Enhancing LGBT + primary healthcare in Slovenia: A national qualitative study of experiences and expectations of LGBT + people and family doctors.

Background: Despite growing acceptance of LGBT + individuals, an underlying stigma persists even in healthcare, resulting in substandard care and worse healthcare outcomes for LGBT + individuals.

Objectives: To examine and compare the experiences and expectations regarding primary healthcare among LGBT + individuals and general practitioners (GPs) in Slovenia.

Methods: We conducted an online national qualitative study using open-ended questions.

Regulation of protein secretion through chemical regulation of endoplasmic reticulum retention signal cleavage.

Secreted proteins, such as hormones or cytokines, are key mediators in multicellular organisms. Response of protein secretion based on transcriptional control is rather slow, as it requires transcription, translation and transport from the endoplasmic reticulum (ER) to the plasma membrane via the conventional protein secretion (CPS) pathway. An alternative regulation to provide faster response would be valuable.

The Onset of Depression in Middle-Aged Presumed Healthy Slovenian Family Practice Attendees and Its Associations with Genetic Risk Assessment, Quality of Life and Health Status: A Contribution for Family Medicine Practitioners' Early Detection.

Despite depression being a major driver of morbidity and mortality, the majority of primary care patients remain undiagnosed, so this study aimed to assess the prevalence of depression and the association with demographic and clinical variables, genetic risk, and quality of life. The participants were presumably healthy model family medicine practice (MFMP) attendees between 30 and 65 years of age and recruited during a preventive check-up in 2019. Each of the 40 pre-selected MFMP pragmatically invited 30 attendees to voluntarily participate.

Design of fast proteolysis-based signaling and logic circuits in mammalian cells.

Cellular signal transduction is predominantly based on protein interactions and their post-translational modifications, which enable a fast response to input signals. Owing to difficulties in designing new unique protein-protein interactions, designed cellular logic has focused on transcriptional regulation; however, that process has a substantially slower response, because it requires transcription and translation. Here, we present de novo design of modular, scalable signaling pathways based on proteolysis and designed coiled coils (CC) and implemented in mammalian cells.