ID:
SCV0482
Durata (ore):
48
CFU:
6
SSD:
GENETICA
Anno:
2024
Dati Generali
Periodo di attività
Secondo Semestre (24/02/2025 - 20/06/2025)
Syllabus
Obiettivi Formativi
The purpose of the module of HUMAN GENETICS AND GENOMICS is to provide the students with a detailed knowledge of the most recent topics in Human Genetics and Genomics. Modern approaches within these fields will be described and discussed in this course, with a special attention on both the relevant potentials and pitfalls in these areas. Moreover, the module will provide a comprehensive picture of the recent field of genomic science, with a particular focus on the human genome. The issues of the course were selected focusing on both conceptual and methodological genetic approaches and emphasis is given toward the benefits and limitations of such approaches. By providing a detailed knowledge in human genetics and genomics, coupled to both the abilities needed for understanding the genetic mechanisms underlying biological processes in normal and pathological conditions in human beings and the most recent advances in human genome sciences, this course provides a fundamental knowledge in the context of biomedical sciences, thus fulfilling a key prerequisite for the Master Degree in which it is held.
At the end of the course, students are expected to:
1) Acquire a detailed knowledge of the principles of genomic sciences and both the experimental approaches and main achievements in the field of genomics, together with the most relevant topics concerning modern approaches in human genetics.
2) Acquire a comprehensive understanding of the rational bases underlying the procedures followed to fully unveil the human genome content and functions, together with the countless applications of this knowledge.
3) Carry out bibliography searches and synthesize the retrieved information in oral and/or visual representation
4) Read and understand scientific articles focused on the field of human genetics and genomics.
5) Achieve an informed judgment, adequate expertise and communication skills in relation to both the experimental approaches and the main scientific achievements in human genetics and genome sciences.
4) Develop a critic awareness and ability to analyze and discuss issues related to the course contents and the comprehension skills required to develop and maintain issues related to the acquired knowledge, by means of critical reasoning and problem-solving attitudes.
At the end of the course, students are expected to:
1) Acquire a detailed knowledge of the principles of genomic sciences and both the experimental approaches and main achievements in the field of genomics, together with the most relevant topics concerning modern approaches in human genetics.
2) Acquire a comprehensive understanding of the rational bases underlying the procedures followed to fully unveil the human genome content and functions, together with the countless applications of this knowledge.
3) Carry out bibliography searches and synthesize the retrieved information in oral and/or visual representation
4) Read and understand scientific articles focused on the field of human genetics and genomics.
5) Achieve an informed judgment, adequate expertise and communication skills in relation to both the experimental approaches and the main scientific achievements in human genetics and genome sciences.
4) Develop a critic awareness and ability to analyze and discuss issues related to the course contents and the comprehension skills required to develop and maintain issues related to the acquired knowledge, by means of critical reasoning and problem-solving attitudes.
Prerequisiti
Basic molecular genetics background as well as solid notions in biochemistry, cellular/molecular biology and recombinant DNA technology are required. A good knowledge of English language will be important to read and understand texts and publications that will be provided to the students as teaching material.
Metodi didattici
The course will be held by class lessons (6 CFUs) with the aid of Power Point slide presentation sessions, coupled to projection of didactic movies when required. Scientific articles focused on high relevance topics will be provided to the students as well and will be possibly discussed in the classroom. All teaching material used during the course will be made available to students via the e-learning platform.
Verifica Apprendimento
Learning outcomes will be assessed through an oral interview lasting approximately 20-25 minutes, during which several topics selected from the syllabus will be discussed .The final evaluation will include an overall assessment regarding: 1) the level of knowledge about different topics related to the course content and the precision and overall quality of the answers (50% of the final mark); 2) the student’s ability to properly motivate his/her statements and to sustain an adequate discussion (30% of the final mark) and 3) the communication skills (20% of the final mark). The final mark will be calculated on the above-mentioned criteria and the exam will be considered passed if the final mark will be equal or over 18/30.
Contenuti
CLASS LESSONS (6 CFUs, 48 hours)
• From Genetics to Genomics: introduction.
• Introduction to human pedigrees and inheritance patterns.
• Unusual segregation pattern: mosaicism, de novo mutations, anticipation.
• The Human Genome project: rationale, aims and planning.
• Definition of human disease genes. Positional cloning approaches.
• Introduction to human genetic maps and human polymorphic genetic markers.
• Theoretical basis of linkage analysis in humans (LOD scores).
• Autozygosity mapping approaches for rare autosomal recessive diseases identification.
• Linkage-free methods to identify human genes involved in Mendelian diseases: whole exome sequencing (WES).
• Physical maps of the human genome by somatic cell and radiation hybrids.
• Physical maps based on FISH assays.
• Human genomic DNA libraries and assembly physical maps based on recombinant clone contigs by means of either clone fingerprinting or STS-content mapping.
• Transcriptional maps of the human genome. The EST project.
• Human genome sequencing: introduction to the “clone-by-clone” and “whole genome shotgun” approaches.
• The public and private human genome projects.
• Validation of the human genome sequence assembly.
• The post-genomic era: genome annotation. The informational content of the human genome.
• Genomic paradoxes: the relashionship between DNA content, gene number and biological complexity.
• Functional genomics - 1: The GeneOntology and EnCODE projects.
• Functional genomics - 2: Forward and reverse genomics approaches.
• Molecular pathology.
• Basics of comparative genomics.
• Genomic approaches for the genetic dissection of complex diseases: Linkage disequilibrium mapping.
• The advent of SNP markers and the HapMap project.
• Genome-wide association studies (GWAS) in human populations
• The “missing heritability” issue.
• The 1000 genome project.
• Cancer genomics
• Introduction and applications of personal genomics and precision medicine.
• Genetic approaches for treating human disease.
• From Genetics to Genomics: introduction.
• Introduction to human pedigrees and inheritance patterns.
• Unusual segregation pattern: mosaicism, de novo mutations, anticipation.
• The Human Genome project: rationale, aims and planning.
• Definition of human disease genes. Positional cloning approaches.
• Introduction to human genetic maps and human polymorphic genetic markers.
• Theoretical basis of linkage analysis in humans (LOD scores).
• Autozygosity mapping approaches for rare autosomal recessive diseases identification.
• Linkage-free methods to identify human genes involved in Mendelian diseases: whole exome sequencing (WES).
• Physical maps of the human genome by somatic cell and radiation hybrids.
• Physical maps based on FISH assays.
• Human genomic DNA libraries and assembly physical maps based on recombinant clone contigs by means of either clone fingerprinting or STS-content mapping.
• Transcriptional maps of the human genome. The EST project.
• Human genome sequencing: introduction to the “clone-by-clone” and “whole genome shotgun” approaches.
• The public and private human genome projects.
• Validation of the human genome sequence assembly.
• The post-genomic era: genome annotation. The informational content of the human genome.
• Genomic paradoxes: the relashionship between DNA content, gene number and biological complexity.
• Functional genomics - 1: The GeneOntology and EnCODE projects.
• Functional genomics - 2: Forward and reverse genomics approaches.
• Molecular pathology.
• Basics of comparative genomics.
• Genomic approaches for the genetic dissection of complex diseases: Linkage disequilibrium mapping.
• The advent of SNP markers and the HapMap project.
• Genome-wide association studies (GWAS) in human populations
• The “missing heritability” issue.
• The 1000 genome project.
• Cancer genomics
• Introduction and applications of personal genomics and precision medicine.
• Genetic approaches for treating human disease.
Lingua Insegnamento
INGLESE
Altre informazioni
Professor F. Acquati is available under appointment for conversations with the students focused on topics of interest discussed during the course and/or organizing issues related to the course, either by phone or e-mail. Students are kindly required not to ask for appointments to discuss bureaucratic/administrative question unrelated to the course content, unless really urgent.
Telephone: ++39-0332-421512
Email address: francesco.acquati@uninsubria.it
Telephone: ++39-0332-421512
Email address: francesco.acquati@uninsubria.it
Corsi
Corsi
BIOMEDICAL SCIENCES
Laurea Magistrale
2 anni
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Persone
Persone
Docenti di ruolo di IIa fascia
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