Zobrazeno 1 - 6
of 6
pro vyhledávání: '"Giuditta Annibaldis"'
Autor:
Suzanne Penfold, Ayola Akim Adegnika, Danny Asogun, Olufemi Ayodeji, Benedict N Azuogu, William A Fischer, Robert F Garry, Donald Samuel Grant, Christian Happi, Magassouba N'Faly, Adebola Olayinka, Robert Samuels, Jefferson Sibley, David A Wohl, Manfred Accrombessi, Ifedayo Adetifa, Giuditta Annibaldis, Anton Camacho, Chioma Dan-Nwafor, Akpénè Ruth Esperencia Deha, Jean DeMarco, Sophie Duraffour, Augustine Goba, Rebecca Grais, Stephan Günther, Énagnon Junior Juvénal Prince Honvou, Chikwe Ihekweazu, Christine Jacobsen, Lansana Kanneh, Mambu Momoh, Aminata Ndiaye, Robert Nsaibirni, Sylvanus Okogbenin, Chinwe Ochu, Ephraim Ogbaini, Énagnon Parsifal Marie Alexandre Logbo, John Demby Sandi, John S Schieffelin, Thomas Verstraeten, Nathalie J Vielle, Anges Yadouleton, Emmanuel Koffi Yovo, Enable Protocol authorship group
Publikováno v:
PLoS ONE, Vol 18, Iss 3, p e0283643 (2023)
BackgroundLassa fever (LF), a haemorrhagic illness caused by the Lassa fever virus (LASV), is endemic in West Africa and causes 5000 fatalities every year. The true prevalence and incidence rates of LF are unknown as infections are often asymptomatic
Externí odkaz:
https://doaj.org/article/78e2d262c5864b628c831163c101c26f
Autor:
Evangelos D. Karousis, Lukas-Adrian Gurzeler, Giuditta Annibaldis, René Dreos, Oliver Mühlemann
Publikováno v:
Nature Communications, Vol 11, Iss 1, Pp 1-12 (2020)
Nonsense-mediated mRNA decay (NMD) was thought to ensue when ribosomes fail to terminate translation properly. However, the authors observe similar ribosome occupancy at stop codons of NMD sensitive and insensitive mRNAs, showing that human NMD is no
Externí odkaz:
https://doaj.org/article/e2ad888a263f4904912b1414bd2a56cf
Autor:
Fara R. Koundouno, Liana E. Kafetzopoulou, Martin Faye, Annick Renevey, Barrè Soropogui, Kékoura Ifono, Emily V. Nelson, Aly A. Kamano, Charles Tolno, Giuditta Annibaldis, Saa L. Millimono, Jacob Camara, Karifa Kourouma, Ahmadou Doré, Tamba E. Millimouno, Fernand M.B. Tolno, Julia Hinzmann, Hugo Soubrier, Mette Hinrichs, Anke Thielebein, Glaucia Herzer, Meike Pahlmann, Georges A. Ki-Zerbo, Pierre Formenty, Anaïs Legand, Michael R. Wiley, Ousmane Faye, Moussa M. Diagne, Amadou A. Sall, Philippe Lemey, Aïssatou Bah, Stephan Günther, Sakoba Keita, Sophie Duraffour, N’Faly Magassouba
Publikováno v:
New England Journal of Medicine. 386:2528-2530
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::d41969f72f5f8d0131bff7a537f3614e
https://doi.org/10.1056/nejmc2120183
https://doi.org/10.1056/nejmc2120183
Autor:
Fodé B. Sako, Jacob Camara, Amadou A. Sall, Ariane Düx, Giuditta Annibaldis, Meike Pahlmann, Abdoulaye Toure, Ousmane Faye, Mamadou Condé, Haby Diallo, Steven T. Pullan, Amadou Sidibe, Moriba Povogui, Fara Raymond Koundouno, Christophe Peyrefitte, Liana E. Kafetzopoulou, Alpha Kabinet Keita, Saa L. Millimono, Mandiou Diakite, Ahmadou Doré, Karla Pietro, N'. Faly Magassouba, Fabian H. Leendertz, Nicole Vidal, Stephan Günther, Anke Thielebein, Julia Hinzmann, Dembo Diakite, Ahidjo Ayouba, Cheikh Loucoubar, Kaka Kourouma, Martin Faye, Philippe Lemey, Moussa Moïse Diagne, Mamadou D. Barry, Fodé Y. Soumah, Annick Renevey, Georges Ki-Zerbo, Kékoura Ifono, Andrew Rambaut, Abdoul K. Soumah, Miles W. Carroll, Mamadou S. Bah, Joseph Akoi Bore, Ibrahima Camara, Mamadou S. Sow, Sébastien Calvignac-Spencer, Fodé A. Traore, Sophie Duraffour, Assaïtou Bah, John T. McCrone, Nathalie J. Vielle, Joshua Quick, Noël Tordo, Moussa Baldé, Mamadou Diop, Youssouf Sidibé, Martine Peeters, Madeleine Kourouma, Sakoba Keita, Mamadou B. Keita, Frédéric Le Marcis, Cé D. Saouromou, Anais Legand, Amadou Diallo, Pierre Formenty, Almudena Mari-Saez, Michael R. Wiley, Karifa Kourouma, Eric Delaporte, Barré Soropogui
Publikováno v:
Nature
Nature, 2021, Published 15 sept. 2021, ⟨10.1038/s41586-021-03901-9⟩
Nature, Nature Publishing Group, 2021, ⟨10.1038/s41586-021-03901-9⟩
Keita, A K, Koundouno, F R, Faye, M, Düx, A, Hinzmann, J, Diallo, H, Ayouba, A, Le Marcis, F, Soropogui, B, Ifono, K, Diagne, M M, Sow, M S, Bore, J A, Calvignac-Spencer, S, Vidal, N, Camara, J, Keita, M B, Renevey, A, Diallo, A, Soumah, A K, Millimono, S L, Mari-Saez, A, Diop, M, Doré, A, Soumah, F Y, Kourouma, K, Vielle, N J, Loucoubar, C, Camara, I, Kourouma, K, Annibaldis, G, Bah, A, Thielebein, A, Pahlmann, M, Pullan, S T, Carroll, M W, Quick, J, Formenty, P, Legand, A, Pietro, K, Wiley, M R, Tordo, N, Peyrefitte, C, McCrone, J T, Rambaut, A, Sidibé, Y, Barry, M D, Kourouma, M, Saouromou, C D, Condé, M, Baldé, M, Povogui, M, Keita, S, Diakite, M, Bah, M S, Sidibe, A, Diakite, D, Sako, F B, Traore, F A, Ki-Zerbo, G A, Lemey, P, Günther, S, Kafetzopoulou, L E, Sall, A A, Delaporte, E, Duraffour, S, Faye, O, Leendertz, F H, Peeters, M, Toure, A & Magassouba, N F 2021, ' Resurgence of Ebola virus in 2021 in Guinea suggests a new paradigm for outbreaks ', Nature, vol. 597, no. 7877, pp. 539-543 . https://doi.org/10.1038/s41586-021-03901-9
Nature, 2021, Published 15 sept. 2021, ⟨10.1038/s41586-021-03901-9⟩
Nature, Nature Publishing Group, 2021, ⟨10.1038/s41586-021-03901-9⟩
Keita, A K, Koundouno, F R, Faye, M, Düx, A, Hinzmann, J, Diallo, H, Ayouba, A, Le Marcis, F, Soropogui, B, Ifono, K, Diagne, M M, Sow, M S, Bore, J A, Calvignac-Spencer, S, Vidal, N, Camara, J, Keita, M B, Renevey, A, Diallo, A, Soumah, A K, Millimono, S L, Mari-Saez, A, Diop, M, Doré, A, Soumah, F Y, Kourouma, K, Vielle, N J, Loucoubar, C, Camara, I, Kourouma, K, Annibaldis, G, Bah, A, Thielebein, A, Pahlmann, M, Pullan, S T, Carroll, M W, Quick, J, Formenty, P, Legand, A, Pietro, K, Wiley, M R, Tordo, N, Peyrefitte, C, McCrone, J T, Rambaut, A, Sidibé, Y, Barry, M D, Kourouma, M, Saouromou, C D, Condé, M, Baldé, M, Povogui, M, Keita, S, Diakite, M, Bah, M S, Sidibe, A, Diakite, D, Sako, F B, Traore, F A, Ki-Zerbo, G A, Lemey, P, Günther, S, Kafetzopoulou, L E, Sall, A A, Delaporte, E, Duraffour, S, Faye, O, Leendertz, F H, Peeters, M, Toure, A & Magassouba, N F 2021, ' Resurgence of Ebola virus in 2021 in Guinea suggests a new paradigm for outbreaks ', Nature, vol. 597, no. 7877, pp. 539-543 . https://doi.org/10.1038/s41586-021-03901-9
Seven years after the declaration of the first epidemic of Ebola virus disease in Guinea, the country faced a new outbreak—between 14 February and 19 June 2021—near the epicentre of the previous epidemic1,2. Here we use next-generation sequencing
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::4443684e4a88bbbab1c4d08949bf4373
https://shs.hal.science/halshs-03351513
https://shs.hal.science/halshs-03351513
Autor:
Giuditta, Annibaldis, Michal, Domanski, René, Dreos, Lara, Contu, Sarah, Carl, Nina, Kläy, Oliver, Mühlemann
Publikováno v:
Nucleic Acids Research
To gain insight into the mechanistic link between translation termination and nonsense-mediated mRNA decay (NMD), we depleted the ribosome recycling factor ABCE1 in human cells, resulting in an upregulation of NMD-sensitive mRNAs. Suppression of NMD
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=pmid________::6848268ce4dbe89aea80c63f55c0ba27
https://pubmed.ncbi.nlm.nih.gov/32941650
https://pubmed.ncbi.nlm.nih.gov/32941650
SUMMARYNonsense-mediated mRNA decay (NMD) is an essential post-transcriptional surveillance pathway in vertebrates that appears to be mechanistically linked with translation termination. To gain more insight into this connection, we interfered with t
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::5d3429ffaab11867523bcf08dc0efede