Acute ethanol stress induces sumoylation of conserved chromatin structural proteins in .

Stress is ubiquitous to life and can irreparably damage essential biomolecules and organelles in cells. To survive, organisms must sense and adapt to stressful conditions. One highly conserved adaptive stress response is through the posttranslational modification of proteins by the small ubiquitin-like modifier (SUMO).

A systematic review of the use of simulated patient methodology in pharmacy practice research from 2006 to 2016.

Objectives: Simulated patient (SP) methodology (mystery shopping) is used increasingly to assess quality of pharmacy services, and evaluate impact of interventions. Our objective was to review papers reporting on the use of SP methodology in pharmacy practice research 2006-2016 in community pharmacies worldwide.

Methods: We searched EMBASE and MEDLINE for papers reporting on the use of mystery shopping in pharmacy settings, using a wide range of terms for SPs, based on previous review.

Epibulbar Plasmacytoma Masquerading as Subconjunctival Hemorrhage in a Patient With Multiple Myeloma.

Purpose: We report a 75-year-old woman with a history of multiple myeloma immunoglobulin D (IgD) variant, who presented with an epibulbar plasmacytoma masquerading as a subconjunctival hemorrhage.

Methods: Magnetic resonance imaging of the brain and orbits with and without contrast was obtained and surgical biopsy of the subconjunctival lesion was performed; histopathology confirmed the diagnosis of plasmacytoma.

Results: Subconjunctival biopsy revealed a plasma cell neoplasm infiltrate in the episcleral layer.

Dynamic Sumoylation of a Conserved Transcription Corepressor Prevents Persistent Inclusion Formation during Hyperosmotic Stress.

Cells are often exposed to physical or chemical stresses that can damage the structures of essential biomolecules. Stress-induced cellular damage can become deleterious if not managed appropriately. Rapid and adaptive responses to stresses are therefore crucial for cell survival.

Glucosylceramides are critical for cell-type differentiation and organogenesis, but not for cell viability in Arabidopsis.

Glucosylceramides (GlcCer), glucose-conjugated sphingolipids, are major components of the endomembrane system and plasma membrane in most eukaryotic cells. Yet the quantitative significance and cellular functions of GlcCer are not well characterized in plants and other multi-organ eukaryotes. To address this, we examined Arabidopsis lines that were lacking or deficient in GlcCer by insertional disruption or by RNA interference (RNAi) suppression of the single gene for GlcCer synthase (GCS, At2g19880), the enzyme that catalyzes GlcCer synthesis.

Single-cell genetic analysis reveals insights into clonal development of prostate cancers and indicates loss of PTEN as a marker of poor prognosis.

Gauging the risk of developing progressive disease is a major challenge in prostate cancer patient management. We used genetic markers to understand genomic alteration dynamics during disease progression. By using a novel, advanced, multicolor fluorescence in situ hybridization approach, we enumerated copy numbers of six genes previously identified by array comparative genomic hybridization to be involved in aggressive prostate cancer [TBL1XR1, CTTNBP2, MYC (alias c-myc), PTEN, MEN1, and PDGFB] in six nonrecurrent and seven recurrent radical prostatectomy cases.

HD-Zip Proteins GL2 and HDG11 Have Redundant Functions in Arabidopsis Trichomes, and GL2 Activates a Positive Feedback Loop via MYB23.

The class IV homeodomain leucine zipper transcription factor GLABRA2 (GL2) acts in a complex regulatory circuit that regulates the differentiation of trichomes in Arabidopsis thaliana. We describe a genetic interaction with HOMEODOMAIN GLABROUS11 (HDG11), previously identified as a negative regulator of trichome branching. gl2 hdg11 double mutants display enhanced trichome cell-type differentiation defects.

A comparison between rib fracture patterns in peri- and post-mortem compressive injury in a piglet model.

Objectives: Forensic biomechanics is increasingly being used to explain how observed injuries occur. We studied infant rib fractures from a biomechanical and morphological perspective using a porcine model.

Methods: We used 24, 6th ribs of one day old domestic pigs Sus scrofa, divided into three groups, desiccated (representing post-mortem trauma), fresh ribs with intact periosteum (representing peri-mortem trauma) and those stored at -20°C.

Single-cell genetic analysis of ductal carcinoma in situ and invasive breast cancer reveals enormous tumor heterogeneity yet conserved genomic imbalances and gain of MYC during progression.

Ductal carcinoma in situ (DCIS) is a precursor lesion of invasive ductal carcinoma (IDC) of the breast. To understand the dynamics of genomic alterations in this progression, we used four multicolor fluorescence in situ hybridization probe panels consisting of the oncogenes COX2, MYC, HER2, CCND1, and ZNF217 and the tumor suppressor genes DBC2, CDH1, and TP53 to visualize copy number changes in 13 cases of synchronous DCIS and IDC based on single-cell analyses. The DCIS had a lower degree of chromosomal instability than the IDC.

High-throughput sequence analysis of variants of human cytomegalovirus strains Towne and AD169.

The genomes of commonly used variants of human cytomegalovirus (HCMV) strains Towne and AD169 each contain a substantial mutation in which a region (U(L)/b') at the right end of the long unique region has been replaced by an inverted duplication of a region from the left end of the genome. Using high-throughput technology, we have sequenced HCMV strain Towne (ATCC VR-977) and confirmed the presence of two variants, one exhibiting the replacement in U(L)/b' and the other intact in this region. Both variants are mutated in genes RL13, UL1, UL40, UL130, US1 and US9.

Genotypic analysis of two hypervariable human cytomegalovirus genes.

Most human cytomegalovirus (HCMV) genes are highly conserved in sequence among strains, but some exhibit a substantial degree of variation. Two of these genes are UL146, which encodes a CXC chemokine, and UL139, which is predicted to encode a membrane glycoprotein. The sequences of these genes were determined from a collection of 184 HCMV samples obtained from Africa, Australia, Asia, Europe, and North America.

Small-molecule complement inhibitors cannot prevent the development of the platelet storage lesion.

Background: Suppression of the platelet (PLT) storage lesion would maintain PLT quality over longer storage times. An increased storage period would greatly improve the ability of blood agencies and hospitals to manage PLT inventories and minimize product wastage. Activation of the complement system has been proposed to play a role in initiating or potentiating the PLT storage lesion.

Immune complex binding by immunocamouflaged [poly(ethylene glycol)-grafted] erythrocytes.

Immune complexes (IC) are constantly formed at low levels in normal individuals. In humans, the red blood cell (RBC) complement receptor 1 (CR1) plays the dominant role in the IC binding and clearance. Over the last several years, we have investigated the potential utility of immunocamouflaged (methoxypoly(ethylene glycol) [mPEG] grafted) RBC to attenuate the risk of alloimmunization.

Using the Liverpool Care Pathway for a dying patient.

This article describes the experience of staff in one acute hospital in Northern Ireland who adapted the Liverpool Care Pathway (LCP) for the dying patient to suit their organisation. It focuses on one patient's journey, from diagnosis to terminal care. The patient remained on the care pathway for 12 days.

Separation and purification of methoxypoly(ethylene glycol) grafted red blood cells via two-phase partitioning.

Alloimmunization to donor blood group antigens remains a significant problem in transfusion medicine. To attenuate the risk of alloimmunization, we have pioneered the membrane grafting of methoxypoly(ethylene glycol) (mPEG) to produce immunocamouflaged red blood cells (RBC). Grafting of the mPEG was accomplished using cyanuric chloride activated mPEG (CmPEG; M(r) = 5000), benzotriazole carbonate methoxyPEG (BTCmPEG; M(r) = 2000, 5000 or 20000); or N-hydroxysuccinimidyl ester of mPEG propionic acid (SPAmPEG; M(r) = 5000, or 20000).

Biophysical consequences of linker chemistry and polymer size on stealth erythrocytes: size does matter.

Immunocamouflaged red blood cells (RBC) are produced by cell surface derivatization with methoxypolyethylene glycol (mPEG). These immunologically attenuated cells may reduce the risk of allosensitization in chronically transfused patients. To characterize the effects of differing linker chemistries and polymer lengths, RBC were modified with cyanuric chloride activated mPEG (C-mPEG 5 kDa), benzotriazole carbonate methoxyPEG (BTC-mPEG; 5 or 20 kDa) or N-hydroxysuccinimidyl ester of mPEG propionic acid (SPA-mPEG; 2, 5 or 20 kDa).