KNO1-mediated autophagic degradation of the Bloom syndrome complex component RMI1 promotes homologous recombination.

Homologous recombination (HR) is a key DNA damage repair pathway that is tightly adjusted to the state of a cell. A central regulator of homologous recombination is the conserved helicase-containing Bloom syndrome complex, renowned for its crucial role in maintaining genome integrity. Here, we show that in Arabidopsis thaliana, Bloom complex activity is controlled by selective autophagy.

ZYP1-mediated recruitment of PCH2 to the synaptonemal complex remodels the chromosome axis leading to crossover restriction.

Chromosome axis-associated HORMA domain proteins (HORMADs), e.g. ASY1 in Arabidopsis, are crucial for meiotic recombination.

Molecular convergence by differential domain acquisition is a hallmark of chromosomal passenger complex evolution.

The chromosomal passenger complex (CPC) is a heterotetrameric regulator of eukaryotic cell division, consisting of an Aurora-type kinase and a scaffold built of INCENP, Borealin, and Survivin. While most CPC components are conserved across eukaryotes, orthologs of the chromatin reader Survivin have previously only been found in animals and fungi, raising the question of how its essential role is carried out in other eukaryotes. By characterizing proteins that bind to the Borealin ortholog, we identified BOREALIN RELATED INTERACTOR 1 and 2 (BORI1 and BORI2) as redundant Survivin-like proteins in the context of the CPC in plants.

B1-type cyclins control microtubule organization during cell division in Arabidopsis.

Flowering plants contain a large number of cyclin families, each containing multiple members, most of which have not been characterized to date. Here, we analyzed the role of the B1 subclass of mitotic cyclins in cell cycle control during Arabidopsis development. While we reveal CYCB1;5 to be a pseudogene, the remaining four members were found to be expressed in dividing cells.

[Quality of life for wearers of a suprapubic or transurethral bladder catheter as lifelong permanent care].

Background: The insertion of a Foley catheter (FC) or a suprapubic catheter (SPC) in lifelong intent is an intervention with significant complications, comorbidities and impact on the further life that has not yet been analyzed.

Methodology: The analysis was based on a validated assessment of catheter-related QoL with 25 items in 5 domains and applied to patients with a Foley or suprapubic catheter in lifelong indication and with the catheter in place for at least 3 months. Assessment data were enriched with information on the type and diameter of the catheter as well as demographic data.

The DREAM complex represses growth in response to DNA damage in .

The DNA of all organisms is constantly damaged by physiological processes and environmental conditions. Upon persistent damage, plant growth and cell proliferation are reduced. Based on previous findings that RBR1, the only Arabidopsis homolog of the mammalian tumor suppressor gene retinoblastoma, plays a key role in the DNA damage response in plants, we unravel here the network of RBR1 interactors under DNA stress conditions.

[Adverse drug reaction affecting the urinary tract - the Witten urinary tract adverse reaction score].

The urinary tract is the site of many adverse drug reactions, including the formation of residual urine, urinary retention, pollakisuria, polyuria, nycturia, detrusor stimulation, detrusor inhibition, haematuria, dysuria and other symptoms. Nevertheless, there is no general overview or evaluation of the substances that can trigger these adverse drug reactions. The available lists of "potential inadequate medication" either focus on a pharmacological group of adverse reactions ("anticholinergic burden score"), a group of drugs for a specific indication (LUTS-Forta) or on a selected group of patients (PRISKUS List, Beers List).

Functional Analysis of the Plant Chromosomal Passenger Complex.

The Aurora B kinase, encoded by the () gene in Arabidopsis (), is a key regulator of cell division in all eukaryotes. Aurora B has at least two central functions during cell division; it is essential for the correct, i.e.

[Preoperative PSA levels and development of PSA after 180-W XPS greenlight laser treatment of the prostate: what is the reality in clinical routine practice?].

Introduction:  The aim of this retrospective study was to evaluate preoperative levels of PSA (prostate-specific antigen) and the postoperative development after 180-W XPS™ greenlight laser treatment of the prostate under real-world conditions.

Method:  Preoperative PSA levels were evaluated in 749 patients undergoing a 180-W XPS greenlight laser procedure from 2012 to 2017 in Witten, Germany, in relation to age, volume of the prostate, urinary tract infection, Foley catheter and co-morbidities. The postoperative development of PSA was identified by retrieving PSA levels from general practitioners or urologists.

Genome-wide identification of RETINOBLASTOMA RELATED 1 binding sites in Arabidopsis reveals novel DNA damage regulators.

Retinoblastoma (pRb) is a multifunctional regulator, which was likely present in the last common ancestor of all eukaryotes. The Arabidopsis pRb homolog RETINOBLASTOMA RELATED 1 (RBR1), similar to its animal counterparts, controls not only cell proliferation but is also implicated in developmental decisions, stress responses and maintenance of genome integrity. Although most functions of pRb-type proteins involve chromatin association, a genome-wide understanding of RBR1 binding sites in Arabidopsis is still missing.

DNA methylation dynamics during early plant life.

Background: Cytosine methylation is crucial for gene regulation and silencing of transposable elements in mammals and plants. While this epigenetic mark is extensively reprogrammed in the germline and early embryos of mammals, the extent to which DNA methylation is reset between generations in plants remains largely unknown.

Results: Using Arabidopsis as a model, we uncovered distinct DNA methylation dynamics over transposable element sequences during the early stages of plant development.

The retinoblastoma homolog RBR1 mediates localization of the repair protein RAD51 to DNA lesions in .

The retinoblastoma protein (Rb), which typically functions as a transcriptional repressor of E2F-regulated genes, represents a major control hub of the cell cycle. Here, we show that loss of the Rb homolog RETINOBLASTOMA-RELATED 1 (RBR1) leads to cell death, especially upon exposure to genotoxic drugs such as the environmental toxin aluminum. While cell death can be suppressed by reduced cell-proliferation rates, mutant cells exhibit elevated levels of DNA lesions, indicating a direct role of RBR1 in the DNA-damage response (DDR).

Polycomb repressive complex 2 controls the embryo-to-seedling phase transition.

Polycomb repressive complex 2 (PRC2) is a key regulator of epigenetic states catalyzing histone H3 lysine 27 trimethylation (H3K27me3), a repressive chromatin mark. PRC2 composition is conserved from humans to plants, but the function of PRC2 during the early stage of plant life is unclear beyond the fact that it is required for the development of endosperm, a nutritive tissue that supports embryo growth. Circumventing the requirement of PRC2 in endosperm allowed us to generate viable homozygous null mutants for FERTILIZATION INDEPENDENT ENDOSPERM (FIE), which is the single Arabidopsis homolog of Extra Sex Combs, an indispensable component of Drosophila and mammalian PRC2.

Genome-wide transcript profiling of endosperm without paternal contribution identifies parent-of-origin-dependent regulation of AGAMOUS-LIKE36.

Seed development in angiosperms is dependent on the interplay among different transcriptional programs operating in the embryo, the endosperm, and the maternally-derived seed coat. In angiosperms, the embryo and the endosperm are products of double fertilization during which the two pollen sperm cells fuse with the egg cell and the central cell of the female gametophyte. In Arabidopsis, analyses of mutants in the cell-cycle regulator CYCLIN DEPENDENT KINASE A;1 (CKDA;1) have revealed the importance of a paternal genome for the effective development of the endosperm and ultimately the seed.

Functional characterization of the KNOLLE-interacting t-SNARE AtSNAP33 and its role in plant cytokinesis.

Cytokinesis requires membrane fusion during cleavage-furrow ingression in animals and cell plate formation in plants. In Arabidopsis, the Sec1 homologue KEULE (KEU) and the cytokinesis-specific syntaxin KNOLLE (KN) cooperate to promote vesicle fusion in the cell division plane. Here, we characterize AtSNAP33, an Arabidopsis homologue of the t-SNARE SNAP25, that was identified as a KN interactor in a yeast two-hybrid screen.

Cytokinesis in flowering plants: cellular process and developmental integration.

In phragmoplast-assisted cytokinesis of somatic cells, vesicle fusion generates a cell plate that matures into a new cell wall and its flanking plasma membranes. Insight into this dynamic process has been gained in the past few years and additional molecular components of the basic machinery of cytokinesis have been identified. Specialized modes of cytokinesis occur in meiosis and gametophyte development, and recent studies indicate that they are genetically distinct from somatic cytokinesis.

Compartmentation of hepatic fatty-acid-binding protein in liver cells and its effect on microsomal phosphatidic acid biosynthesis.

Fatty-acid-binding proteins are known to occur in the cytosol of mammalian cells and to bind fatty acids and their CoA-esters. Application of the postembedding protein A-gold labeling method with antibody against the hepatic type fatty-acid-binding protein (hFABP) to cross-sections of liver cells and a newly developed gel-chromatographic immunofluorescence assay established qualitatively (1) that hFABP in mitochondria was confined to outer mitochondrial membranes, (2) the presence of this protein in microsomes and (3) that nuclei were also filled with hFABP. Quantitative data elaborated with a non-competitive ELISA confirmed these results.