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Genomic Science and RNA Biology – Vicent Pelechano group

Understanding why identical cells respond differently to the same stimulus is a key challenge in biology. Clonal cells with identical genomes can still exhibit diverse behaviors. To study this, we use advanced genomic technologies to explore gene expression differences in clonal populations, focusing on post-transcriptional RNA regulation and the interplay between RNA decay and translation. Additionally, we are developing new molecular diagnostic tools for infectious diseases.

Part of the:
Group picture of Pelechano group, outside by the water

Genomic dissection of non-genetic cellular heterogeneity

In the last decades, the bio̽»¨¾«Ñ¡ field has suffered a revolution thanks to the development of the massive parallel sequencing technologies. Now we can obtain the complete genetic information of a person and analyse how this information is being used in a few days and with a limited cost. This technology makes possible a kind of research that was unthinkable a few years back. Our group, combining experimental and computational work, aims to develop and apply novel genome-wide techniques to address fundamental biological questions with ̽»¨¾«Ñ¡ implications. We are especially interested in how subtle variations in gene expression can lead to differential cellular phenotypes in humans and microorganism.

Specifically, we investigate:

  1. Molecular bases of non-genetic cellular heterogeneity: We focus on understanding how single-cell variability, cellular plasticity and transcriptional memory contribute to the appearance of drug-tolerant cancer persister cells (i.e. those cells that, although genetically sensitive to a drug, do not respond to it). To reach that goal we combine the dissection of genetic factors controlling non-genetic heterogeneity with the development of novel genome-wide technologies to study this process.
  2. Crosstalk between ribosome dynamics and mRNA degradation. We have previously shown how the existence of widespread co-translational mRNA degradation allows to study ribosome dynamics by sequencing mRNA degradation intermediates (5P-Seq). Using that work as staring point, we to dissect the molecular crosstalk between mRNA degradation and ribosome dynamics in multiple organisms. We are characterizing how alterations in the translation process modulates mRNA stability and explore the utility of mRNA degradation signatures as reporters for cellular fitness in multiple organisms (from bacteria to cancer cells). 
  3. Novel tools for molecular diagnosis. We are using our genomics expertise to improve and develop new molecular diagnosis and clinical genomic tools. We develop sequencing-based approaches to improve cancer-patient stratification and to accelerate the diagnosis of antimicrobial resistant infections.

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Microscope Photo: Chokniti Khongchum

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Publications

Selected publications

  • Preprint: BIORXIV. 2024
    Zhang Y; Nersisyan L; Fürst E; Alexopoulos I; Huch S; Bassot C; Garre E; Sunnerhagen P; Piazza I; Pelechano V
  • Article: SCIENCE ADVANCES. 2023;9(36):eadi4997
    Tayyab M; Barrett D; van Riel G; Liu S; Reinius B; Scharfe C; Griffin P; Steinmetz LM; Javanmard M; Pelechano V
  • Article: NATURE MICROBIOLOGY. 2023;8(6):1123-1136
    Huch S; Nersisyan L; Ropat M; Barrett D; Wu M; Wang J; Valeriano VD; Vardazaryan N; Huerta-Cepas J; Wei W; Du J; Steinmetz LM; Engstrand L; Pelechano V
  • Article: NATURE COMMUNICATIONS. 2023;14(1):910
    Li B; Zeis P; Zhang Y; Alekseenko A; Fuerst E; Sanchez YP; Lin G; Tekkedil MM; Piazza I; Steinmetz LM; Pelechano V
  • Article: NAR GENOMICS AND BIOINFORMATICS. 2022;4(2):lqac048
    Alekseenko A; Wang J; Barrett D; Pelechano V
  • Article: CELL REPORTS: METHODS. 2021;1(1):100001
    Zhang Y; Pelechano V
  • Article: SCIENTIFIC REPORTS. 2021;11(1):1820
    Alekseenko A; Barrett D; Pareja-Sanchez Y; Howard RJ; Strandback E; Ampah-Korsah H; Rovsnik U; Zuniga-Veliz S; Klenov A; Malloo J; Ye S; Liu X; Reinius B; Elsasser SJ; Nyman T; Sandh G; Yin X; Pelechano V
  • Article: NAR GENOMICS AND BIOINFORMATICS. 2020;2(4):lqaa099
    Nersisyan L; Ropat M; Pelechano V
  • Article: NUCLEIC ACIDS RESEARCH. 2020;48(18):e104
    Wang J; Li B; Marques S; Steinmetz LM; Wei W; Pelechano V
  • Article: GENOME RESEARCH. 2019;29(12):1974-1984
    Wei W; Hennig BP; Wang J; Zhang Y; Piazza I; Sanchez YP; Chabbert CD; Adjalley SH; Steinmetz LM; Pelechano V
  • Article: CELL. 2015;161(6):1400-1412
    Pelechano V; Wei W; Steinmetz LM
  • Article: NATURE. 2013;497(7447):127-131
    Pelechano V; Wei W; Steinmetz LM

Staff and contact

Group leader

All members of the group

Alumni

2025

  • Santiago Bellver. Master thesis  from the .
  • Rui Qui (April). Research internship part of the .

2024

  • Dr. Marcel Tarbier. Computational Postdoc (2020-2024). Afterwards .
  • Chiara Barizza. Master thesis from the .
  • Lasse Niemeyer.  Erasmus+ student. Fresenius University of Applied Sciences (Germany).
  • Nynke van Eijk.  Erasmus+ student. University of Nijmegen (Netherlands)

2023

  • Dr. Lilit Nersisyan. Computational Postdoc (2018-2023). Afterwards Director of the Armenian Bioinformatic Institute (Armenia).
  • Dr. Mengjun Wu. Computational Postdoc (2021-2023). Afterwards Postdoc University of Aarhus (Denmark).
  • Elefterios Sinanis.  Erasmus+ student. University of Ioannina (Greece)

2022

  • Dr. Shujin Liu. Research Technician (2021-2022). Afterwards Assistant Prof. Nanjing Agricultural University.
  • Jose Ramon Barcenas-Walls. Research Assistant  (2021-2022). Afterwards PhD student at Stockholm University.
  • Dr. Sueli Marques. Senior Lab Manager (2018-2022), Life Science consultant in Portugal.
  • Cristina Benito. Erasmus+ student. University of Extremadura (Spain).
  • Ioannis Alexopoulos. Erasmus+ student. Aristotle University of Thessaloniki (Greece).
  • Anna Eva Koch. Master thesis in Molecular Medicine. University of Uppsala.
  • Josefin Joy Kenric. Summer intern from the .

2021

  • Dr. Bingnan Li. Postdoc (2016-2021). (Afterwards, at Perking Elmer in Sweden and then Beijing Tsinghua University)
  • Gijs van Riel. Research Technician. (2020-2021). (Afterwards, University of Utrecht)
  • Femke van Hout. Erasmus+ student. University of Nijmegen (Netherlands)
  • Benjamin Maier. Summer intern from the . (Afterwards, PhD student at EBI, UK)
  • Ernesto Rojas Ustariz. Master Programme in Bioentrepreneurship (̽»¨¾«Ñ¡).

2020

  • Dr. Jingwen Wang. Computational Postdoc (2017-2020). (Afterwards, Senior Bioinformatics Scientist at )
  • Fiona Roß. Research internship part of the .
  • Maria Ropat. Research Assistant in Bioinformatics. (Afterwards, Bioinformatician at  )

2019

  • David Andreu Sanz. .
  • Yuanyuan Xi. Master project for the .
  • Maria Ropat. Master project for the .
  • Laura de Lara Peña. Erasmus+ student. University of Sevilla (Spain)
  • Cristina Mérida Mena. Erasmus+ student. University of Jaen (Spain)

2018

  • Maryia Ropat. Summer research project for Master students.
  • Inka Schröter. Erasmus+ student. Technical University of Darmstadt (Germany)

2017

  • Maryia Ropat. Summer research project for bio̽»¨¾«Ñ¡ students. ̽»¨¾«Ñ¡.
  • Abel Cuevas Bermudez. Visiting PhD student. Universidad de Jaen (Spain)

2016

  • Yerma Pareja Sanchez. Erasmus+ student. University of Seville (Spain)

Contact and visit us

Our group is affiliated to the Department of Microbiology, Tumor and Cell Biology and the  in Solna, where our lab is located.

Visiting address

Tomtebodavägen 23A (Gamma5)
171 65 Solna, Sweden

Postal address

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Department of Microbiology, Tumor and Cell Biology
171 77 Stockholm

Where to find us

Latest research news

Open positions

We always welcome applications from motivated postdoctoral researcher, PhD student, or Master students.

Applicants for post-doctoral positions

Experience with genetics, molecular biology and/or bioinformatics are required.

Applicants wishing to integrate computational and experimental biology approaches are especially encouraged to apply.

Current projects focus on the understanding of the gene expression programmes underpinning phenotypic heterogeneity within clonal populations and on how to use that information to refine our knowledge of the basic process of gene expression. To reach that objective we develop and apply novel genome-wide approaches in budding yeast and human cell lines.

The successful candidate is expected to take a strong lead on his/her project and start to develop independent ideas.

For applications, please contact Vicent Pelechano by email and attach your CV and a brief motivation letter with your research interests.

Applicants for PhD positions or Master students

Students will have the opportunity to learn and help develop a variety of experimental and bioinformatic tools.

A theoretical background and / or interest in either functional genomics, transcription, or bioinformatics is beneficial. Students are expected to be highly motivated to work on challenging research projects in an international team.

For applications, please send your CV and a brief motivation letter to Vicent Pelechano.

Other opportunities

Keywords:
Cell and Molecular Biology Medical Bioinformatics and Systems Biology Medical Biotechnology (Focus on Cell Biology (incl. Stem Cell Biology), Molecular Biology, Microbiology, Biochemistry or Biopharmacy)
Content reviewer:
Vicente Pelechano Garcia
Sara Lidman
23-01-2025