Elena Longhin scite author profile

Elena Longhin

5Publications

9Citation Statements Received

210Citation Statements Given

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171

202

Affiliations

University of Copenhagen

Publications

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Isolation and Characterization of Nanobodies against a Zinc-Transporting P-Type ATPase

Longhin

Grønberg

et al. 2018

Antibodies

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P-type ATPases form a large and ubiquitous superfamily of ion and lipid transporters that use ATP (adenosine triphosphate) to carry out their function. The IB subclass (PIB-ATPases) allows flux of heavy metals and are key players in metal detoxification, critical for human health, crops, and survival of pathogens. Nevertheless, PIB-ATPases remain poorly understood at a molecular level. In this study, nanobodies (Nbs) are selected against the zinc-transporting PIB-ATPase ZntA from Shigella sonnei (SsZntA), aiming at developing tools to assist the characterization of the structure and function of this class of transporters. We identify six different Nbs that bind detergent stabilized SsZntA. We further assess the effect of the Nbs on the catalytic function of SsZntA, and find that five nanobodies associate without affecting the function, while one nanobody significantly reduces the ATPase activity. This study paves the way for more refined mechanistical and structural studies of zinc-transporting PIB-ATPases.

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Structure and ion-release mechanism of PIB-4-type ATPases

Grønberg

Mahato

et al. 2021

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Transition metals, such as zinc, are essential micronutrients in all organisms, but also highly toxic in excessive amounts. Heavy-metal transporting P-type (PIB) ATPases are crucial for homeostasis, conferring cellular detoxification and redistribution through transport of these ions across cellular membranes. No structural information is available for the PIB-4-ATPases, the subclass with the broadest cargo scope, and hence even their topology remains elusive. Here we present structures and complementary functional analyses of an archetypal PIB‑4‑ATPase, sCoaT from Sulfitobacter sp. NAS14-1. The data disclose the architecture, devoid of classical so-called heavy metal binding domains, and provides fundamentally new insights into the mechanism and diversity of heavy-metal transporters. We reveal several novel P-type ATPase features, including a dual role in heavy-metal release and as an internal counter ion of an invariant histidine. We also establish that the turn-over of PIB‑ATPases is potassium independent, contrasting to many other P-type ATPases. Combined with new inhibitory compounds, our results open up for efforts in e.g. drug discovery, since PIB-4-ATPases function as virulence factors in many pathogens.

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Geographies of (hydro)power Water exploitation and urbanisation praxis across the Veneto region

Longhin¹

2021

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Since the mid-20 th century, fundamental shifts in the state and functioning of the Earth system have emerged through a multiplicity of socio-ecological crises triggered by ever-growing large-scale use of natural resources and the ever-greater scales of social and material exchange, and accelerated by climate change. Although over the time we have come to realise how the long-distance interactions between urban and non-urban territories, supporting vertically cities and their functioning, have increasingly altered ecosystems and established intensively operational landscapes, energy extractive production methods and their reciprocal counter-landscapes are rarely critically investigated as constitutive parts of the urbanisation process. Transcending binaries of urban/rural environments, this contribution describes larger research attempts to understand and question the social, political, and ecological dynamics deployed by the energy spatial project along the Piave River, the most engineered hydro basin in Europe. Whilst the exploration offered by the methodology of landscape urbanism pushes the focus beyond the urban realm, it makes use of urban political ecology's conceptual framework as a lens through which examining how urban metabolic processes entail urbanisation across scales. Engagements between urbanism research praxis and landscape political ecology additionally provide a productive method to frame and conceptualise extensive forms of urbanisation through the focus on critical landscapes. The research argues that by bringing upfront the anatomy of the riverine infra-natures is a way to question inherited and ongoing dynamics entailed across landscapes, as well providing as encompassing understanding of their intricate apparatuses' roles in forging the territorial palimpsest.

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Shaped by Power

Longhin¹

2021

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Multitasking in the gut: the X-ray structure of the multidomain BbgIII from Bifidobacterium bifidum offers possible explanations for its alternative functions

Moroz¹,

Blagova²,

Лебедев³

et al. 2021

Acta Cryst Sect D Struct Biol

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β-Galactosidases catalyse the hydrolysis of lactose into galactose and glucose; as an alternative reaction, some β-galactosidases also catalyse the formation of galactooligosaccharides by transglycosylation. Both reactions have industrial importance: lactose hydrolysis is used to produce lactose-free milk, while galactooligosaccharides have been shown to act as prebiotics. For some multi-domain β-galactosidases, the hydrolysis/transglycosylation ratio can be modified by the truncation of carbohydrate-binding modules. Here, an analysis of BbgIII, a multidomain β-galactosidase from Bifidobacterium bifidum, is presented. The X-ray structure has been determined of an intact protein corresponding to a gene construct of eight domains. The use of evolutionary covariance-based predictions made sequence docking in low-resolution areas of the model spectacularly easy, confirming the relevance of this rapidly developing deep-learning-based technique for model building. The structure revealed two alternative orientations of the CBM32 carbohydrate-binding module relative to the GH2 catalytic domain in the six crystallographically independent chains. In one orientation the CBM32 domain covers the entrance to the active site of the enzyme, while in the other orientation the active site is open, suggesting a possible mechanism for switching between the two activities of the enzyme, namely lactose hydrolysis and transgalactosylation. The location of the carbohydrate-binding site of the CBM32 domain on the opposite site of the module to where it comes into contact with the catalytic GH2 domain is consistent with its involvement in adherence to host cells. The role of the CBM32 domain in switching between hydrolysis and transglycosylation modes offers protein-engineering opportunities for selective β-galactosidase modification for industrial purposes in the future.

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Elena Longhin

Isolation and Characterization of Nanobodies against a Zinc-Transporting P-Type ATPase

Structure and ion-release mechanism of PIB-4-type ATPases

Geographies of (hydro)power Water exploitation and urbanisation praxis across the Veneto region

Shaped by Power

Multitasking in the gut: the X-ray structure of the multidomain BbgIII from Bifidobacterium bifidum offers possible explanations for its alternative functions

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