Choisissez votre région

Sélectionnez la région qui correspond le mieux à votre emplacement ou à vos préférences.

Choisissez la langue du site

Ce paramètre contrôle la langue de l'interface utilisateur, y compris les boutons, les menus et tout le texte du site. Sélectionnez votre langue préférée pour une meilleure expérience de navigation.

Choisissez les langues des offres d'emploi

Sélectionnez les langues des offres d'emploi que vous souhaitez voir. Ce paramètre détermine quelles annonces d'emploi vous seront affichées.

Postdoctoral fellowship in engineering hyper-recombinogenic streptomyces strains for biosynthetic pathway diversification and discovery of novel bioactive molecules
Université de Lorraine

Postdoctoral fellowship in engineering hyper-recombinogenic streptomyces strains for biosynthetic pathway diversification and discovery of novel bioactive molecules

2026-08-30 (Europe/Paris)
Enregistrer le travail

DESCRIPTION

Engineering Hyper-Recombinogenic Streptomyces Strains for Biosynthetic Pathway Diversification and Discovery of Novel Bioactive Molecules

Project: DIAMS (Diversification of the Specialized Metabolite Synthesis Arsenal in Streptomyces via Recombination Modulation)

Project Background

The discovery of new bioactive molecules remains a major challenge for addressing emerging needs in human health, biotechnology, and sustainable industrial processes. Members of the genus Streptomyces are among the most prolific producers of specialized metabolites, including antibiotics, anticancer agents, immunosuppressants, and industrially relevant enzymes.

Recent genomic studies have revealed that Streptomyces genomes harbor up to 40 biosynthetic gene clusters (BGCs), many of which remain cryptic or poorly characterized. In parallel, recent work from our laboratory demonstrated that conjugation-mediated large-scale chromosomal transfer can generate extensive genomic mosaics and hybrid BGCs, providing a natural mechanism for metabolic diversification.

We have also identified the DNA repair endonuclease NucS, which generates DNA double-strand breaks (DSBs) and plays a key role in genome dynamics and recombination. The DIAMS project aims to exploit NucS-mediated recombination to create hyper-recombinogenic strains capable of accelerating the evolution of biosynthetic pathways and generating novel bioactive compounds.

Research Objectives

The successful candidate will contribute to the development and characterization of engineered Streptomyces strains with enhanced recombination capacity.

The main objectives include:

  • Investigating the molecular mechanisms involved in NucS-dependent DNA double-strand break repair. 
  • Identifying cellular factors interacting with NucS and determining their role in recombination control during horizontal gene transfer
  • Constructing and characterizing hyper-recombinogenic chassis strains. 
  • Generating recombinant strains through conjugation between environmental Streptomyces isolates. 
  • Identifying hybrid biosynthetic gene clusters through genome sequencing. 
  • Evaluating the metabolic consequences of BGC hybridization using non-targeted metabolomics. 
  • Contributing to the discovery of novel specialized metabolites with potential biotechnological applications.

Research Activities

Microbial Genetics and Molecular Biology

  • Genetic manipulation of Streptomyces strains. 
  • Construction of mutants and engineered strains. 
  • Conjugation experiments and recombinant strain generation. 
  • Analysis of DNA repair and recombination pathways. 
  • Standard molecular biology techniques. 

Genomics

  • Genomic DNA preparation. 
  • Whole-genome sequencing (Illumina and/or Oxford Nanopore technologies). 
  • Analysis of chromosomal recombination events. 
  • Identification and annotation of biosynthetic gene clusters using antiSMASH and related tools. 

Metabolomics

In collaboration with the PASM (Structural Analysis and Metabolomics Platform, University of Lorraine):

  • Non-targeted metabolomics by high-resolution mass spectrometry (HRMS). 
  • Orbitrap ID-X and Q-TOF analyses. 
  • MS/MS-based molecular annotation. 
  • Molecular networking and metabolite discovery using the ASIA platform. 

Bioinformatics and Data Analysis

  • Analysis of genomic and metabolomic datasets. 
  • Statistical analysis and multivariate approaches. 
  • Comparative genomics. 

Candidate Profile

Required Qualifications

  • PhD in Microbiology, Molecular Biology, Genetics, Biotechnology, Genomics, or a related discipline. 

Desired Expertise

Experience in one or more of the following areas is highly desirable:

  • Bacterial genetics. 
  • Actinobacteria and/or Streptomyces biology. 
  • DNA repair and homologous recombination. 
  • Comparative genomics. 
  • Metabolomics and mass spectrometry. 
  • Bioinformatics and omics data analysis. 

Experience with Linux environments and programming languages such as R or Python will be considered an asset.

Personal Skills

  • Scientific curiosity and creativity. 
  • Ability to work independently. 
  • Strong analytical and problem-solving skills. 
  • Excellent communication and scientific writing abilities. 
  • Capacity to work within interdisciplinary and collaborative projects.

TERMS AND TENURE

Research Environment

The position will be based in the DynAMic Laboratory at the University of Lorraine (Nancy, France), within a highly collaborative environment combining microbial genetics, genome evolution, biotechnology, and natural product discovery. Some mobility (fully funded) within collaboratoring partners of the European GRASP project focused on DNA repair and antimicrobial resistance is expected mid-2027.

The postdoctoral researcher will interact closely with:

  • The DynAMic research group. 
  • The PASM Metabolomics Platform. 
  • The ASIA analytical platform. 
  • International collaborators involved in the European GRASP project 

The candidate will have access to state-of-the-art facilities in genomics, metabolomics, and bioinformatics. 

The target start date for the position is October 2026, with some flexibility on the exact start date.

SALARY

Grossly monthly salary starting from 2000 €, depending on experience

HOW TO APPLY

Applicants are requested to submit the following materials:
• A cover letter applying for the position
• Full CV and list of publications
• Academic transcripts (unofficial versions are fine)

Deadline for application is August 30th 2026. Applicants will be interviewed by an Ad Hoc Commission (date to follow).

Applications are only accepted through email. All document must be sent to:

Dr Claire BERTRAND

 [email protected]

JOB LOCATION

Nancy, Lorraine, France

Candidatez ici

Remplissez le formulaire ci-dessous pour postuler à ce poste.
Types de fichiers autorisés: PDF, DOC, DOCX, TXT, RTF
Types de fichiers autorisés: PDF, DOC, DOCX, TXT, RTF
Types de fichiers autorisés: PDF, DOC, DOCX, TXT, RTF

*En postulant à un emploi répertorié sur Academic Positions, vous acceptez nos conditions générales et notre politique de confidentialité.

En soumettant cette candidature, vous consentez à ce que nous conservions vos données personnelles à des fins liées au service. Nous attachons de l'importance à votre vie privée et traiterons vos informations de manière sécurisée. Si vous souhaitez que vos données soient supprimées, veuillez nous contacter directement.

Détails de l'offre

Titre
Postdoctoral fellowship in engineering hyper-recombinogenic streptomyces strains for biosynthetic pathway diversification and discovery of novel bioactive molecules
Localisation
34 Cours Léopold Nancy, France
Publié
2026-07-15
Date limite d'inscription
2026-08-30 23:59 (Europe/Paris)
2026-08-30 23:59 (CET)
Type de poste
Enregistrer le travail

Jobs from this employer

Affichage des offres d'emploi en Anglais Modifier les paramètres

No jobs found. Changing your language settings may help you find more jobs from this employer.

A propos de l'employeur

Université de Lorraine promotes innovation through the dialogue of knowledge, taking advantage of the variety and strength of its scientific fields...

Visitez la page de l'employeur

Cela pourrait vous intéresser