Daniele Guardavaccaro

DG1,  February 3, 2023
Position
Full Professor
Academic sector
BIOS-08/A - Molecular Biology
Research sector (ERC-2024)
LS4_12 - Cancer

LS3_1 - Cell cycle, cell division and growth

LS1_9 - Molecular mechanisms of signalling processes

Research sector (ERC)
LS1_11 - Biochemistry and molecular mechanisms of signal transduction

LS4_6 - Cancer and its biological basis

LS3_3 - Cell cycle and division

Office
Ca' Vignal 1,  Floor 2,  Room 2.26
Telephone
+39 045 802 7903
E-mail
daniele|guardavaccaro*univr|it <== Replace | with . and * with @ to have the right email address.
Personal web page
https://sites.google.com/view/guardavaccaro-lab/home

Office Hours

Tuesday, Hours 10:00 AM - 12:00 PM,  

Curriculum

Research in our laboratory focuses on studying the molecular mechanisms through which the ubiquitin system controls cell growth and proliferation and understanding how deregulation of this network contributes to human diseases. To that end, we employ an interdisciplinary approach that includes molecular cell biology, biochemistry and proteomics.

 

Modules

Modules running in the period selected: 22.
Click on the module to see the timetable and course details.

Course Name Total credits Online Teacher credits Modules offered by this teacher
Master's degree in Molecular and Medical Biotechnology Cell signaling in health and disease (2024/2025)   6  eLearning [2° turno] (Laboratorio)
(Teoria)
Bachelor's degree in Biotechnology Molecular Biology (2024/2025)   9   
PhD in Molecular, Industrial and Environmental Biotechnologies In vitro cell cultivation: from health to food. Part 1: Introduction to the Advanced Aspects of the Proposed Topic (2024/2025)   1  eLearning 0.5 
Master's degree in Molecular and Medical Biotechnology Cell signaling in health and disease (2023/2024)   6  eLearning [2° turno] (Laboratorio)
(Teoria)
Bachelor's degree in Biotechnology Molecular Biology (2023/2024)   9  eLearning
Master's degree in Molecular and Medical Biotechnology Cell signaling in health and disease (2022/2023)   6  eLearning (Teoria)
[2° turno] (Laboratorio)
PhD in Biotechnology Lezioni Dottorandi (2022/2023)   50  eLearning
Bachelor's degree in Biotechnology Molecular Biology (2022/2023)   9  eLearning
Master's degree in Molecular and Medical Biotechnology Cell signaling in health and disease (2021/2022)   6  eLearning [2° turno] (Laboratorio)
(Teoria)
Bachelor's degree in Biotechnology Molecular Biology (2021/2022)   9  eLearning
Master's degree in Molecular and Medical Biotechnology Cell signaling in health and disease (2020/2021)   6    [2° turno] (laboratorio)
(teoria)
Bachelor's degree in Biotechnology Molecular Biology (2020/2021)   9  eLearning
Bachelor's degree in Biotechnology Molecular biology (2019/2020)   12  eLearning [1° turno] (laboratorio)
[2° turno] (laboratorio)
(teoria)
Bachelor's degree in Biotechnology Molecular biology (2018/2019)   12    [laboratorio 1° turno] (laboratorio)
(teoria)

Di seguito sono elencati gli eventi e gli insegnamenti di Terza Missione collegati al docente:

  • Eventi di Terza Missione: eventi di Public Engagement e Formazione Continua.
  • Insegnamenti di Terza Missione: insegnamenti che fanno parte di Corsi di Studio come Corsi di formazione continua, Corsi di perfezionamento e aggiornamento professionale, Corsi di perfezionamento, Master e Scuole di specializzazione.

Research groups

Molecular biology of the cell
Study of the molecular mechanisms controlling fundamental cellular processes through an interdisciplinary approach that includes cell biology, biochemistry and proteomics.
Research interests
Topic Description Research area
Molecular biology of the cell Molecular mechanisms of cellular processes Structural , functional and expression proteomics
Biochemistry & Molecular Biology
Molecular biology of the cell Molecular mechanisms of cellular processes Biochimica e Biologia Molecolare
Biochemistry & Molecular Biology
Molecular mechanisms of signalling processes Molecular mechanisms of signalling processes Biochimica e Biologia Molecolare
Molecular mechanisms of signalling processes
Projects
Title Starting date
Exploiting the Ubiquitin System to Target the "Undruggable" Cancer Proteome 1/1/24
Exploring the molecular mechanisms underlying the homeostasis of the intestinal epithelium 11/30/23
Decipher how ubiquitylation shapes membrane and membraneless organelles to promote neuronal homeostasis 9/28/23
Molecular mechanisms underlying Joubert syndrome 4/1/23
Strategia innovativa per bloccare infezioni da coronavirus mediante specifica degradazione di proteine virali 2/1/22
Role of the Ubiquitin System in Adult Stem Cells 2/15/20




Organisation

Department facilities

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