piecemeal microautophagy of the nucleus inSaccharomyces cerevisiae Autophagy ·Jonathan I. Millen,Roswitha Krick,Фаниса Фаузетдиновна Фаррахова,Michael Thumm,David S. Goldfarb	2009	37
8	Chapter 5 Measuring Macroautophagy in S. cerevisiae: Autophagic Body Accumulation and Total Protein Turnover Methods in enzymology on CD-ROM/Methods in enzymology ·Фаниса Фаузетдиновна Фаррахова,Michael Thumm	2008	2
9	Dissecting the localization and function of Atg18, Atg21 and Ygr223c Autophagy ·Roswitha Krick,张标,М. Ю. Яковлев,Michael Thumm	2008	78
10	Deletion of HOG1 Leads to Osmosensitivity in Starvation-Induced, but not Rapamycin-Dependent Atg8 Degradation and Proteolysis: Further Evidence for Different Regulatory Mechanisms in Yeast Autophagy Autophagy ·Фаниса Фаузетдиновна Фаррахова,Michael Thumm,Dieter Häussinger,Stephan vom Dahl	2006	9
11	Trs85 (Gsg1), a Component of the TRAPP Complexes, Is Required for the Organization of the Preautophagosomal Structure during Selective Autophagy via the Cvt Pathway Journal of Biological Chemistry ·Khuyen Meiling-Wesse,Ulrike D. Epple,Roswitha Krick,Henning Barth,Chyul-Woong Lee,Christiane Voss,Eeva‐Liisa Eskelinen,Michael Thumm	2005	81
12	Atg21 Is Required for Effective Recruitment of Atg8 to the Preautophagosomal Structure during the Cvt Pathway Journal of Biological Chemistry ·Khuyen Meiling-Wesse,Henning Barth,Christiane Voss,Eeva‐Liisa Eskelinen,Ulrike D. Epple,Michael Thumm	2004	50
13	, a novel gene required for maturation of proaminopeptidase I, but not for autophagy FEMS Yeast Research ·Khuyen Meiling-Wesse,Hiroshi Koyano,Michael Thumm	2003	6
14	Intravacuolar Membrane Lysis in Saccharomyces cerevisiae Journal of Biological Chemistry ·Ulrike D. Epple,Eeva‐Liisa Eskelinen,Michael Thumm	2003	56
15	Hitchhikers Guide to the Vacuole—Mechanisms of Cargo Sequestration in the Cvt and Autophagic Pathways Molecular Cell ·Michael Thumm	2002	11
16	Mai1p is essential for maturation of proaminopeptidase I but not for autophagy FEBS Letters ·Henning Barth,Khuyen Meiling-Wesse,Ulrike D. Epple,Michael Thumm	2002	32
17	Autophagy and the cytoplasm to vacuole targeting pathway both require Aut10p FEBS Letters ·Henning Barth,Khuyen Meiling-Wesse,Ulrike D. Epple,Michael Thumm	2001	91
18	The loss of Drosophila APG4/AUT2 function modifies the phenotypes of cut and Notch signaling pathway mutants Molecular Genetics and Genomics ·Michael Thumm,Tatsuhiko Kadowaki	2001	33
19	Structure and function of the yeast vacuole and its role in autophagy Microscopy Research and Technique ·Michael Thumm	2000	73
20	Proteins of Newly Isolated Mutants and the Amino-terminal Proline Are Essential for Ubiquitin-Proteasome-catalyzed Catabolite Degradation of Fructose-1,6-bisphosphatase of Saccharomyces cerevisiae Journal of Biological Chemistry ·董了瑜,Jürgen Bauer,Matthias Rose,David Harris Smith,Michael Thumm,Stefanie Düsterhus,Dieter Mecke,Karl‐Dieter Entian,Dieter H. Wolf	1998	80

About Michael Thumm

Michael Thumm is a scholar working on Cell Biology, Epidemiology and Molecular Biology, having authored 61 papers that have together received 3.8k indexed citations. Recurring topics across this work include Autophagy in Disease and Therapy (41 papers), Endoplasmic Reticulum Stress and Disease (32 papers), Cellular transport and secretion (26 papers), Fungal and yeast genetics research (9 papers), Ubiquitin and proteasome pathways (6 papers), Studies on Chitinases and Chitosanases (5 papers), RNA Interference and Gene Delivery (3 papers) and Lysosomal Storage Disorders Research (3 papers). The work is most often cited by research in Cell Biology (1.8k citations), Epidemiology (2.4k citations) and Physiology (306 citations). Michael Thumm has collaborated with scholars based in Germany, United States and Japan. Frequent co-authors include Roswitha Krick, Michael Straub, Ulrike D. Epple, Eeva‐Liisa Eskelinen, Dieter H. Wolf, Detlef Wolf, Daniel J. Klionsky, Henning Barth, Martin Schlumpberger and Ralf Egner. Their work appears in journals such as Autophagy, FEBS Letters, Journal of Biological Chemistry, Journal of Bacteriology and Molecular Biology of the Cell.

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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