Regulated Ran-binding protein 1 activity is required for organization and function of the mitotic spindle in mammalian cells in vivo.

Ran-binding protein (RanBP) 1 is a major regulator of the Ran GTPase and is encoded by a regulatory target gene of E2F factors. The Ran GTPase network controls several cellular processes, including nucleocytoplasmic transport and cell cycle progression, and has recently also been shown to regulate microtubule nucleation and spindle assembly in Xenopus oocyte extracts. Here we report that RanBP1 protein levels are cell cycle regulated in mammalian cells, increase from S phase to M phase, peak in metaphase, and abruptly decline in late telophase. Overexpression of RanBP1 throughout the cell cycle yields abnormal mitoses characterized by severe defects in spindle polarization. In addition, microinjection of anti-RanBP1 antibody in mitotic cells induces mitotic delay and abnormal nuclear division, reflecting an abnormal stabilization of the mitotic spindle. Thus, regulated RanBP1 activity is required for proper execution of mitosis in somatic cells.     

Yersinia pseudotubetculosis in Italy. Attempted Recovery from 37,666 Samples

From 1981 to 1991, 37,666 human, animal, food and environmental samples were cultured for Yersinia pseudotuberculosis using direct plating methods and/or cold enhancement techniques. Despite an intensive surveillance and adequate culture methods, Y. pseudotuberculosis was isolated from stools of 0.05% (5/9,720) of patients with acute enteritis, and alimentary tracts of 0.1% (10/6,849) of apparently healthy animals. No Y. pseudotuberculosis strains were recovered from stools of 4,726 healthy controls nor from the appendices (656), mesenteric lymph nodes (84), and stools (421) of 656 patients operated for suspected appendicitis. Of the 10,842 food and 4,368 environmental samples, none yielded positive cultures for Y. pseudotuberculosis.     

Tomato and barley contain duplicated copies of cryptochrome 1

The cryptochrome family of blue‐light photoreceptors is involved in the control of plant photomorphogenesis and photoperiodic responses. Two cryptochromes have been described in Arabidopsis and tomato. To investigate the composition of the cryptochrome gene family in angiosperms, we used a ‘garden PCR’ approach, amplifying DNA from different plant species with the same pair of degenerated oligonucleotides representing conserved sequences from the flavin‐binding domain. Different numbers of Cry‐homologous sequences were found in different species: two each in Arabidopsis (Dicots, Brassicaceae), melon (Dicots, Cucurbitaceae) and banana tree (Monocots, Musaceae); three each in tomato (Dicots, Solanaceae) and barley (Monocots, Graminaceae). These sequences contain open reading frames (OFRs) with high homology to cryptochromes, but not photolyases, and are transcribed into RNA. In each case, a Cry1‐ and a Cry2‐like sequence was recognizable. The third gene of tomato and barley seems to have arisen from recent, independent duplications of Cry1, and was thus named Cry1b. The tomato Cry1b gene encodes a protein of 583 amino acids (the shortest of the three tomato cryptochromes), with a high similarity to Cry1. The C‐terminus of Cry1b is truncated before the conserved Ser‐Thr‐Ala‐Glu‐Ser‐Ser‐Ser (STAESSS) motif found in both Cry1a and Cry2. The Cry1b mRNA is expressed throughout the tomato plant, reaching maximal levels of expression in the flower (like Cry1a and Cry2). We conclude that tomato and barley contain at least one additional expressed member of the Cry1 gene family.     

Fractional Ca(2+) current through human neuronal alpha7 nicotinic acetylcholine receptors

The neuronal alpha7 nicotinic acetylcholine (ACh) receptor is believed to be a highly Ca(2+) permeable ligand-gated receptor-channel. However, the contribution of Ca(2+) to cationic current generated by ACh has not yet been directly measured to date. Simultaneous fluorescence and whole-cell current measurements using the Ca(2+) indicator dye fura-2 were made in GH4C1 pituitary cells stably expressing human alpha7 receptors and the fractional Ca(2+) current (the proportion of whole-cell current carried by Ca(2+); P(f)) was determined. We report that the P(f) value was 11.4+/-1.3%. This value was significantly larger than P(f) of human L248Talpha7 receptor mutant (P(f)=6.3+/-1.0%) and of rat alpha7 receptor (P(f)=8.8+/-1.5%) both determined in transiently transfected GH4C1 cells. In our knowledge, the findings here reported indicate the human alpha7 receptors are the most Ca(2+) conductive homomeric ligand-gated receptor-channels expressed in a heterologous cell system.     

The TP73 Gene Polymorphism (rs4648551, A>G) Is Associated with Diminished Ovarian Reserve

It’s known that the members of the TP53 family are involved in the regulation of female reproduction. Studies in mice showed that the TP73 gene (member of this family) plays a role in the size of follicular pool, ovulation rate and maintenance of genomic stability. In the present study we analyzed data from 605 patients with ≤ 37 years attending their first intracytoplasmic sperm injection (ICSI). The association between the TP73 polymorphism (rs4648551, A>G) and the following parameters related to ovarian reserve, like age, antral follicular count (AFC), anti-Mullerian hormone levels (AMH) and ovarian response prediction index (ORPI) was evaluated. Our results showed an association of the AA genotype with diminished ovarian reserve (AMH <1, AFC ≤9). Women presenting the AA genotype had a 2.0-fold increased risk for having AMH <1 and AFC ≤9 (OR 2.0, 95% CI 1.23-3.31, P = 0.005). Patients presenting AA genotype had the lowest levels of AMH (P = 0.02), the lowest number of antral follicles (P = 0.01) and the lowest ORPI (P = 0.007). Analyzing the alleles, we can see an enrichment of the A allele in the group of diminished ovarian reserve (OR 1.4, 95%CI 1.02-1.83, P = 0.04). To the best of our knowledge, the present study is the first to analyze this polymorphism in humans for assessing the numbers of ovarian follicles and AMH levels and, therefore, the ovarian reserve. Our findings can contribute to the use of this polymorphism as a potential marker of diminished ovarian reserve.     

Restriction fragment length polymorphisms of type I collagen locus 2 (COL1A2) in two communities of African ancestry and other mixed populations of northwestern Ecuador

Restriction fragment length polymorphisms are good anthropological markers for discriminating geographically distinct populations at both the allele and the haplotype level. Two communities of African ancestry and ladinos, mestizos, and mulattoes living in the Esmeraldas province in northwestern Ecuador were analyzed for three RFLPs (EcoRI, RsaI, and MspI) of the COL1A2 gene. Also, the same markers were studied in a population sample from Spain to compare the allele and haplotype frequencies of the Esmeraldas populations with those of their representative European parental population. Data for the native American and sub-Saharan African founder components were available from the literature. No significant levels of differentiation between the two African Ecuadoran communities emerged from either the frequency analysis of each single marker and all three RFLP markers together or from the AMOVA. The ladinos and mestizos also showed a rather similar distribution of allele and haplotype frequencies, confirming that the two ethnic terms do not correspond to genetically different populations. The comparison with the supposed founding European, sub-Saharan African, and native American populations indicated a large presence of African genes in the gene pool of both communities, with a higher proportion of the Amerindian component in Viche than in Rio Cayapas. The present findings confirm the previous genetic admixture estimates based on nuclear and mitochondrial DNA markers and the demographic data.