Alfredo De Biasio

Molecular architechture and function of DNA replication and repair machines

Headshot of Alfredo De Biasio

Research Summary

The genetic information is encoded in long chains of deoxyribonucleic acid (DNA) molecules packaged into chromosomes in the cell nucleus. Before dividing, cells need to accurately duplicate their DNA, to ensure that each daughter cell has an identical copy. Critical players in DNA replication are the so-called DNA clamps, ring-shaped proteins that slide on the DNA double helix and anchor the polymerases, the enzymes that replicate DNA, to the genomic template. Beside DNA replication, sliding clamps function in the DNA damage response and the maintenance of genome integrity. Due to their central role in cell proliferation, DNA clamps are an important hallmark of tumors, as well as potential drug targets for anti-cancer therapy.

Our aim is to unravel the molecular architecture of eukaryotic DNA replication complexes involving DNA sliding clamps, and to shed light on their inner workings. To tackle these composite, supramolecular assemblies we integrate structural (X-ray, NMR, Electron Microscopy) and computational methods.

In our work, we have determined the structure of the human clamp PCNA bound to p15PAF, a modulator of the DNA damage tolerance pathway, revealing a unique mode of binding with functional implications. Our work has also provided a structural basis for the mechanism of PCNA sliding on DNA, resolving a long-lasting controversy on how eukaryotic clamps recognize and bind the DNA double helix.

An important focus of our current research is the integration of the structural studies with single-molecule studies, to resolve the spatio-temporal processes directed by the PCNA. To this purpose, we are collaborating with the laboratory of Jong-Bong Lee, at Postech University.

Proliferating Cell Nuclear Antigen (PCNA), or the eukaryotic DNA clamp, is a ring-shapedprotein that encircles DNA and anchors the polymerases, the enzymes that duplicate DNA

Proliferating Cell Nuclear Antigen (PCNA), or the eukaryotic DNA clamp, is a ring-shaped protein
that encircles DNA and anchors the polymerases, the enzymes that duplicate DNA

How PCNA moves on DNA, we have deciphered a spiral movement that poses the protein in the correct orientation to bind the polymerase
How PCNA moves on DNA, we have deciphered a spiral movement that poses 
the protein in the correct orientation to bind the polymerase

Structure of human PCNA bound to the intrinsically disordered protein p15PAF
Structure of human PCNA bound to the intrinsically disordered protein p15PAF

Key Publications

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