Better 90 Minutes Late than Never: Differential Diagnosis on MRI Scanning in a Case of Hepatic Angiosarcoma.

Primary hepatic angiosarcoma (PHA) is a rare liver malignancy with few studies describing its radiological characteristics. This article aims to assess the imaging features of each of the multiple delayed contrast-enhanced magnetic resonance imaging (MRI) scans, in addition to the conventional MRI protocol, in a patient with PHA. Standard MRI sequences and a liver protocol were used in the examination of a 71 year-old male with pathologically proven PHA after current imaging evaluation.

Structural impacts of two disease-linked ADAR1 mutants: a molecular dynamics study.

Adenosine deaminases acting on RNA (ADARs) are pivotal RNA-editing enzymes responsible for converting adenosine to inosine within double-stranded RNA (dsRNA). Dysregulation of ADAR1 editing activity, often arising from genetic mutations, has been linked to elevated interferon levels and the onset of autoinflammatory diseases. However, understanding the molecular underpinnings of this dysregulation is impeded by the lack of an experimentally determined structure for the ADAR1 deaminase domain.

Studies on lysozyme modifications induced by substituted p-benzoquinones.

Protein misfolding can facilitate a protein damaging process and makes it susceptible to a series of events such as unfolding, adduct formation, oligomerization, or aggregation. Loss of a protein's native structure may result in its biological malfunction and/or cellular toxicity that could cause associated diseases. Several factors were identified for causing structural changes of a protein, however quinone-induced protein modifications received very little attention whether for amyloidal or non-amyloidal proteins.

A comparison study on ribonuclease A modifications induced by substituted p-benzoquinones.

In this paper, we present our investigation on ribonuclease A (RNase) modifications induced by 1,4-benzoquinone (PBQ), 2-methyl-1,4-benzoquinone (MBQ), and 2-chloro-1,4-benzoquinone (CBQ). The goal of the study was to evaluate quinone-induced protein modifications as well as substituent effects, utilizing several techniques such as SDS-PAGE, fluorescence spectroscopy, microscopy, and LC-ESI(+)-QTOF-MS. SDS-PAGE experiments revealed that all quinones modify RNase through oligomerization as well as polymeric aggregation; with CBQ functioning as the most efficient quinone while MBQ was least efficient.

Modifications of ribonuclease A induced by p-benzoquinone.

The nature of ribonuclease A (RNase) modifications induced by p-benzoquinone (pBQ) was investigated using several analysis methods. SDS-PAGE experiments revealed that pBQ was efficient in producing oligomers and polymeric aggregates when RNase was incubated with pBQ. The fluorescence behavior and anisotropy changes of the modified RNase were monitored for a series of incubation reactions where RNase (0.