Dr. Reihaneh Mostolizadeh

Postdoc and Lecturer for Systems Biology and Mathematics

Office

Department for Computer Science
Institute for Biomedical Informatics
Sand 14 . Office C106
 +49 7071 29-70488
reihaneh.mostolizadehspam prevention@uni-tuebingen.de

 
Social Media
ORCID Profile

Curriculum Vitae

Since 2018
Postdoc and Lecturer

in the research group for computer-based systems biology of infections and antimicrobial-resistant pathogens led by Junior prof. Dr. Andreas Dräger at the Institute of Computer Science at the University of Tübingen

2017
Lecturer

in the Chair of Applied Bioinformatics at the Centre for Bioinformatics (ZBIT) at the University of Tübingen, headed by Prof. Dr.-Ing. Oliver Kohlbacher - Teach@Tuebingen-Scholarship

2011-2017
Doctoral Candidate in Applied Mathematics (Differential Equations)

in the group of Prof. Dr. Zahra Afsharnezhad for Applied Mathematics and Differential Equations in the Faculty of Mathematics at the Ferdowsi University of Mashhad in Iran -

Doctoral thesis "Hopf bifurcation, chaos and the effect of drug for continuous and discontinuous systems of HTLV-I and Leukemia"

2015
Visiting Ph.D student in the university of Heidelberg

in the group of Applied Analysis and Modelling in Biosciences at the Institute of Applied Mathematics - Interdisciplinary Center for Scientific Computing (IWR) and BIOQUANT Center at the University of Heidelberg in Germany headed by Prof. dr. Anna Marciniak-Czochra

2006-2011
Invited lecturer

at three different Iranian universities. Topics: Differential Equations, Numerical Analysis I and II, Calculus I and II, Fundamentals of Mathematics

2004-2006
Master of Applied Mathematics (Numerical Analysis and System control)

in the Faculty of Science at the Institute of Mathematics at the Yazd University in Iran -

Master's thesis "Sensitivity of the system eigenvalues and their model reduction"

Research projects

Program for the Promotion of Junior Researchers 2020

Start-up financing for innovative projects with good prospects of attaining external third-party funding, particularly those which involve assisting qualified junior researchers to set up independent research projects. Division II – Research

Funded by the Federal Ministry of Education and Research (BMBF, Germany) and the Baden-Württemberg Ministry of Science as part of the Excellence Strategy of the German Federal and State Governments.

Principal investigator: Dr. Reinhaneh Mostolizadeh

Athene Programme of the University of Tübingen

Funded by the Equal Opportunities Office at University of Tübingen to particularly support young female researchers in the post-doc phase.

Principal investigator: Dr. Reinhaneh Mostolizadeh

Computational Systems Biology of Infections and Antimicrobial-Resistant Pathogens

Project TTU 08.709 is funded by the German Center for Infection Research (DZIF, doi:10.13039/100009139) within the Deutsche Zentren der Gesundheitsforschung (BMBF-DZG, German Centers for Health Research of the Federal Ministery of Education and Research), grant № 8020708703. The research group is part of the network for research on Healthcare-Associated and Antibiotic Resistant Bacterial Infections (HAARBI). Funding period: July 2022 to January 2025.

Publications

  1. MCC: Automated Mass and Charge Curation at Genome-Scale Applied to C. tuberculostearicum
    Reihaneh Mostolizadeh, Finn Mier, and Andreas Dräger
    BioRxiv, November, 22nd, 2024
    [ Details | DOI | PDF | PubMed | BibTeX ]
  2. FROG Analysis Ensures the Reproducibility of Genome Scale Metabolic Models
    Karthik Raman, Miroslav Kratochvíl, Brett G. Olivier, Matthias König, Pratyay Sengupta, Dinesh Kumar Kuppa Baskaran, Tung V. N. Nguyen, Daniel Lobo, St Elmo Wilken, Krishna Kumar Tiwari, Aswathy K. Raghu, Indumathi Palanikumar, Lavanya Raajaraam, Maziya Ibrahim, Sanjaay Balakrishnan, Shreyanash Umale, Frank T. Bergmann, Tanisha Malpani, Venkata P. Satagopam, Reinhard Schneider, Moritz E. Beber, Sarah M. Keating, Mihail Anton, Alina Renz, Meiyappan Lakshmanan, Dong-Yup Lee, Lokanand Koduru, Reihaneh Mostolizadeh, Oscar Dias, Emanuel Cunha, Alexandre Oliveira, Yi Qing Lee, Karsten Zengler, Rodrigo Santibáñez-Palominos, Manish Kumar, Matteo Barberis, Bhanwar Lal Puniya, Tomáš Helikar, Hoang V. Dinh, Patrick F. Suthers, Costas D. Maranas, Isabella Casini, Seyed Babak Loghmani, Nadine Veith, Nantia Leonidou, Feiran Li, Yu Chen, Jens Nielsen, GaRyoung Lee, Sang Mi Lee, Gi Bae Kim, Pedro T. Monteiro, Miguel C. Teixeira, Hyun Uk Kim, Sang Yup Lee, Ulf W. Liebal, Lars M. Blank, Christian Lieven, Chaimaa Tarzi, Claudio Angione, Manga Enuh Blaise, Çelık Pinar Aytar, Mikhail Kulyashov, llya Akberdin, Dohyeon Kim, Sung Ho Yoon, Zhaohui Xu, Jyotshana Gautam, William T. Scott, Peter J. Schaap, Jasper J. Koehorst, Cristal Zuñiga, Gabriel Canto-Encalada, Sara Benito-Vaquerizo, Ivette Parera Olm, Maria Suarez-Diez, Qianquian Yuan, Hongwu Ma, Mohammad Mazharul Islam, Jason A. Papin, Francisco Zorrilla, Kiran Raosaheb Patil, Arianna Basile, Juan Nogales, Granado San León, Freddy Castillo-Alfonso, Roberto Olivares-Hernández, Gabriel Vigueras-Ramírez, Henning Hermjakob, Andreas Dräger, and Rahuman S. Malik-Sheriff
    BioRxiv, September, 26th, 2024
    [ Details | DOI | PDF | PubMed | BibTeX ]
  3. New workflow predicts drug targets against SARS-CoV-2 via metabolic changes in infected cells
    Nantia LeonidouAlina RenzReihaneh Mostolizadeh, and Andreas Dräger
    PLOS Computational Biology, 19(3): e1010903. March 23rd, 2023
    [ Details | DOIPreprint | PDF | PubMedBibTeX ]
  4. Hierarchical modelling of microbial communities
    Manuel Glöckler, Andreas Dräger, and Reihaneh Mostolizadeh.
    Bioinformatics, January 17th, 2023.
    [ Details | DOI | PDF | PubMed | BibTeX ]
  5. Towards the human nasal microbiome: simulating D. pigrum and S. aureus
    Reihaneh MostolizadehManuel Glöckler, and Andreas Dräger
    Frontiers in Cellular and Infection Microbiology 2022, August 15th, 2022
    [ DetailsDOI | PDF | PubMedBibTeX ]
  6. NCMW: A Python Package to Analyze Metabolic Interactions in the Nasal Microbiome
    Manuel GlöcklerAndreas Dräger, and Reihaneh Mostolizadeh
    Frontiers in Bioinformatics, Februar 25th 2022.
    [ DetailsDOI | PDF | PubMedBibTeX​​​​​​ ]
  7. A Computational Model of Bacterial Population Dynamics in Gastrointestinal Yersinia enterocolitica Infections in Mice
    Janina K. Geißert, Erwin Bohn, Reihaneh MostolizadehAndreas Dräger, Ingo B. Autenrieth, Sina Beier, Oliver Deusch, Alina Renz, Martin Eichner, and Monika S. Schütz.
    Biology, 11(2), 297; February 12th 2022.
    Details | DOI | Preprint | PDF | PubMedBibTeX ]
  8. Computational Model Informs Effective Control Interventions against Y. enterocolitica Co-Infection
    Reihaneh Mostolizadeh and Andreas Dräger.
    Biology, 9(12), Special Issue Computational Biology, November 30th 2020.
    [ Details | DOI | Preprint | PubMedPDF | BibTeX ]
  9. Clinical Applications of Metabolic Models in SBML Format
    Alina RenzReihaneh Mostolizadeh, and Andreas Dräger.
    Reference Module in Biomedical Sciences, Elsevier, Januar 30th 2020
    Details | DOI | PDF | PubMed | BibTeX ]
  10. Insights into Dynamic Network States using Metabolomics Data
    Reihaneh Mostolizadeh​​​​​Andreas Dräger and Neema Jamshidi.
    In: Angelo D’Alessandro (eds) High-Throughput Metabolomics. Methods in Molecular Biology, volume 1978, Chapter, pages 243-258. Humana, New York, NY, May 2019.
    [ DetailsDOI | link | PubMed | BibTeX ]
  11. Hopf bifurcation in a model for adult T‐cell leukemia
    Reihaneh Mostolizadeh and ​​​Zahra Afsharnezhad.
    Journal of Mathematical Methods in the Applied Sciences, July 26 2018.
    DOI | PDF ]
  12. Mathematical MODEL OF CHIMERIC ANTI-GENE RECEPTOR(CAR)T CELL THERAPY WITH PRESENCE OF CYTOKINE
    Reihaneh Mostolizadeh, ​​​Zahra Afsharnezhad, and Anna Marciniak-Czochra.
    Journal of Numerical Algebra, Control and Optimization (NACO), March 2018.
    DOI | Link ]
  13. Hopf bifurcation for a discontinuous HTLV-1 model
    Elham Shamsara, Zahra Afsharnezhad, and Reihaneh Mostolizadeh.
    Filomat, 2017.
    DOI | PDF ]

  14. Reihaneh Mostolizadeh, Elham Shamsara, and Zahra Afsharnezhad.
    Ann. Tiberiu Popoviciu Semin. Funct. Equ. Approx. Convexity - Series B: Mathematical Interdisciplinary Research​​​​​​, 2017.
    Link | PDF ]
  15. Transcritical bifurcation of an immunosuppressive infection model
    Elham Shamsara, Reihaneh Mostolizadeh, and Zahra Afsharnezhad.
    Iranian Journal of Numerical Analysis and Optimization, September 21 2016.
    DOI | Link ]
  16. Stability analysis of carbon nanotubes based on a novel beam model and its comparison with sanders shell model and molecular dynamics simulations
    R Hosseini-Ara, HR Mirdamadi, H Khademyzadeh, and Reihaneh Mostolizadeh.
    Journal of the Brazilian Society of Mechanical Sciences and Engineering, June 2012.
    DOI | Link | PDF ]

Teaching

Winter Term 2020/2021

The courses listed below will be offered in the winter term 2020/21. For detailed course information, please follow the links to the Alma portal and the ILIAS platform.

Systems Biology I (BIOINF3371)

Lecture with Excercises

Due to the COVID-19 pandemic, this course will take place virtually every Tuesday at 2 p.m. via ZOOM link placed in the ILIAs page until further notice. The weekly tutorial session will take place every Thursday at 4 p.m. via ZOOM link too. If you encounter any difficulties accessing the information, please contact either Dr. Reihaneh Mostolizadeh or Dr. Bashir S. Mienda.
This year, “Systems biology I” is conducted in a flipped classroom. Students watch lectures and pre-recorded videos while engaging in concepts, collaborating in weekly discussions with lecturers’ guidance of the lecture hour’s content. Emphasis will be on quintessential approaches and answering questions. In the tutorial, the students work in groups to solve homework problems and complete a term project.

Lecturers: Dr. Reihaneh Mostolizadeh and Dr. Bashir S. Mienda

Winter Term 2019/2020

Proseminar: Systems Biology (BIOINF3372)

Winter Term 2018/2019

Sommer semester 2018

Systems Biology I (BIOINF3371)

Winter Term 2017/2018

Systems Biology II (BIOINF4394)

Summer Term 2017