Impact of COVID-19 Infection on Pancreato-Biliary Diseases Requiring Endoscopic Retrograde Cholangiopancreatography.

Background: Viral infections are known to impact the pancreato-biliary system; however, there are limited data showing that the same is true of COVID-19. Endoscopic retrograde cholangiopancreatography (ERCP) can safely be performed in patients with COVID-19 infection, but outcomes of patients with COVID-19 infections and concomitant pancreatic and biliary disease requiring endoscopic intervention are unknown.

Aims: This study aims to evaluate the severity of pancreaticobiliary diseases and post-ERCP outcomes in COVID-19 patients.

The prevalence and impact of psychiatric comorbidities on hospitalized inflammatory bowel disease patients in the United States: insights from the National Inpatient Sample from 2009-2018.

Background: Patients with inflammatory bowel disease (IBD) are at increased risk of anxiety and mood disorders. This study examines the temporal trends and clinical impact of anxiety and mood disorder diagnoses in hospitalized IBD patients in the United States during a 10-year period.

Methods: Using the National Inpatient Sample from 2009-2018, all IBD-related discharges in adults were analyzed.

Cytological heterogeneity of heterochromatin among 10 sequenced Drosophila species.

In Drosophila chromosomal rearrangements can be maintained and are associated with karyotypic variability among populations from different geographic localities. The abundance of variability in gene arrangements among chromosomal arms is even greater when comparing more distantly related species and the study of these chromosomal changes has provided insights into the evolutionary history of species in the genus. In addition, the sequencing of genomes of several Drosophila species has offered the opportunity to establish the global pattern of genomic evolution, at both genetic and chromosomal level.

Characterization of () and , Essential Paralogous Genes Which Encode the Enzymes That Catalyze the Rate-Limiting Step in the Hexosamine Biosynthetic Pathway in .

The () locus is known for its essential role in the development of the embryonic cuticle of . We show here that encodes (; ), the enzyme that catalyzes the rate-limiting step in the hexosamine biosynthesis pathway (HBP). This conserved pathway diverts 2%-5% of cellular glucose from glycolysis and is a nexus of sugar (fructose-6-phosphate), amino acid (glutamine), fatty acid [acetyl-coenzymeA (CoA)], and nucleotide/energy (UDP) metabolism.

The Hsp70 chaperone is a major player in stress-induced transposable element activation.

Previous studies have shown that heat shock stress may activate transposable elements (TEs) in and other organisms. Such an effect depends on the disruption of a chaperone complex that is normally involved in biogenesis of Piwi-interacting RNAs (piRNAs), the largest class of germline-enriched small noncoding RNAs implicated in the epigenetic silencing of TEs. However, a satisfying picture of how chaperones could be involved in repressing TEs in germ cells is still unknown.

Stress-induced strain and brain region-specific activation of LINE-1 transposons in adult mice.

Transposable elements (TEs) are conserved mobile genetic elements that are highly abundant in most eukaryotic genomes. Although the exact function of TEs is still largely unknown, it is increasingly clear that they are significantly modulated in response to stress in a wide range of organisms, either directly or indirectly through regulation of epigenetic silencing. We investigated the effect of repeated restraint stress (2 h a day, for 5 d) on transcription levels of LINE-1 (L1) retrotransposon in the brain of inbred BALB/c, DBA/2, C57BL/6N, and outbred CD1 mice.

Chromosome Healing Is Promoted by the Telomere Cap Component Hiphop in .

The addition of a new telomere onto a chromosome break, a process termed healing, has been studied extensively in organisms that utilize telomerase to maintain their telomeres. In comparison, relatively little is known about how new telomeres are constructed on broken chromosomes in organisms that do not use telomerase. Chromosome healing was studied in somatic and germline cells of , a nontelomerase species.

Loss of Pol32 in Drosophila melanogaster causes chromosome instability and suppresses variegation.

Pol32 is an accessory subunit of the replicative DNA Polymerase δ and of the translesion Polymerase ζ. Pol32 is involved in DNA replication, recombination and repair. Pol32's participation in high- and low-fidelity processes, together with the phenotypes arising from its disruption, imply multiple roles for this subunit within eukaryotic cells, not all of which have been fully elucidated.

Position effect variegation and viability are both sensitive to dosage of constitutive heterochromatin in Drosophila.

The dosage effect of Y-chromosome heterochromatin on suppression of position effect variegation (PEV) has long been well-known in Drosophila. The phenotypic effects of increasing the overall dosage of Y heterochromatin have also been demonstrated; hyperploidy of the Y chromosome produces male sterility and many somatic defects including variegation and abnormal legs and wings. This work addresses whether the suppression of position effect variegation (PEV) is a general feature of the heterochromatin (independent of the chromosome of origin) and whether a hyperdosage of heterochromatin can affect viability.

Transposons, environmental changes, and heritable induced phenotypic variability.

The mechanisms of biological evolution have always been, and still are, the subject of intense debate and modeling. One of the main problems is how the genetic variability is produced and maintained in order to make the organisms adaptable to environmental changes and therefore capable of evolving. In recent years, it has been reported that, in flies and plants, mutations in Hsp90 gene are capable to induce, with a low frequency, many different developmental abnormalities depending on the genetic backgrounds.

Positive regulation of euchromatic gene expression by HP1.

HP1 is a conserved prototype protein that plays an essential role in heterochromatin formation and epigenetic gene silencing through its interaction with histone methyltransferase enzymes (HMTases) and the histone H3 at lysine 9 (H3-MeK9). HP1 is also involved in telomere capping and, more surprisingly, in positive regulation of gene expression. Recently, a wide expression analysis, using a RIP-chip assays (RNA-immunoprecipitation on microarrays), has shown that HP1 associates with the transcripts of more than one hundred euchromatic genes and interacts with the heterogeneous nuclear ribonucleoproteins (hnRNPs) that are known to be involved in RNA processing.

Fluorescent in situ hybridization (FISH) of mitotic chromosomes from Drosophila larval brain.

The fluorescent in situ hybridization (FISH) technique permits fine mapping of both middle and highly repetitive DNA sequences along Drosophila melanogaster heterochromatin. Best results are obtained when this technique is coupled with DAPI staining and digital recording of fluorescent signals. For example, if digital images of the FISH signals and DAPI fluorescence are detected separately using a charge-coupled device (CCD) camera, they can then be pseudocolored and merged using suitable computer programs.

Preparation and orcein staining of mitotic chromosomes from Drosophila larval brain.

In this protocol, larval brains from Drosophila are incubated in vitro with colchicine, treated with hypotonic solution, fixed, and squashed in aceto-orcein. This procedure provides a large number of well-spread metaphase figures (200-400 per brain) that can be analyzed for chromosome morphology, the presence of chromosome aberrations, and the degree of ploidy.

Hsp90 prevents phenotypic variation by suppressing the mutagenic activity of transposons.

The canalization concept describes the resistance of a developmental process to phenotypic variation, regardless of genetic and environmental perturbations, owing to the existence of buffering mechanisms. Severe perturbations, which overcome such buffering mechanisms, produce altered phenotypes that can be heritable and can themselves be canalized by a genetic assimilation process. An important implication of this concept is that the buffering mechanism could be genetically controlled.

Heterochromatin protein 1 (HP1a) positively regulates euchromatic gene expression through RNA transcript association and interaction with hnRNPs in Drosophila.

Heterochromatin Protein 1 (HP1a) is a well-known conserved protein involved in heterochromatin formation and gene silencing in different species including humans. A general model has been proposed for heterochromatin formation and epigenetic gene silencing in different species that implies an essential role for HP1a. According to the model, histone methyltransferase enzymes (HMTases) methylate the histone H3 at lysine 9 (H3K9me), creating selective binding sites for itself and the chromodomain of HP1a.

HP1: a functionally multifaceted protein.

HP1 (heterochromatin protein 1) is a nonhistone chromosomal protein first discovered in Drosophila melanogaster because of its association with heterochromatin. Numerous studies have shown that such a protein plays a role in heterochromatin formation and gene silencing in many organisms, including fungi and animals. Cytogenetic and molecular studies, performed in Drosophila and other organisms, have revealed that HP1 associates with heterochromatin, telomeres and multiple euchromatic sites.

The trithorax group and Pc group proteins are differentially involved in heterochromatin formation in Drosophila.

In Drosophila, the Polycomb group and trithorax group proteins play a critical role in controlling the expression states of homeotic gene complexes during development. The common view is that these two classes of proteins bind to the homeotic complexes and regulate transcription at the level of chromatin. In the present work, we tested the involvement of both groups in mitotic heterochromatin formation in Drosophila.

Heterochromatin protein 1 interacts with 5'UTR of transposable element ZAM in a sequence-specific fashion.

The realization of cross talks between transposable elements of class I and their host genome involves non-histonic chromatin proteins. These interactions have been widely analyzed through the characterization of the gypsy retrotransposon leader region, which holds a particularly strong insulator element, and the proteins required for its function, Su(Hw), Mod(mdg4), and Cp190. Here we provide evidence that a similar interaction should occur between ZAM, a gypsy-like element, and HP1, one of the most extensively studied chromatin proteins.

Heterochromatic genes in Drosophila: a comparative analysis of two genes.

Centromeric heterochromatin comprises approximately 30% of the Drosophila melanogaster genome, forming a transcriptionally repressive environment that silences euchromatic genes juxtaposed nearby. Surprisingly, there are genes naturally resident in heterochromatin, which appear to require this environment for optimal activity. Here we report an evolutionary analysis of two genes, Dbp80 and RpL15, which are adjacent in proximal 3L heterochromatin of D.

Drosophila ATM and ATR checkpoint kinases control partially redundant pathways for telomere maintenance.

In higher eukaryotes, the ataxia telangiectasia mutated (ATM) and ATM and Rad3-related (ATR) checkpoint kinases play distinct, but partially overlapping, roles in DNA damage response. Yet their interrelated function has not been defined for telomere maintenance. We discover in Drosophila that the two proteins control partially redundant pathways for telomere protection: the loss of ATM leads to the fusion of some telomeres, whereas the loss of both ATM and ATR renders all telomeres susceptible to fusion.

dSAP18 and dHDAC1 contribute to the functional regulation of the Drosophila Fab-7 element.

It was described earlier that the Drosophila GAGA factor [Trithorax-like (Trl)] interacts with dSAP18, which, in mammals, was reported to be a component of the Sin3-HDAC co-repressor complex. GAGA-dSAP18 interaction was proposed to contribute to the functional regulation of the bithorax complex (BX-C). Here, we show that mutant alleles of Trl, dsap18 and drpd3/hdac1 enhance A6-to-A5 transformation indicating a contribution to the regulation of Abd-B expression at A6.

Heterochromatic distribution of HeT-A- and TART-like sequences in several Drosophila species.

Drosophila melanogaster telomeres contain arrays of two non-LTR retrotransposons called HeT-A and TART. Previous studies have shown that HeT-A- and TART-like sequences are also located at non-telomeric sites in the Y chromosome heterochromatin. By in situ hybridization experiments, we mapped TART sequences in the h16 region of the long arm close to the centromere of the Y chromosome of D.