Fatema Zahra Rashid
Guest Researcher
- Name
- Dr. F.Z.M. Rashid
- Telephone
- +31 71 527 2727
- f.z.m.rashid@lic.leidenuniv.nl
- ORCID iD
- 0000-0003-2023-9046
Guest Researcher
- Science
- Leiden Institute of Chemistry
- LIC/Chemical Biology
- LIC/CB/Macromolecular Biochemistry
- Rashid F.Z.M. & Dame R.T. (2023), Three‐dimensional chromosome re‐modelling: the integral mechanism of transcription regulation in bacteria, Molecular Microbiology 120(1): 60-70.
- Rashid F.Z.M., Mahlandt E., Vaart M. van der, Boer D.E.C., Valera Alvarez M., Henneman B., Brocken D.J.W., Voskamp P., Blok A.J., Shimizu T.S., Meijer A.H., Luijsterburg M.S., Goedhart J., Cremazy F.G.E. & Dame R.T. (2022), HI-NESS: a family of genetically encoded DNA labels based on a bacterial nucleoid-associated protein, Nucleic Acids Research 50(2): e10.
- Rashid F.M.Z., Detmar L. & Dame R.T. (2022), Chromosome conformation capture in bacteria and archaea. In: Peeters E. & Bervoets I. (Eds.), Prokaryotic gene regulation. Methods in Molecular Biology no. 2516. New York: Humana Press. 1-28.
- Rashid F.Z.M. (22 June 2021), The environmentally-regulated interplay between local three-dimensional chromatin architecture and gene expression (Dissertatie. Leiden Institute of Chemistry (LIC), Faculty of Science, Leiden University). Supervisor(s): Dame R.T. & Ubbink M.
- Gilbert B.R., Thornburg Z.R., Lam V., Rashid F.-Z.M., Glass J.I., Villa E., Dame R.T. & Luthey-Schulten Z. (2021), Generating chromosome geometries in a minimal cell from cryo-electron tomograms and chromosome conformation capture maps, Frontiers in Molecular Biosciences 8: 644133.
- Rashid F.Z.M., Mahlandt E., Vaart M van der, Boer D.E.C., Varela Alvarez M., Henneman B., Brocken D.J.W., Voskamp P., Blok A.J., Shimizu T.S., Meijer A.H., Luijsterburg M.S., Goedhart J., Crémazy F.G.E. & Dame R.T. (2021), HI-NESS: a family of genetically encoded DNA labels based on a bacterial nucleoid-associated protein, Nucleic Acids Research 50(2): e10.
- Dame R.T., Rashid F.Z.M. & Grainger D.C. (2019), Chromosome organization in bacteria: mechanistic insights into genome structure and function, Nature Reviews Genetics 21: 227-242.
- Crémazy F.G.E., Rashid F.Z.M., Haycocks J.R., Lamberte L.E., Grainger D.C. & Dame R.T. (2018), Determination of the 3D genome organization of bacteria using Hi-C. In: Dame R.T. (Ed.), Bacterial Chromatin: Methods and Protocols. Methods in Molecular Biology no. 1837. New York, U.S.A.: Humana Press. 3-18.