Anna Melati scite author profile

Anna Melati

3Publications

18Citation Statements Received

134Citation Statements Given

How they've been cited

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119

Affiliations

Istituti di Ricovero e Cura a Carattere Scientifico, Istituto di Genetica Molecolare, University of Pavia

Publications

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Deficient adaptation to centrosome duplication defects in neural progenitors causes microcephaly and subcortical heterotopias

González‐Martínez¹,

Cwetsch²,

Martínez-Alonso³

et al. 2021

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Congenital microcephaly (MCPH) is a neurodevelopmental disease associated to mutations in genes encoding proteins involved in centrosomal and chromosomal dynamics during mitosis. Detailed MCPH pathogenesis at the cellular level is still elusive given the diversity of MCPH genes and lack of comparative in vivo studies. By generating a series of CRISPR/Cas9-mediated genetic knockouts we report here that, whereas defects in spindle pole proteins (ASPM, MCPH5) result in mild microcephaly during development, lack of centrosome (CDK5RAP2, MCPH3) or centriole (CEP135, MCPH8) regulators induces delayed chromosome segregation and chromosomal instability in neural progenitors (NPs). Our novel mouse model of MCPH8 suggests that Cep135 deficiency results in centriole duplication, TP53 activation and cell death of NPs. Trp53 ablation in a Cep135-deficient background prevents cell death, but not microcephaly, and leads to subcortical heterotopias, a malformation seen in MCPH8 patients. These results suggest that microcephaly in some MCPH patients can arise from the lack of adaptation to centriole defects in NPs and may lead to architectural defects if chromosomally unstable cells are not eliminated during brain development.

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High Flexibility of RNaseH2 Catalytic Activity with Respect to Non-Canonical DNA Structures

Dede

Napolitano

Melati

et al. 2021

IJMS

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Ribonucleotides misincorporated in the human genome are the most abundant DNA lesions. The 2′-hydroxyl group makes them prone to spontaneous hydrolysis, potentially resulting in strand breaks. Moreover, their presence may decrease the rate of DNA replication causing replicative fork stalling and collapse. Ribonucleotide removal is initiated by Ribonuclease H2 (RNase H2), the key player in Ribonucleotide Excision Repair (RER). Its absence leads to embryonic lethality in mice, while mutations decreasing its activity cause Aicardi–Goutières syndrome. DNA geometry can be altered by DNA lesions or by peculiar sequences forming secondary structures, like G-quadruplex (G4) and trinucleotide repeats (TNR) hairpins, which significantly differ from canonical B-form. Ribonucleotides pairing to lesioned nucleotides, or incorporated within non-B DNA structures could avoid RNase H2 recognition, potentially contributing to genome instability. In this work, we investigate the ability of RNase H2 to process misincorporated ribonucleotides in a panel of DNA substrates showing different geometrical features. RNase H2 proved to be a flexible enzyme, recognizing as a substrate the majority of the constructs we generated. However, some geometrical features and non-canonical DNA structures severely impaired its activity, suggesting a relevant role of misincorporated ribonucleotides in the physiological instability of specific DNA sequences.

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Bone Marrow-Free Sequencing of M Protein Genes in Monoclonal Gammopathies

Nevone

Mazzini

Milani

et al. 2022

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Anna Melati

Deficient adaptation to centrosome duplication defects in neural progenitors causes microcephaly and subcortical heterotopias

High Flexibility of RNaseH2 Catalytic Activity with Respect to Non-Canonical DNA Structures

Bone Marrow-Free Sequencing of M Protein Genes in Monoclonal Gammopathies

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