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Genomics and Epigenomics of Gene Regulation

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Genomica ed Epigenomica della Regolazione Genica

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Academic year 2024/2025

Course ID
BIO0143B Pds 309-MCTB
Teacher
Valeria Poli
Degree course
[0101M22] Molecular Biotechnology
Year
1st year
Teaching period
First semester
Type
Distinctive
Credits/Recognition
5 CFU
Course disciplinary sector (SSD)
BIO/11 - molecular biology
Delivery
Formal authority
Language
English
Attendance
Obligatory
Type of examination
Written and oral
Type of learning unit
modulo
Modular course
GENOMICS AND EPIGENOMICS (BIO0143 Pds 309-MCTB)
Prerequisites

This class requires basic knowledge of molecular biology, in particular related to the epigenetic mechanisms regulating gene expression, as well as of the mechanisms of post-transcriptional regulation via RNA interference and microRNAs.
A 3 CFU basic molecular biology online course will be provided to help students aligning with the required knowledge.

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Sommario del corso

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Course objectives

This course aims at providing students with updated information on the molecular basis of epigenetic regulation of the activities of genetic material, with a focus on gene expression, through the interaction of DNA- and chromatin-binding proteins (transcription factors, readers) and enzymes that covalently modify the chromatin (writers, erasers). Concepts of spatial regulation of transcription and nuclear architecture will also be discussed, as well as the mechanisms regulating the activities of microRNAs and the role of RNA interference in gene expression regulation. The expanding field of epitranscriptomics will also be presenbted and discussed. Finally, the main known roles of non-coding RNAs will be discussed. All this knowledge will be put to use for the understanding of their most advanced biotechnological and biomedical applications, such as the development of epigenetic drugs, the use of RNA interference techniques and genome editing in the treatment of acquired or inherited diseases.

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Results of learning outcomes

Aside from knowing the topics illustrated during the lessons, at the end of the course students will be able to interconnect the knowledge gained about the different topics and to master the most recent literature on the processes studied and their alterations in pathological processes. In addition, students should be able to critically evaluate experimental approaches (in vitro and in vivo) that are the basis of the current knowledge in this field of research.

 

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Program

Epigenetics and transcription

  • Quick revision of basic concepts related to chromatin and transcription
  • Structrure:function rules in dictating Transcription Factors functions: the activation domain
  • Enhansosomes and repressosomes: new concepts
  • The histone code and its interpretation – writers/readers/erasers and beyond
  • Long and short range transcriptional repression
  • DNA methylation/demethylation (regulation, functions)
  • Epigenetic reprogramming during development, ageing and disease
  • Epigenetic alterations in disease and therapeutical options
  • Transgenerational epigenetic inheritance
  • Nuclear architecture and the 3-D genome
  • Insulators
  • Liquid-liquid phase separation and the regulation of gene expression

The RNA WORLD:

Non-coding RNAs, transcriptional and post-transcriptional control and EPITRANSCRIPTOMICS

  • Quick revision of the mechanism of RNA interference
  • microRNAs:transcriptional and post-transcriprional regulation, biological roles, alterations in disease (e.g. cancer), clinical and experimental applications
  • Not just micro: other short dsRNAs and their roles
  • Long non-coding RNAs and their multiple roles in regulating gene expression
  • Epitranscriptomics
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Course delivery

The course will consist of platform lectures including sessions of research papers critical reading. Questionnaires relevant to the lesson's topic will be regularly posted on the Moodle platform, and students' answers discussed in class. Missing questionnaires will penalize the final mark.

 

 

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Learning assessment methods

ORAL:

Critical reading of relevant scientific papers, as follows: groups of 2-3 students will choose one paper from a provided list of articles, and will present the data in class, upon specific questions by the teacher. This will include a discussion of contents, implications, experimental approach and perspectives. The score will contribute to 1/3 of the final score (10/30).

The final written test will consist in 5 open questions aiming at determining the acquired knowledge, the degree of understanding and the ability to connect different problems. The score of this part will contribute to 2/3 of the final score (20/30).

 

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Support activities

The slides and the bibliographic material will be loaded on the Moodle platform.

Personal consulting/tutoring available previous email appointment.

 

Suggested readings and bibliography

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No book will contain all information related to the contents of the lessons, since many are derived from recent literature, but the following book can provide basic information about most subjects.

Watson - MOLECULAR BIOLOGY OF THE GENE - ZANICHELLI

Scientific papers provided in class.

 



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    Enrollment opening date
    09/09/2023 at 14:00
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