Master

TP Genetic engineering

  • Cours (CM) -
  • Cours intégrés (CI) -
  • Travaux dirigés (TD) -
  • Travaux pratiques (TP) 35h
  • Travail étudiant (TE) -

Langue de l'enseignement : Anglais

Description du contenu de l'enseignement

Objectives in terms of knowledge (course content) :
  1. Preparation of materials
  • Agar plates w/ antibiotics
  • Agarose gels
  • Competent cells
  1. Experimentation
  • Miniprep/Midiprep
  • Cloning of GFP into pUC19 (digestion, PCR, gel excision, ligation, transformation, colony picking)
  • Cloning of sgRNA into PX459 (digestion, annealing oligos, ligation, transformation, colony picking)
  • Verification of cloning by restriction digest
  • Colony PCR
  • RNA extraction
  • Reverse transcription
  • qPCR
  1. Analysis
  • Primer selection
  • Enzyme selection
  • Clonings
  • qPCR results

 

Compétences à acquérir

Objectives in terms of skills:
  • Understanding the protocols used in genetic engineering
  • Acquiring the theoretical bases of cloning
  • Acquiring a good practice in genetic engineering
  • Being able to analyze and discuss experimental results
  • Writting of a lab book
  • Cleaning of the room and machines used

Bibliographie, lectures recommandées

Protocols and documents necessary to perform the experiments are given before the practical and all documents are available on Moodle.
 

Contact

École supérieure de biotechnologie de Strasbourg (ESBS)

300, boulevard Sébastien Brant - CS 10413
67412 ILLKIRCH-GRAFFENSTADEN
0368854680

Formulaire de contact

Responsable

Anne-Laure Duchemin


MASTER - Biotechnologies

Établissement associé de l'Université de Strasbourg
Fondation Université de Strasbourg
Investissements d'Avenir
Ligue européenne des universités de recherche (LERU)
EUCOR, Le Campus européen
CNRS
Inserm Grand Est
HRS4R