WWU Münster UKM
IoB
NEWS
2022-06
"paPAML: An Improved Computational Tool to Explore Selection Pressure on Protein-Coding Sequences" by Lynn Ogoniak, Norbert Grundmann and others
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2022-05-14
"Mobilome of Apicomplexa Parasites" by Rodriguez and Makalowski has been published by Genes.
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2022-04-27
"Software evaluation for de novo detection of transposons" by Rodriguez and Makalowski has been published by Mobile DNA.
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2022-04-01
"From telomere to telomere: The transcriptional and epigenetic state of human repeat elements” by T2T consortium has been published by Science.
Goto
2022-02-12
"Global research alliance in infectious disease: a collaborative effort to combat infectious diseases through dissemination of portable sequencing” by GRAID consortium that IoB is part of has been published by BMC Research Notes.
Goto
2021-08-05
Congratulations to Reza and Matias on the excellent contribution on TE-driven DNA transductions in the human genome
Goto
2021-05-29
"Somatic Functional Deletions of Upstream Open Reading Frame-Associated Initiation and Termination Codons in Human Cancer" was published by MDPI
Goto
Philipp Fervers
Dr. Philipp Fervers
I am a student after 2. state examination and joined the Institute of Bioinformatics in May 2016. Since then I am working on my doctoral research study about the influence of upstream open reading frames (uORF) on gene expression in Trypanosoma congolense. Furthermore I am interested in the context of start codons and post transcriptional gene regulation in Trypanosoma.
Education
  • Academic Studies of Human Medicine at WWU Münster
  • 2011 - 2012: Pre-clinical part
  • 2013 - 2016: Clinical part
Internships
  • 4 weeks of internship at the International Research Centre of Jüich (Institute INM-4 “Physics of Medical Imaging“, chief: Prof. H. Herzog)
  • 6 months of medical traineeship with focus on radiology, cardiology and general medicine
Publications
  • Fervers P, Fervers F, Makałowski W, Jąkalski M. (2018) Life cycle adapted upstream open reading frames (uORFs) in Trypanosoma congolense: A post-transcriptional approach to accurate gene regulation. PLoS One. 13(8):e0201461. doi: 10.1371/journal.pone.0201461.
2019-10-25 13:52