Giorgio.Camilloni@uniroma1.it's picture
A partire dal 4 Ottobre 2021, ore 11:00 inizierà il corso di Controllo epigenetico dell'espressione genica (Laurea magistrale in Genetica e Biologia Molecolare)
 
 
Sulla pagina e-learning del corso (https://elearning.uniroma1.it/mod/reservation/view.php?id=410992) saranno riportate tutte le informazioni più dettagliate relative alla didattica in aula e a distanza. Gli studenti che intendono seguire sono pregati di iscriversi al corso con il modulo predisposto.
 
Lezioni CEEG
Lunedì, 4 ottobre · 11:00 – 13:00
Informazioni per partecipare di Google Meet
Link alla videochiamata: https://meet.google.com/bkn-acey-dnc
 

giovedì ore 11-12

Nato a Roma il 24.4.1955; 1979 Laureato presso l Università di Roma La Sapienza in Scienze Biologiche sotto la supervisione del prof. F. Amaldi; 1980 presso l European Molecular Biology laboratory di Heidelberg (Germania) dove lavora in collaborazione con il prof. G. Cesareni nel gruppo della dr. Noreen Murray su un progetto di sviluppo di nuovi vettori di clonaggio: i fasmidi. 1981-1983, presso la Polifarma S.p.A., come ricercatore, su progetti di biochimica farmaceutica; 1984-1992 presso il Centro di Studio per gli acidi nucleici del CNR, prima come borsista e poi come tecnologo occupandosi prevalentemente di strutture e topologia del DNA. Dal 1992 ad oggi presso l Università di Roma la Sapienza come professore Associato di Biologia Molecolare; attualmente si occupa di DNA topoisomerasi e struttura della cromatina nei processi di regolazione genica e invecchiamento. Dal 2003 è Associato all'Istituto di Biologia e Patologia Molecolari (IBPM) del CNR.

Born in Rome (Italy), April 24th, 1955; 1979: Graduation in Biological Science at the University of Rome under the supervision of prof. F. Amaldi; 1980: At European Molecular Biology laboratory in Heidelberg (Germany) working in collaboration with G. Cesareni in the Noreen Murray group on a project for the development of new cloning vectors: the phasmids. 1981-83: Researcher at Polifarma S.p.A. in Biochemical Pharmaceutics. During this period he was engaged in projects on vasoactive peptides, antitumoral and anticoagulant agents. 1984-92: Researcher at Centro Acidi Nucleici CNR in Molecular Biology working on DNA structure and topology. 1992-today: Associate Professor in Molecular Biology at the University of Rome, La Sapienza . In this period he was engaged in the investigation of DNA topoisomerases and chromatin structure in gene regulation and aging. Since 2003 is Associate researcher at Istituto di Biologia e Patologia Molecolari (IBPM) del CNR.

PUBBLICAZIONI RECENTI (ultimi 5 anni)

Di Felice F, Camilloni G. Why Should DNA Topoisomerase I Have a Scaffold
Activity? Biology (Basel). 2021 Mar 3;10(3):190. doi: 10.3390/biology10030190.
PMID: 33802574; PMCID: PMC7999054.

Egidi A, Di Felice F, Camilloni G. Saccharomyces cerevisiae rDNA as super-
hub: the region where replication, transcription and recombination meet. Cell
Mol Life Sci. 2020 Dec;77(23):4787-4798. doi: 10.1007/s00018-020-03562-3. Epub
2020 May 31. PMID: 32476055.

Durano D, Di Felice F, Caldarelli F, Lukacs A, D'Alfonso A, Saliola M,
Sciubba F, Miccheli A, Zambelli F, Pavesi G, Bianchi ME, Camilloni G. Histone
acetylation landscape in S. cerevisiae nhp6ab mutants reflects altered glucose
metabolism. Biochim Biophys Acta Gen Subj. 2020 Jan;1864(1):129454. doi:
10.1016/j.bbagen.2019.129454. Epub 2019 Oct 30. PMID: 31676292.

DI Felice F, Micheli G, Camilloni G. Restriction enzymes and their use in
molecular biology: An overview. J Biosci. 2019 Jun;44(2):38. PMID: 31180051.

Di Felice F, Egidi A, D'Alfonso A, Camilloni G. Fob1p recruits DNA
topoisomerase I to ribosomal genes locus and contributes to its transcriptional
silencing maintenance. Int J Biochem Cell Biol. 2019 May;110:143-148. doi:
10.1016/j.biocel.2019.03.006. Epub 2019 Mar 14. PMID: 30880168.

Durano D, Lukacs A, Di Felice F, Micheli G, Camilloni G. A novel role for
Nhp6 proteins in histone gene regulation in Saccharomyces cerevisiae. Int J
Biochem Cell Biol. 2017 Feb;83:76-83. doi: 10.1016/j.biocel.2016.12.012. Epub
2016 Dec 23. PMID: 28025045.

D'Alfonso A, Di Felice F, Carlini V, Wright CM, Hertz MI, Bjornsti MA,
Camilloni G. Molecular Mechanism of DNA Topoisomerase I-Dependent rDNA
Silencing: Sir2p Recruitment at Ribosomal Genes. J Mol Biol. 2016 Dec 4;428(24
Pt B):4905-4916. doi: 10.1016/j.jmb.2016.10.032. Epub 2016 Nov 5. PMID:
27825925.

Capitano F, Gargiuli C, Angerilli A, Maccaroni K, Pelliccia F, Mele A,
Camilloni G. RNA polymerase I transcription is modulated by spatial learning in
different brain regions. J Neurochem. 2016 Feb;136(4):706-716. doi:
10.1111/jnc.13504. PMID: 26708837.

Course Code Year Course - Attendance
epigenetics of gene expression 1044464 2021/2022 Genetics and Molecular Biology
MOLECULAR BIOLOGY 1011772 2021/2022 Biology
MOLECULAR BIOLOGY 1011772 2020/2021 Biology
epigenetics of gene expression 1044464 2020/2021 Genetics and Molecular Biology
MOLECULAR BIOLOGY 1011772 2019/2020 Biology
epigenetics of gene expression 1044464 2019/2020 Genetics and Molecular Biology
MOLECULAR BIOLOGY 1011772 2018/2019 Biology
epigenetics of gene expression 1044464 2018/2019 Genetics and Molecular Biology
MOLECULAR BIOLOGY 1011772 2017/2018 Biology
epigenetics of gene expression 1044464 2017/2018 Genetics and Molecular Biology
epigenetics of gene expression 1044464 2016/2017 Genetics and Molecular Biology
MOLECULAR BIOLOGY 1011772 2016/2017 Biology
Title Journal Year
Why should DNA topoisomerase i have a scaffold activity? BIOLOGY 2021
GCN5 enables HSP12 induction promoting chromatin remodeling not histone acetylation BIOCHEMISTRY AND CELL BIOLOGY 2021
Saccharomyces cerevisiae rDNA as super-hub: the region where replication, transcription and recombination meet CELLULAR AND MOLECULAR LIFE SCIENCES 2020
Fob1p recruits DNA topoisomerase I to ribosomal genes locus and contributes to its transcriptional silencing maintenance THE INTERNATIONAL JOURNAL OF BIOCHEMISTRY & CELL BIOLOGY 2019
Restriction enzymes and their use in molecular biology: An overview JOURNAL OF BIOSCIENCES 2019
Histone acetylation landscape in S. cerevisiae nhp6ab mutants reflects altered glucose metabolism BIOCHIMICA ET BIOPHYSICA ACTA-GENERAL SUBJECTS 2019
A novel role for Nhp6 proteins in histone gene regulation in Saccharomyces cerevisiae THE INTERNATIONAL JOURNAL OF BIOCHEMISTRY & CELL BIOLOGY 2017
What is a Gene? A Two Sided View EVOLUTIONARY BIOLOGY 2017
RNA polymerase i transcription is modulated by spatial learning in different brain regions JOURNAL OF NEUROCHEMISTRY 2016
Molecular Mechanism of DNA Topoisomerase I-Dependent rDNA Silencing: Sir2p Recruitment at Ribosomal Genes JOURNAL OF MOLECULAR BIOLOGY 2016
Sir2 is involved in the transcriptional modulation of NHP6A in Saccharomyces cerevisiae BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS 2015
Department
BIOLOGIA E BIOTECNOLOGIE "CHARLES DARWIN"
SSD

BIO/11