Teaching structural bioinformatics at the undergraduate level

Understanding the basic principles of structural biology is becoming a major subject of study in most undergraduate level programs in biology. In the genomic and proteomic age, it is becoming indispensable for biology students to master concepts related to the sequence and structure of proteins in o...

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Published in	Biochemistry and molecular biology education Vol. 31; no. 6; pp. 386 - 391
Main Authors	Centeno, Nuria B., Villà‐Freixa, Jordi, Oliva, Baldomero
Format	Journal Article
Language	English
Published	USA John Wiley & Sons Inc 01.11.2003 John Wiley & Sons, Inc
Subjects	Biology College Science computer simulations Computer Software Computer Uses in Education Genetics homology modeling Information Technology Molecular Biology Molecular Structure Science Instruction Science Process Skills Scientific Concepts Structural Analysis (Science) Structural biology Teaching Methods
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Abstract	Understanding the basic principles of structural biology is becoming a major subject of study in most undergraduate level programs in biology. In the genomic and proteomic age, it is becoming indispensable for biology students to master concepts related to the sequence and structure of proteins in order to develop skills that may be useful in a wide range of applications. Within this context, this article shows a scheme for teaching structural biology based on hands‐on computer approaches, including computational genomics, and structural bioinformatics tools. The students learn to use most of the leading computer programs available for the complete path that goes from sequence to structure and eventually function. During the course, they are taught to build models of proteins based on sequence and structure information. The students are also provided with a critical point of view on automatic procedures and learn to discern between likely and unlikely structures of their final models.
AbstractList	Understanding the basic principles of structural biology is becoming a major subject of study in most undergraduate level programs in biology. In the genomic and proteomic age, it is becoming indispensable for biology students to master concepts related to the sequence and structure of proteins in order to develop skills that may be useful in a wide range of applications. Within this context, this article shows a scheme for teaching structural biology based on hands‐on computer approaches, including computational genomics, and structural bioinformatics tools. The students learn to use most of the leading computer programs available for the complete path that goes from sequence to structure and eventually function. During the course, they are taught to build models of proteins based on sequence and structure information. The students are also provided with a critical point of view on automatic procedures and learn to discern between likely and unlikely structures of their final models. Understanding the basic principles of structural biology is becoming a major subject of study in most undergraduate level programs in biology. In the genomic and proteomic age, it is becoming indispensable for biology students to master concepts related to the sequence and structure of proteins in order to develop skills that may be useful in a wide range of applications. Within this context, this article shows a scheme for teaching structural biology based on hands-on computer approaches, including computational genomics, and structural bioinformatics tools. The students learn to use most of the leading computer programs available for the complete path that goes from sequence to structure and eventually function. During the course, they are taught to build models of proteins based on sequence and structure information. The students are also provided with a critical point of view on automatic procedures and learn to discern between likely and unlikely structures of their final models. (Contains 1 table, 2 figures and 1 footnote.)
Audience	Higher Education
Author	Villà‐Freixa, Jordi Centeno, Nuria B. Oliva, Baldomero
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Title	Teaching structural bioinformatics at the undergraduate level
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