T
Tobias Mattheus
Researcher at University of Mainz
Publications - 5
Citations - 779
Tobias Mattheus is an academic researcher from University of Mainz. The author has contributed to research in topics: Promoter & Gene. The author has an hindex of 5, co-authored 5 publications receiving 731 citations.
Papers
More filters
Journal ArticleDOI
Corrigendum: Genome-wide adaptive complexes to underground stresses in blind mole rats Spalax.
Xiaodong Fang,Eviatar Nevo,Lijuan Han,Erez Y. Levanon,Jing Zhao,Aaron Avivi,Denis M. Larkin,Xuanting Jiang,Sergey Feranchuk,Yabing Zhu,Alla Fishman,Yue Feng,Noa Sher,Zhiqiang Xiong,Thomas Hankeln,Zhiyong Huang,Vera Gorbunova,Lu Zhang,Wei Zhao,Derek E. Wildman,Derek E. Wildman,Yingqi Xiong,Andrei V. Gudkov,Qiumei Zheng,Gideon Rechavi,Sanyang Liu,Lily Bazak,Jie Chen,Jie Chen,Binyamin A. Knisbacher,Yao Lu,Imad Shams,Krzysztof Gajda,Marta Farré,Jaebum Kim,Harris A. Lewin,Jian Ma,Mark Band,Anne Bicker,Angela Kranz,Tobias Mattheus,Hanno Schmidt,Andrei Seluanov,Jorge Azpurua,Michael R. McGowen,Eshel Ben Jacob,Kexin Li,Shaoliang Peng,Xiaoqian Zhu,Xiangke Liao,Shuai Cheng Li,Anders Krogh,Xin Zhou,Leonid Brodsky,Jun Wang +54 more
TL;DR: In this paper, a Genome-Wide Adaptive Complex to underground stresses in blind mole rats Spalax is described, where the adaptive complexes are based on adaptive complexes to underground stress.
Journal ArticleDOI
Genome-wide adaptive complexes to underground stresses in blind mole rats Spalax
Xiaodong Fang,Eviatar Nevo,Lijuan Han,Erez Y. Levanon,Jing Zhao,Aaron Avivi,Denis M. Larkin,Xuanting Jiang,Sergey Feranchuk,Yabing Zhu,Alla Fishman,Yue Feng,Noa Sher,Zhiqiang Xiong,Thomas Hankeln,Zhiyong Huang,Vera Gorbunova,Lu Zhang,Wei Zhao,Derek E. Wildman,Yingqi Xiong,Andrei V. Gudkov,Qiumei Zheng,Gideon Rechavi,Sanyang Liu,Lily Bazak,Jie Chen,Binyamin A. Knisbacher,Yao Lu,Imad Shams,Krzysztof Gajda,Marta Farré,Jaebum Kim,Harris A. Lewin,Jian Ma,Mark Band,Anne Bicker,Angela Kranz,Tobias Mattheus,Hanno Schmidt,Andrei Seluanov,Jorge Azpurua,Michael R. McGowen,Eshel Ben Jacob,Kexin Li,Shaoliang Peng,Xiaoqian Zhu,Xiangke Liao,Shuai Cheng Li,Anders Krogh,Xin Zhou,Leonid Brodsky,Jun Wang,Jun Wang +53 more
TL;DR: The results show high rates of RNA/DNA editing, reduced chromosome rearrangements, an over-representation of short interspersed elements (SINEs) probably linked to Hypoxia tolerance, degeneration of vision and progression of photoperiodic perception, tolerance to hypercapnia and hypoxia and resistance to cancer.
Journal ArticleDOI
Polymorphism in Tmem132d regulates expression and anxiety-related behavior through binding of RNA polymerase II complex
Roshan R. Naik,S. V. Sotnikov,S. V. Sotnikov,Rebekka P. Diepold,Stella Iurato,Patrick O. Markt,Andrea Bultmann,Nadine Brehm,Tobias Mattheus,Beat Lutz,Angelika Erhardt,Elisabeth B. Binder,Ulrike Schmidt,Florian Holsboer,Rainer Landgraf,L. Czibere +15 more
TL;DR: To understand the molecular underpinnings underlying the differential expression of Tmem132d, sequenced the gene and found two single-nucleotide polymorphisms in the promoter differing between both lines which could explain the observed mRNA expression profiles using gene reporter assays.
Journal ArticleDOI
Cannabinoid receptor-interacting protein Crip1a modulates CB1 receptor signaling in mouse hippocampus.
Stephan Guggenhuber,Alán Alpár,Alán Alpár,Alán Alpár,Rongqing Chen,Nina Schmitz,Melanie Wickert,Tobias Mattheus,Anne E. Harasta,Anne E. Harasta,Martin Purrio,Nadine Kaiser,Maurice R. Elphick,Krisztina Monory,Werner Kilb,Heiko J. Luhmann,Tibor Harkany,Tibor Harkany,Beat Lutz,Matthias Klugmann,Matthias Klugmann +20 more
TL;DR: The spatial distribution of CRIP1a in the hippocampus is analyzed and it is found that Cnrip1a mRNA is co-expressed with Cnr1 mRNA in pyramidal neurons and interneurons of the hippocampal formation, indicating that CRIP 1a enhances hippocampal CB1R signaling in vivo.
Journal ArticleDOI
Cell Type-Specific Tandem Affinity Purification of the Mouse Hippocampal CB1 Receptor-Associated Proteome
TL;DR: Gene Ontology and protein network analyses showed an enrichment of single proteins and functional clusters of proteins involved in already well described domains of CB1 functions, providing the foundation for further functional studies on differential CB1 signaling.