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Bachelor's Degree in Engenharia Química e Bioquímica

Genetic Engineering (Option)

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Publication in the Diário da República: Despacho nº 10764/2011 - 30/08/2011

5.5 ECTS; 3º Ano, 1º Semestre, 30,0 T + 30,0 P

Lecturer

Prerequisites
Prior knowledge of biochemistry and cellular biology.

Objectives
Students must acquire knowledge in the area of genetic engineering, through the learning of the fundamental concepts of
molecular biology, genetics, and the applications of recombinant DNA technology. They should gain expertise in the use of relevant molecular techniques.

Program
DNA structure, replication, restriction, repair and recombination. Transcription. Genetic code and translation. Protein synthesis. Regulation of genetic expression. Recombinant DNA technology. Restriction enzymes and cloning vectors. Instability of r-plasmids. PCR, Southern Blot, Foot-printing,Northern Blot, basis and applications. Sequencing of DNA fragments. Genomic banks. Bioinformatics.

Evaluation Methodology
Final written test (60%), presentation and discussion of a practical assignment (15%)and laboratory reports (25%).

Bibliography
- Videira, A. (2001). Engenharia Genética ? Princípios e Aplicações (Princípios básicos - Cap I a VIII),. Lisboa: Lidel-Edições Técnicas
- Mota, M. e Lima, N. (2003). Biotecnologia ? Fundamentos e Aplicações (Genética aplicada- Cap VI e VII). Lisboa: Lidel-Edições Técnicas
- Rehm, H. (1993). Biotechnology ? Genetic Fundamentals and Genetic Engineering. (Vol. 2). New York: VCH Publishers INC
- Mateus, D. (0). Sebenta de Engenharia Genética. Acedido em 1 de setembro de 2018 em www.e-learning.ipt.pt

Teaching Method
Theoretical lectures, tutorials, laboratory classes, case study.

Software used in class

 

 

 


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