{"id":34,"date":"2018-09-11T13:50:17","date_gmt":"2018-09-11T13:50:17","guid":{"rendered":"http:\/\/weigand-lab.de\/?page_id=34"},"modified":"2025-06-05T11:15:24","modified_gmt":"2025-06-05T11:15:24","slug":"publikationen","status":"publish","type":"page","link":"https:\/\/weigand-lab.de\/?page_id=34&lang=de","title":{"rendered":"Publikationen"},"content":{"rendered":"\n

Publikationen in PubMed hier<\/a><\/p>\n\n\n\n

62. Ceylan B, Adam J, Toews S, Kaiser F, D\u00f6rr J, Scheppa D, Tants JN, Smart A, Schoth J, Philipp S, Stirnal E, Ferner J, Richter C, Sreeramulu S, Caliskan N, Schlundt A, Weigand JE<\/strong>, G\u00f6bel M, Wacker A, Schwalbe H. (2025) Optimization of Structure-Guided Development of Chemical Probes for the Pseudoknot RNA of the Frameshift Element in SARS-CoV-2. Angew Chem Int Ed Engl. <\/em>64: e202417961.<\/p>\n\n\n\n

61. Oberstrass L, Tants JN, Lichtenthaeler C, Ali SE, Koch L, Mathews DH, Schlundt A, Weigand JE<\/strong>. (2024) Comprehensive Profiling of Roquin Binding Preferences for RNA Stem-Loops. Angew Chem Int Ed Engl.<\/em> 63: e202412596.<\/p>\n\n\n\n

60. Tants JN, Oberstrass L, Weigand JE<\/strong>, Schlundt A. (2024) Structure and RNA-binding of the helically extended Roquin CCCH-type zinc finger. Nucleic Acids Res.<\/em> 52: 9838-9853.<\/p>\n\n\n\n

59. von Ehr J, Oberstrass L, Yazgan E, Schnaubelt LI, Bl\u00fcmel N, McNicoll F, Weigand JE<\/strong>, Zarnack K, M\u00fcller-McNicoll M, Korn SM, Schlundt A. (2024) Arid5a uses disordered extensions of its core ARID domain for distinct DNA- and RNA-recognition and gene regulation. J Biol Chem.<\/em> 300:107457.<\/p>\n\n\n\n

58. V\u00f6gele J, Duchardt-Ferner E, Bains JK, Knezic B, Wacker A, Sich C, Weigand JE<\/strong>, \u0160poner J, Schwalbe H, Krepl M, W\u00f6hnert J. (2024) Structure of an internal loop motif with three consecutive U\u2022U mismatches from stem-loop 1 in the 3′-UTR of the SARS-CoV-2 genomic RNA. Nucleic Acids Res.<\/em> 52: 6687-6706.<\/p>\n\n\n\n

57. Fischer S, Lichtenthaeler C, Stepanenko A, Heyl F, Maticzka D, Kemmerer K, Klostermann M, Backofen R, Zarnack K, Weigand JE<\/strong>. (2023) Heterogenous nuclear ribonucleoprotein D-like controls endothelial cell functions. Biol Chem.<\/em> 405: 229-239.<\/p>\n\n\n\n

56. V\u00f6gele J, Hymon D, Martins J, Ferner J, Jonker HRA, Hargrove AE, Weigand JE<\/strong>, Wacker A, Schwalbe H, W\u00f6hnert J, Duchardt-Ferner E. (2023) High-resolution structure of stem-loop 4 from the 5\u2032-UTR of SARS-CoV-2 solved by solution state NMR. Nucleic Acids Res. <\/em>51: 11318-11331.<\/p>\n\n\n\n

55. Kaiser C, Vogel M, Appel B, Weigand J<\/strong>, M\u00fcller S, Suess B, Wachtveitl J. (2023) Magnesium Ion-Driven Folding and Conformational Switching Kinetics of Tetracycline Binding Aptamer: Implications for in vivo Riboswitch Engineering. J Mol Biol.<\/em> 435: 168253.<\/p>\n\n\n\n

54. Duchardt-Ferner E, Ferner J, F\u00fcrtig B, Hengesbach M, Richter C, Schlundt A, Sreeramulu S, Wacker A, Weigand JE<\/strong>, Wirmer-Bartoschek J, Schwalbe H. (2023) The COVID19-NMR Consortium: A Public Report on the Impact of this New Global Collaboration. Angew Chem Int Ed Engl.<\/em> 62: e202217171.<\/p>\n\n\n\n

53. Berg H, Wirtz Martin MA, Altincekic N, Alshamleh I, Kaur Bains J, Blechar J, Ceylan B, de Jesus V, Dhamotharan K, Fuks C, Gande SL, Hargittay B, Hohmann KF, Hutchison MT, Marianne Korn S, Krishnathas R, Kutz F, Linhard V, Matzel T, Meiser N, Niesteruk A, Pyper DJ, Schulte L, Trucks S, Azzaoui K, Blommers MJJ, Gadiya Y, Karki R, Zaliani A, Gribbon P, da Silva Almeida M, Dinis Anobom C, Bula AL, B\u00fctikofer M, Putinhon Caruso \u00cd, Caterina Felli I, Da Poian AT, Cardoso de Amorim G, Fourkiotis NK, Gallo A, Ghosh D, Gomes-Neto F, Gorbatyuk O, Hao B, Kurauskas V, Lecoq L, Li Y, Cunha Mebus-Antunes N, Mompe\u00e1n M, Cristtina Neves-Martins T, Ninot-Pedrosa M, Pinheiro AS, Pontoriero L, Pustovalova Y, Riek R, Robertson AJ, Jose Abi Saad M, Trevi\u00f1o M\u00c1, Tsika AC, Almeida FCL, Bax A, Henzler-Wildman K, Hoch JC, Jaudzems K, Laurents DV, Orts J, Pierattelli R, Spyroulias GA, Duchardt-Ferner E, Ferner J, F\u00fcrtig B, Hengesbach M, L\u00f6hr F, Qureshi N, Richter C, Saxena K, Schlundt A, Sreeramulu S, Wacker A, Weigand JE<\/strong>, Wirmer-Bartoschek J, W\u00f6hnert J, Schwalbe H. (2022) Comprehensive Fragment Screening of the SARS-CoV-2 Proteome Explores Novel Chemical Space for Drug Development. Angew Chem Int Ed Engl.<\/em> 61: e202205858.<\/p>\n\n\n\n

52. Mertinkus KR, Gr\u00fcn JT, Altincekic N, Bains JK, Ceylan B, Ferner JP, Frydman L, F\u00fcrtig B, Hengesbach M, Hohmann KF, Hymon D, Kim J, Knezic B, Novakovic M, Oxenfarth A, Peter SA, Qureshi NS, Richter C, Scherf T, Schlundt A, Schnieders R, Schwalbe H, Stirnal E, Sudakov A, V\u00f6gele J, Wacker A, Weigand JE<\/strong>, Wirmer-Bartoschek J, Martin MAW, W\u00f6hnert J. (2022) 1<\/sup>H, 13<\/sup>C and 15<\/sup>N chemical shift assignment of the stem-loops 5b\u2009+\u2009c from the 5′-UTR of SARS-CoV-2. Biomol NMR Assign.<\/em> 16: 17-25.<\/p>\n\n\n\n

51. Richter C, Hohmann KF, Toews S, Mathieu D, Altincekic N, Bains JK, Binas O, Ceylan B, Duchardt-Ferner E, Ferner J, F\u00fcrtig B, Gr\u00fcn JT, Hengesbach M, Hymon D, Jonker HRA, Knezic B, Korn SM, Landgraf T, L\u00f6hr F, Peter SA, Pyper DJ, Qureshi NS, Schlundt A, Schnieders R, Stirnal E, Sudakov A, V\u00f6gele J, Weigand JE<\/strong>, Wirmer-Bartoschek J, Witt K, W\u00f6hnert J, Schwalbe H, Wacker A. (2021) 1<\/sup>H, 13<\/sup>C and 15<\/sup>N assignment of stem-loop SL1 from the 5′-UTR of SARS-CoV-2. Biomol NMR Assign<\/em>, 15: 467-474.<\/p>\n\n\n\n

50. Lichtenthaeler C, Oberstrass L, Weigand JE<\/strong> (2021) mRNA-Strukturen steuern die posttranskriptionelle Genregulation. Biospektrum 27: 351-354.<\/p>\n\n\n\n

49. Sreeramulu S, Richter C, Berg H, Wirtz Martin MA, Ceylan B, Matzel T, Adam J, Altincekic N, Azzaoui K, Bains JK, Blommers MJJ, Ferner J, F\u00fcrtig B, G\u00f6bel M, Gr\u00fcn JT, Hengesbach M, Hohmann KF, Hymon D, Knezic B, Martins J, Mertinkus KR, Niesteruk A, Peter SA, Pyper DJ, Qureshi NS, Scheffer U, Schlundt A, Schnieders R, Stirnal E, Sudakov A, Tr\u00f6ster A, V\u00f6gele J, Wacker A, Weigand JE<\/strong>, Wirmer-Bartoschek J, W\u00f6hnert J, Schwalbe H (2021) Exploring the druggability of conserved RNA regulatory elements in the SARS-CoV-2 genome. Angew Chem Int Ed Engl<\/em> 60: 19191-19200.<\/p>\n\n\n\n

48. Altincekic N, Korn SM, Qureshi NS, Dujardin M, Ninot-Pedrosa M, Abele R, Abi Saad MJ, Alfano C, Almeida FCL, Alshamleh I, de Amorim GC, Anderson TK, Anobom CD, Anorma C, Bains JK, Bax A, Blackledge M, Blechar J, B\u00f6ckmann A, Brigandat L, Bula A, B\u00fctikofer M, Camacho-Zarco AR, Carlomagno T, Caruso IP, Ceylan B, Chaikuad A, Chu F, Cole L, Crosby MG, de Jesus V, Dhamotharan K, Felli IC, Ferner J, Fleischmann Y, Fogeron ML, Fourkiotis NK, Fuks C, F\u00fcrtig B, Gallo A, Gande SL, Gerez JA, Ghosh D, Gomes-Neto F, Gorbatyuk O, Guseva S, Hacker C, H\u00e4fner S, Hao B, Hargittay B, Henzler-Wildman K, Hoch JC, Hohmann KF, Hutchison MT, Jaudzems K, Jovi\u0107 K, Kaderli J, Kalni\u0146\u0161 G, Ka\u0146epe I, Kirchdoerfer RN, Kirkpatrick J, Knapp S, Krishnathas R, Kutz F, Zur Lage S, Lambertz R, Lang A, Laurents D, Lecoq L, Linhard V, L\u00f6hr F, Malki A, Bessa LM, Martin RW, Matzel T, Maurin D, McNutt SW, Mebus-Antunes NC, Meier BH, Meiser N, Mompe\u00e1n M, Monaca E, Montserret R, Mari\u00f1o Perez L, Moser C, Muhle-Goll C, Neves-Martins TC, Ni X, Norton-Baker B, Pierattelli R, Pontoriero L, Pustovalova Y, Ohlenschl\u00e4ger O, Orts J, Da Poian AT, Pyper DJ, Richter C, Riek R, Rienstra CM, Robertson A, Pinheiro AS, Sabbatella R, Salvi N, Saxena K, Schulte L, Schiavina M, Schwalbe H, Silber M, Almeida MDS, Sprague-Piercy MA, Spyroulias GA, Sreeramulu S, Tants JN, T\u0101rs K, Torres F, T\u00f6ws S, Trevi\u00f1o M\u00c1, Trucks S, Tsika AC, Varga K, Wang Y, Weber ME, Weigand JE<\/strong>, Wiedemann C, Wirmer-Bartoschek J, Wirtz Martin MA, Zehnder J, Hengesbach M, Schlundt A (2021) Large-Scale Recombinant Production of the SARS-CoV-2 Proteome for High-Throughput and Structural Biology Applications. Front Mol Biosci<\/em> 8: 653148.<\/p>\n\n\n\n

47. V\u00f6gele J, Ferner JP, Altincekic N, Bains JK, Ceylan B, F\u00fcrtig B, Gr\u00fcn JT, Hengesbach M, Hohmann KF, Hymon D, Knezic B, L\u00f6hr F, Peter SA, Pyper D, Qureshi NS, Richter C, Schlundt A, Schwalbe H, Stirnal E, Sudakov A, Wacker A, Weigand JE<\/strong>, Wirmer-Bartoschek J, W\u00f6hnert J, Duchardt-Ferner E (2021) 1<\/sup>H, 13<\/sup>C, 15<\/sup>N and 31<\/sup>P chemical shift assignment for stem-loop 4 from the 5′-UTR of SARS-CoV-2. Biomol NMR Assign<\/em>, 15: 335-340.<\/p>\n\n\n\n

46. Peter SA, Isaac JS, Narberhaus F, Weigand JE<\/strong> (2021) A novel, universally active C-terminal protein degradation signal generated by alternative splicing. J Mol Biol<\/em> 433: 166890.<\/p>\n\n\n\n

45. Schnieders R, Peter SA, Banijamali E, Riad M, Altincekic N, Bains JK, Ceylan B, F\u00fcrtig B, Gr\u00fcn JT, Hengesbach M, Hohmann KF, Hymon D, Knezic B, Oxenfarth A, Petzold K, Qureshi NS, Richter C, Schlagnitweit J, Schlundt A, Schwalbe H, Stirnal E, Sudakov A, V\u00f6gele J, Wacker A, Weigand JE<\/strong>, Wirmer-Bartoschek J, W\u00f6hnert J (2021) 1<\/sup>H, 13<\/sup>C and 15<\/sup>N chemical shift assignment of the stem-loop 5a from the 5′-UTR of SARS-CoV-2. Biomol NMR Assign<\/em> 15: 203-211.<\/p>\n\n\n\n

44. Korn SM, Lambertz R, F\u00fcrtig B, Hengesbach M, L\u00f6hr F, Richter C, Schwalbe H, Weigand JE<\/strong>, W\u00f6hnert J, Schlundt A (2021) 1<\/sup>H, 13<\/sup>C, and 15<\/sup>N backbone chemical shift assignments of the C-terminal dimerization domain of SARS-CoV-2 nucleocapsid protein. Biomol NMR Assign<\/em> 15: 129-135.<\/p>\n\n\n\n

43. Wacker A*, Weigand JE<\/strong>*, Akabayov SR, Altincekic N, Kaur Bains J, Banijamali E, Binas O, Castillo-Martinez J, Cetiner E, Ceylan B, Chiu LY, Davila-Calderon J, Dhamotharan K, Duchardt-Ferner E, Ferner J, Frydman L, F\u00fcrtig B, Gallego J, Gr\u00fcn JT, Hacker C, Haddad C, H\u00e4hnke M, Hengesbach M, Hiller F, Hohmann KF, Hymon D, de Jesus V, Jonker H, Keller H, Knezic B, Landgraf T, L\u00f6hr F, Luo L, Mertinkus KR, Muhs C, Novakovic M, Oxenfarth A, Palomino-Sch\u00e4tzlein M, Petzold K, Peter SA, Pyper DJ, Qureshi NS, Riad M, Richter C, Saxena K, Schamber T, Scherf T, Schlagnitweit J, Schlundt A, Schnieders R, Schwalbe H, Simba-Lahuasi A, Sreeramulu S, Stirnal E, Sudakov A, Tants JN, Tolbert BS, V\u00f6gele J, Wei\u00df L, Wirmer-Bartoschek J, Wirtz Martin M, W\u00f6hnert J, Zetzsche H (2020) Breakthrough Article: Secondary structure determination of conserved SARS-CoV-2 RNA elements by NMR spectroscopy and DMS footprinting analysis. Nucleic Acids Res<\/em> 48: 12415-12435. *Erstautor<\/p>\n\n\n\n

42. Kubatova N, Qureshi NS, Altincekic N, Abele R, Bains JK, Ceylan B, Ferner J, Fuks C, Hargittay B, Hutchison MT, de Jesus v, Kutz F, Martin MW, Meiser N, Linhardt V, Pyper DJ, Trucks S, F\u00fcrtig B, Hengesbach M, L\u00f6hr F, Richter C, Saxena K, Schlundt A, Schwalbe H, Sreeramulu S, Wacker A, Weigand JE<\/strong>, Wirmer-Bartoschek J, W\u00f6hnert J (2021) 1<\/sup>H, 13<\/sup>C, and 15<\/sup>N backbone chemical shift assignments of coronavirus-2 non-structural protein Nsp10. Biomol NMR Assign<\/em> 15: 65-71.<\/p>\n\n\n\n

41. Schlundt A, Wirtz MA, Knezic B, Hengesbach M, F\u00fcrtig B, Weigand JE<\/strong>, W\u00f6hnert J, Ferner J, Saxena K, Wacker A, Richter C, Sreeramulu S, Wirmer-Bartoschek J, Schwalbe H; Im Namen von Mehr als 50 Wissenschaftlerinnen und Wissenschaftlern in Frankfurt und Darmstadt. (2020) Gemeinschaftlich in Krisenzeiten: NMR-Strukturbiologie gegen COVID-19. Biospektrum<\/em> 26: 440-441.<\/p>\n\n\n\n

40. Cantini F, Banci L, Altincekic N, Bains, JK, Dhamotharan K, Fuks C, F\u00fcrtig B, Gande SL, Hargittay B, Hengesbach M, Hutchison MT, Korn SM, Kubatova N, Kutz F, Linhard V, L\u00f6hr F, Meiser N, Pyper DJ, Qureshi NS, Richter C, Saxena K, Schlundt A, Schwalbe H, Sreeramulu S, Tants JN, Wacker A, Weigand JE<\/strong>, W\u00f6hnert J, Tsika AC, Fourkiotis NK, Spyroulias GA (2020) 1<\/sup>H, 13<\/sup>C, and 15<\/sup>N backbone chemical shift assignments of the apo and the ADP\u2011ribose bound forms of the macrodomain of SARS\u2011CoV\u20112 non\u2011structural protein 3b. Biomol NMR Assign<\/em> 14: 339-346.<\/p>\n\n\n\n

39. Korn SM,  Dhamotharan K,  F\u00fcrtig B, Hengesbach M,  L\u00f6hr F,  Qureshi NS,  Richter C, Saxena K,  Schwalbe H, Tants JN, Weigand JE<\/strong>, W\u00f6hnert J, Schlundt A (2020) 1<\/sup>H, 13<\/sup>C, and 15<\/sup>N backbone chemical shift assignments of the nucleic acid-binding domain of SARS-CoV-2 non-structural protein 3e. Biomol NMR Assign<\/em> 14: 329-333.<\/p>\n\n\n\n

38. Binas O, Tants JN, Peter SA, Janowski R, Davydova E, Braun J, Niessing D, Schwalbe H, Weigand JE<\/strong>*, Schlundt A* (2020) Structural basis for the recognition of transiently structured AU-rich elements by Roquin. Nucleic Acids Res <\/em>48: 7385-7403. *Korrespondenz<\/p>\n\n\n\n

37. Fischer S, Di Liddo A, Taylor K, Gerhardus JS, Sobczak K, Zarnack K, Weigand JE<\/strong> (2020) Muscleblind-like 2 controls the hypoxia response of cancer cells. RNA<\/em> 26: 648-663. <\/p>\n\n\n\n

36. Di Liddo A, de Oliveira Freitas Machado C, Fischer S, Ebersberger S, Heum\u00fcller AW, Weigand JE<\/strong>, M\u00fcller-McNicoll M, Zarnack K (2019) A combined computational pipeline to detect circular RNAs in human cancer cells under hypoxic stress. J Mol Cell Biol<\/em> 11: 829-844.<\/p>\n\n\n\n

35.   Gustmann H, Segler AJ, Gophane DB, Reuss AJ, Gr\u00fcnewald C, Braun M, Weigand JE<\/strong>, Sigurdsson ST, Wachtveitl J (2019) Structure guided fluorescence labeling reveals a two-step binding mechanism of neomycin to its RNA aptamer. Nucleic Acids Res<\/em> 47: 15-28. <\/p>\n\n\n\n

34.   Hetzke T, Vogel M, Gophane DB, Weigand JE<\/strong>, Suess B, Sigurdsson ST, Prisner TF (2019) Influence of Mg2+<\/sup> on the conformational flexibility of a tetracycline aptamer. RNA<\/em> 25: 158-167.<\/p>\n\n\n\n

33.   Braun J, Fischer S, Xu ZZ, Sun H, Ghoneim DH, Gimbel AT, Plessman U, Urlaub H, Mathews DH, Weigand JE<\/strong> (2018) Identification of new high affinity targets for Roquin based on structural conservation. Nucleic Acids Res<\/em> 46: 12109-12125.<\/p>\n\n\n\n

32.   Vogel M, Weigand JE<\/strong>, Kluge B, Grez M, Suess B (2018) A small, portable RNA device for the control\nof exon skipping in mammalian cells. Nucleic Acids Res<\/em> 46: e48.<\/p>\n\n\n\n

31.   <\/a>Suess B, Weigand JE<\/strong>, Kemmerer K (2018) Splicing and Alternative Splicing – Impact on gene design. In Wiley-Blackwell: Synthetic Biology – Parts, Devices and Applications<\/em>, Volume 8: 131-179.<\/p>\n\n\n\n

30.   Kemmerer K, Fischer S, Weigand JE<\/strong> (2018) Auto- and cross-regulation of the hnRNPs D and DL. RNA<\/em> 24: 324-331.<\/p>\n\n\n\n

29.   Atanasov J, Groher F, Weigand JE<\/strong>*, Suess B* (2017) Design and implementation of a synthetic pre-miR switch for controlling miRNA biogenesis in mammals. Nucleic Acids Res<\/em> 45: e181. *Korrespondenz<\/p>\n\n\n\n

28.   Kunze MM, Benz F, Brau\u00df TF, Lampe S, Weigand JE<\/strong>, Braun J, Richter FM, Wittig I, Br\u00fcne B, Schmid T (2016) sST2 translation is regulated by FGF2 via an hnRNP A1-mediated IRES-dependent mechanism. Biochim Biophys Acta<\/em> 1859: 848-859.<\/p>\n\n\n\n

27.   Duchardt-Ferner E, Gottstein-Schmidtke SR, Weigand JE<\/strong>, Ohlenschl\u00e4ger O, Wurm JP, Hammann C, Suess B, W\u00f6hnert J (2016) What a Difference an OH Makes: Conformational Dynamics as the Basis for the Ligand Specificity of the Neomycin-Sensing Riboswitch. Angew Chem Int Ed Engl <\/em>55: 1527-1530.<\/p>\n\n\n\n

26.   Rohde JH, Weigand JE<\/strong>, Suess B, Dimmeler S\n(2015) A universal aptamer chimera for the delivery of functional microRNA-126.\nNucleic Acid Ther<\/em> 25: 141-151.<\/p>\n\n\n\n

25.   Reuss AJ, Vogel M, Weigand JE<\/strong>, Suess B, Wachtveitl J\n(2014) Tetracycline Determines the Conformation of its Aptamer at Physiological\nMagnesium Concentrations. Biophys J <\/em>107:\n2962-2971.<\/p>\n\n\n\n

24.   Kemmerer K, Weigand JE<\/strong> (2014) Hypoxia\nreduces MAX expression in endothelial cells by unproductive splicing. FEBS Lett<\/em> 588: 4784-4790.<\/p>\n\n\n\n

23.   Weigand JE<\/strong>, Gottstein-Schmidtke SR, Demolli S, Groher F, Duchardt-Ferner E, W\u00f6hnert J, Suess B (2014) VIP Article: Sequence elements distal to the ligand binding pocket modulate the efficiency of a synthetic riboswitch. Chembiochem <\/em>15: 1627-1637.<\/p>\n\n\n\n

22.   Gottstein-Schmidtke SR,\nDuchardt-Ferner E, Groher F, Weigand JE<\/strong>,\nGottstein D, Suess B, W\u00f6hnert J (2014) Building a stable RNA U-turn with\na protonated cytidine. RNA <\/em>20:\n1163-1172.<\/p>\n\n\n\n

21.   Demolli S, Geist MM, Weigand JE<\/strong>, Matschiavelli N, Suess B, Rother M (2014) Development of beta-Lactamase as a Tool for Monitoring Conditional Gene Expression by a Tetracycline-Riboswitch in Methanosarcina acetivorans. Archaea <\/em>2014: 725610.<\/p>\n\n\n\n

20.   Meitert J, Aram R, Wiesemann\nK, Weigand JE<\/strong>, Suess B (2013)\nMonitoring the expression level of coding and non-coding RNAs using a TetR\ninducing aptamer tag. Bioorg Med Chem <\/em>21:\n6233-6238.<\/p>\n\n\n\n

19.   Heinrich EM, Wagner J, Kr\u00fcger\nM, John D, Uchida S, Weigand JE<\/strong>,\nSuess B, Dimmeler S (2013) Regulation of miR-17-92a cluster processing\nby the microRNA binding protein SND1.\nFEBS Lett <\/em>587: 2405-2411.<\/p>\n\n\n\n

18.   Weigand JE<\/strong>*, Boeckel JN, Gellert P, Dimmeler S (2012) Hypoxia-induced alternative splicing in endothelial cells. PLoS One<\/em>7: e42697. *Korrespondenz<\/p>\n\n\n\n

17.   Suess B, Entian KD, K\u00f6tter P, Weigand JE<\/strong> (2012) Aptamer-regulated expression of essential genes in yeast. Methods Mol Biol<\/em>824: 381-391.<\/p>\n\n\n\n

16.   Weigand JE<\/strong>, Wittmann A, Suess B (2012) RNA-based networks:\nusing RNA aptamers and ribozymes as synthetic genetic devices. Methods Mol Biol <\/em>813: 157-168.<\/p>\n\n\n\n

15.   F\u00f6rster U, Weigand JE<\/strong>, Trojanowski P, Suess B,\nWachtveitl J (2012) Conformational dynamics of the tetracycline-binding aptamer.\nNucleic Acids Res <\/em>40: 1807-1817.<\/p>\n\n\n\n

14.   Weigand JE<\/strong>, Schmidtke SR, Will TJ, Duchardt-Ferner E, Hammann C,\nW\u00f6hnert J, Suess B (2011) Mechanistic insights into an engineered\nriboswitch: a switching element which confers riboswitch activity. Nucleic Acids Res <\/em>39: 3363-3372.<\/p>\n\n\n\n

13.   Wunnicke D, Strohbach D, Weigand JE<\/strong>, Appel B, Feresin E, Suess\nB, M\u00fcller S, Steinhoff HJ (2011) Ligand-induced conformational capture\nof a synthetic tetracycline riboswitch revealed by pulse EPR. RNA <\/em>17: 182-188.<\/p>\n\n\n\n

12.   Duchardt-Ferner E, Weigand JE<\/strong>, Ohlenschl\u00e4ger O, Schmidtke\nSR, Suess B, W\u00f6hnert J (2010) Highly modular structure and ligand\nbinding by conformational capture in a minimalistic riboswitch. Angew Chem Int Ed Engl <\/em>49: 6216-6219.<\/p>\n\n\n\n

11.   Nozinovic S, Richter C,\nRinnenthal J, F\u00fcrtig B, Duchardt-Ferner E, Weigand\nJE<\/strong>, Schwalbe H (2010) Quantitative 2D and 3D Gamma-HCP Experiments\nfor the Determination of the Angles alpha and zeta in the Phosphodiester\nBackbone of Oligonucleotides. J Am Chem\nSoc <\/em>132: 10318-10329.<\/p>\n\n\n\n

10.   Schmidtke SR, Duchardt-Ferner\nE, Weigand JE<\/strong>, Suess B, W\u00f6hnert J\n(2010) NMR resonance assignments of an engineered neomycin-sensing riboswitch\nRNA bound to ribostamycin and tobramycin. Biomol\nNMR Assign <\/em>4: 115-118.<\/p>\n\n\n\n

9.   Krstic I, Frolow O, Sezer D, Endeward B, Weigand JE<\/strong>, Suess B, Engels JW, Prisner TF (2010) PELDOR spectroscopy reveals preorganization of the neomycin-responsive riboswitch tertiary structure. J Am Chem Soc <\/em>132: 1454-1455.<\/p>\n\n\n\n

8.   Weigand JE<\/strong>, Suess B (2009) Aptamers and riboswitches: perspectives in biotechnology. Appl Microbiol Biotechnol <\/em>85: 229-236.<\/p>\n\n\n\n

7.   K\u00f6tter P, Weigand JE<\/strong>, Meyer B, Entian KD, Suess B (2009) A fast and efficient translational control system for conditional expression of yeast genes. Nucleic Acids Res <\/em>37: e120.<\/p>\n\n\n\n

6.   Suess B, Weigand JE<\/strong> (2009) Aptamers as artificial gene regulation elements. Methods Mol Biol<\/em>535: 201-208.<\/p>\n\n\n\n

5.   Suess B, Weigand JE<\/strong> (2008) Engineered riboswitches: overview, problems and trends. RNA Biol <\/em>5: 24-29.<\/p>\n\n\n\n

4.   Weigand JE<\/strong>, Sanchez M, Gunnesch EB, Zeiher S, Schroeder R, Suess B (2008) Screening for engineered neomycin riboswitches that control translation initiation. RNA <\/em>14: 89-97.<\/p>\n\n\n\n

3.   Weigand JE<\/strong>, Suess B (2007) Tetracycline aptamer-controlled regulation of pre-mRNA splicing in yeast. Nucleic Acids Res <\/em>35: 4179-4185.<\/p>\n\n\n\n

2.   Weigand JE<\/strong>, Suess B (2007) A designed RNA shuts down transcription. Chem Biol<\/em> 14: 9-11.<\/p>\n\n\n\n

\n1.   M\u00fcller M, Weigand JE<\/strong>, Weichenrieder O, Suess B (2006) Thermodynamic characterization of an engineered tetracycline-binding riboswitch. Nucleic Acids Res <\/em>34: 2607-2617.\n\n<\/p>\n","protected":false},"excerpt":{"rendered":"

Publikationen in PubMed hier 62. Ceylan B, Adam J, Toews S, Kaiser F, D\u00f6rr J, Scheppa D, Tants JN, Smart A, Schoth J, Philipp S, Stirnal E, Ferner J, Richter C, Sreeramulu S, Caliskan N, Schlundt A, Weigand JE, G\u00f6bel M, Wacker A, Schwalbe H. (2025) Optimization of Structure-Guided Development of Chemical Probes for the…
Weiterlesen<\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-34","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/weigand-lab.de\/index.php?rest_route=\/wp\/v2\/pages\/34","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/weigand-lab.de\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/weigand-lab.de\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/weigand-lab.de\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/weigand-lab.de\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=34"}],"version-history":[{"count":30,"href":"https:\/\/weigand-lab.de\/index.php?rest_route=\/wp\/v2\/pages\/34\/revisions"}],"predecessor-version":[{"id":2365,"href":"https:\/\/weigand-lab.de\/index.php?rest_route=\/wp\/v2\/pages\/34\/revisions\/2365"}],"wp:attachment":[{"href":"https:\/\/weigand-lab.de\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=34"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}