Marta Agostinho scite author profile

Type 2 topoisomerases, in particular the A isoform in human cells, play a key role in cohesion and sister chromatid separation during mitosis. These enzymes are thus vital for cycling cells and are obvious targets in cancer chemotherapy. Evidence obtained in yeast and Xenopus model systems indicates that conjugation of topoisomerase 2 with small ubiquitin-like modifier (SUMO) proteins is required for its mitotic functions.

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Human Topoisomerase IIα: Targeting to Subchromosomal Sites of Activity during Interphase and Mitosis

Agostinho

Rino

Braga

et al. 2004

MBoC

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Mammalian topoisomerase IIalpha (topo IIalpha) plays a vital role in the removal of topological complexities left on DNA during S phase. Here, we developed a new assay to selectively identify sites of catalytic activity of topo IIalpha with subcellular resolution. We show that topo IIalpha activity concentrates at replicating heterochromatin in late S in a replication-dependent manner and at centric heterochromatin during G2 and M phases. Inhibitor studies indicate that this cell cycle-dependent concentration over heterochromatin is sensitive to chromatin structure. We further show that catalytically active topo IIalpha concentrates along the longitudinal axis of mitotic chromosomes. Finally, we found that catalytically inert forms of the enzyme localize predominantly to splicing speckles in a dynamic manner and that this pool is differentially sensitive to changes in the activities of topo IIalpha itself and RNA polymerase II. Together, our data implicate several previously unsuspected activities in the partitioning of the enzyme between sites of activity and putative depots.

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The interface of science: the case for a broader definition of research management

Agostinho¹,

Alves

Aresta

et al. 2018

Perspectives: Policy and Practice in Higher Education

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This paper results from ongoing reflection within the practitioners group Plataforma de Interface à Ciência (Platform of Professionals at the Interface of Science), an informal nationwide network in Portugal that brings together professionals involved in a large scope of activities related to research management, knowledge transfer and science communication. Due to the wide scope of functions and profiles of these professionals, they are not publicly nor institutionally recognised as part of the same professional group, which raises barriers for their recognition as relevant players in the research & innovation ecosystem and full achievement of their potential. We take stock of the several definitions of their roles found in the literature and conclude on the need for an inclusive approach to consider these roles as a profession. We propose the designation of Professionals at the Interface of Science (PIoS) to name this wide group of professionals that sits at the interface at all scientific disciplines.

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Involving society in science

Garrison

Agostinho²,

Álvarez

et al. 2021

EMBO Reports

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Molecular Cloning of the Gene Encoding Flavoredoxin, a Flavoprotein from Desulfovibrio gigas

Agostinho

Oliveira

Broco

et al. 2000

Biochemical and Biophysical Research Communications

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Sulfate-reducing bacteria are rich in unique redox proteins and electron carriers that participate in a variety of essential pathways. Several studies have been carried out to characterize these proteins, but the structure and function of many are poorly understood. Many Desulfovibrio species can grow using hydrogen as the sole energy source, indicating that the oxidation of hydrogen with sulfite as the terminal electron acceptor is an energy-conserving mechanism. Flavoredoxin is an FMN-binding protein isolated from the sulfate-reducing bacteria Desulfovibrio gigas that participates in the reduction of bisulfite from hydrogen. Here we report the cloning and sequencing of the flavoredoxin gene. The derived amino acid sequence exhibits similarity to several flavoproteins which are members of a new family of flavin reductases suggested to bind FMN in a novel mode. (C) 2000 Academic Press.

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Marta Agostinho

Conjugation of Human Topoisomerase 2α with Small Ubiquitin-like Modifiers 2/3 in Response to Topoisomerase Inhibitors: Cell Cycle Stage and Chromosome Domain Specificity

Human Topoisomerase IIα: Targeting to Subchromosomal Sites of Activity during Interphase and Mitosis

The interface of science: the case for a broader definition of research management

Involving society in science

Molecular Cloning of the Gene Encoding Flavoredoxin, a Flavoprotein from Desulfovibrio gigas

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