Distinguishing characteristics of hyperrecombinogenic RecA protein from Pseudomonas aeruginosa acting in Escherichia coli

In Escherichia coli, a relatively low frequency of recombination exchanges (FRE) is predetermined by the activity of RecA protein, as modulated by a complex regulatory program involving both autoregulation and other factors. The RecA protein of Pseudomonas aeruginosa (RecA(Pa)) exhibits a more robust recombinase activity than its E. coli counterpart (RecA(Ec)). Low-level expression of RecA(Pa) in E. coli cells results in hyperrecombination (an increase of FRE) even in the presence of RecA(Ec). This genetic effect is supported by the biochemical finding that the RecA(Pa) protein is more efficient in filament formation than RecA K72R, a mutant protein with RecA(Ec)-like DNA-binding ability. Expression of RecA(Pa) also partially suppresses the effects of recF, recO, and recR mutations. In concordance with the latter, RecA(Pa) filaments initiate recombination equally from both the 5' and 3' ends. Besides, these filaments exhibit more resistance to disassembly from the 5' ends that makes the ends potentially appropriate for initiation of strand exchange. These comparative genetic and biochemical characteristics reveal that multiple levels are used by bacteria for a programmed regulation of their recombination activities.     

Plasma Transglutaminase in Hypertrophic Chondrocytes: Expression and Cell-specific Intracellular Activation Produce Cell Death and Externalization

We previously used subtractive hybridization to isolate cDNAs for genes upregulated in chick hypertrophic chondrocytes (Nurminskaya, M., and T.F. Linsenmayer. 1996. Dev. Dyn. 206:260–271). Certain of these showed homology with the “A” subunit of human plasma transglutaminase (factor XIIIA), a member of a family of enzymes that cross-link a variety of intracellular and matrix molecules. We now have isolated a full-length cDNA for this molecule, and confirmed that it is avian factor XIIIA. Northern and enzymatic analyses confirm that the molecule is upregulated in hypertrophic chondrocytes (as much as eightfold). The enzymatic analyses also show that appreciable transglutaminase activity in the hypertrophic zone becomes externalized into the extracellular matrix. This externalization most likely is effected by cell death and subsequent lysis—effected by the transglutaminase itself. When hypertrophic chondrocytes are transfected with a cDNA construct encoding the zymogen of factor XIIIA, the cells convert the translated protein to a lower molecular weight form, and they initiate cell death, become permeable to macromolecules and eventually undergo lysis. Non-hypertrophic cells transfected with the same construct do not show these degenerative changes. These results suggest that hypertrophic chondrocytes have a novel, tissue-specific cascade of mechanisms that upregulate the synthesis of plasma transglutaminase and activate its zymogen. This produces autocatalytic cell death, externalization of the enzyme, and presumably cross-linking of components within the hypertrophic matrix. These changes may in turn regulate the removal and/or calcification of this hypertrophic matrix, which are its ultimate fates.     

Biocompatible fluorescent nanocrystals for immunolabeling of membrane proteins and cells

A methodology for simple convenient preparation of bright, negatively or positively charged, water-soluble CdSe/ZnS core/shell nanocrystals (NCs) and their stabilization in aqueous solution is described. Single NCs can be detected using a standard epifluorescent microscope, ensuring a detection limit of one molecule coupled with an NC. NCs solubilized in water by DL-Cys were stabilized, to avoid aggregation, by poly(allylamine) and conjugated with polyclonal anti-mouse antibodies (Abs). NC-Abs conjugates were tested in dot-blots and exhibited retention of binding capacity within several nanograms of antigen detected. We further demonstrated the advantages of NC-Abs conjugates in the immunofluorescent detection and three-dimensional (3D) confocal analysis of p-glycoprotein (p-gp), one of the main mediators of the MDR phenotype, overexpressed in the membrane of MCF7r breast adenocarcinoma cells. Immunolabeling of p-gp with NC-Abs conjugates was 4200-, 2600-, and 420-fold more resistant to photobleaching than its labeling with fluorescein isothiocyanate-Abs, R-phycoerythrin-Abs, and AlexaFluor488-Abs, respectively. The labeling of p-gp with NC-Abs conjugates was highly specific, and the data were used for confocal reconstruction of 3D images of the p-gp distribution in the MCF7r cell membrane. Finally, we demonstrated the applicability of NC-Abs conjugates obtained by the method described to specific detection of antigens in paraffin-embedded formaldehyde-fixed cancer tissue specimens, using immunostaining of cytokeratin in skin basal carcinoma as an example. We conclude that the NC-Abs conjugates may serve as easy-to-do, highly sensitive, photostable labels for immunofluorescent analysis, immunohistochemical detection, and 3D confocal studies of membrane proteins and cells.     

Semi-continuum electrostatic calculations of redox potentials in photosystem I

The midpoint redox potentials (E(m)) of all cofactors in photosystem I from Synechococcus elongatus as well as of the iron-sulfur (Fe(4)S(4)) clusters in two soluble ferredoxins from Azotobacter vinelandii and Clostridium acidiurici were calculated within the framework of a semi-continuum dielectric approach. The widely used treatment of proteins as uniform media with single dielectric permittivity is oversimplified, particularly, because permanent charges are considered both as a source for intraprotein electric field and as a part of dielectric polarizability. Our approach overcomes this inconsistency by using two dielectric constants: optical epsilon(o)=2.5 for permanent charges pre-existing in crystal structure, and static epsilon(s) for newly formed charges. We also take into account a substantial dielectric heterogeneity of photosystem I revealed by photoelectric measurements and a liquid junction potential correction for E(m) values of relevant redox cofactors measured in aprotic solvents. We show that calculations based on a single permittivity have the discrepancy with experimental data larger than 0.7 V, whereas E(m) values calculated within our approach fall in the range of experimental estimates. The electrostatic analysis combined with quantum chemistry calculations shows that (i) the energy decrease upon chlorophyll dimerization is essential for the downhill mode of primary charge separation between the special pair P(700) and the primary acceptor A(0); (ii) the primary donor is apparently P(700) but not a pair of accessory chlorophylls; (iii) the electron transfer from the A branch quinone Q(A) to the iron-sulfur cluster F(X) is most probably downhill, whereas that from the B branch quinone Q(B) to F(X) is essentially downhill.     

1,8-Anilinonaphthalene sulfonate binds to central cavity of human hemoglobin

Binding of 1,8-anilinonaphthalene sulfonate (1,8-ANS) to main (HbA(1)) and glycosylated (HbA(1C)) forms of human oxyhemoglobin in the presence/absence of inositolhexaphosphate (IHP) in 50 mM potassium phosphate buffer, pH 7.4, was studied by time-correlated single photon counter with subnanosecond time resolution. The redistribution of contributions of the most long-lived and the most short-lived fluorescent decay components in the presence of IHP provides an evidence of the probe binding within oxyhemoglobin central cavity, namely DPG-binding site. Finally, it was shown that the fluorescent probe is extremely sensitive for hemoglobin central cavity modification, provided by the carbohydrate moiety in case of 1,8-ANS interactions with HbA(1C).     

Evolution of Neo-Sex Chromosomes in Silene diclinis

A small cluster of dioecious species in the plant genus Silene has evolved chromosomal sex determination and sex chromosomes relatively recently, within the last 10 million years (MY). Five dioecious Silene species (section Elisanthe) are very closely related (1–2 MY of divergence) and it was previously thought that all five have similar sex chromosomes. Here we demonstrate that in one of these species, Silene diclinis, the sex chromosomes have been significantly rearranged, resulting in the formation of neo-sex chromosomes. Fluorescence in situ hybridization with genic and repetitive probes revealed that in S. diclinis a reciprocal translocation has occurred between the ancestral Y chromosome and an autosome, resulting in chromosomes designated Y1 and Y2. Both Y1 and Y2 chromosomes are male specific. Y1 pairs with the X chromosome and with the autosome (the neo-X), which cosegregates with X. Y2 pairs only with the neo-X, forming a chain X-Y1-neo-X-Y2 in male meiosis. Despite very recent formation of the neo-sex chromosomes in S. diclinis, they are present in all surveyed individuals throughout the species range. Evolution of neo-sex chromosomes may be the cause of partial reproductive isolation of this species and could have been the isolating mechanism that drove speciation of S. diclinis.PAIRING of homologous chromosomes during meiosis, in the majority of diploid plants and animals, leads to the formation of bivalents at first metaphase and subsequently the correct segregation of the chromosomes. Chromosomal translocations that produce multivalents usually result in unbalanced segregation, which consequently affects fertility. However, chain or ring configurations appear to be stably inherited in some species. An extreme example is found in the plant genus Oenothera, where many species display a ring involving all 14 chromosomes (Cleland 1972). In animals these configurations may include sex chromosomes, resulting in the formation of multiple X and Y chromosomes. For example, the monotreme platypus possesses five X and five Y chromosomes that form a chain of alternating X and Y chromosomes in male meiosis (Bick and Sharman 1975; Gruetzner et al. 2006). Such chains are formed due to several interchromosomal translocation events, including sex chromosome–autosome translocations (Gruetzner et al. 2006). Since sex chromosomes are rare in plants, examples of plant sex-linked chromosome multiples have been reported on only a few occasions. A chain of four X and five Y has been identified in an East African mistletoe Viscum fischeri (Wiens and Barlow 1975) and a chain of two X and two Y has been found in Humulus lupulus ssp. cordifolius (Shephard et al. 2000). Trivalent formation comprising Y1 X Y2 has been observed both in H. japonicus (Shephard et al. 2000) and in a number of dioecious species in the genus Rumex (Cunado et al. 2007; Navajas-Perez et al. 2009). Here we report that the plant species Silene diclinis has multiple sex chromosomes that form a chain of four during meiosis metaphase I.S. diclinis is a member of a small group of dioecious species (having separate male and female plants) in section Elisanthe in the plant genus Silene (Caryophyllaceae). The other members of this group are S. latifolia, S. dioica, S. heuffelii, and S. marizii (Prentice 1978). The presence of large heteromorphic sex chromosomes in S. latifolia and S. dioica has been known for many years (Westergaard 1958). Due to the ease of cytogenetic identification of the sex chromosomes, the clear morphological difference between the sexes and the short generation time, S. latifolia was used in early genetic research concerning sex determination in plants. The male was shown to be the heterogametic sex (XY) with the larger Y chromosome having a decisive role in sex determination (Westergaard 1958). Since then, S. latifolia has become a species of choice for studies in plant genetics, ecology, and evolution (Bernasconi et al. 2009). It is particularly useful for studies of sex chromosome evolution because the sex chromosomes in Silene are of relatively recent origin compared to those of mammals (Charlesworth 2002; Ming and Moore 2007; Marais et al. 2008).Experimental crosses involving all five dioecious species in Silene section Elisanthe in various pairwise combinations have produced viable hybrids and, although some combinations were less successful than others, the formation of these hybrids suggests a close relationship within this group (Prentice 1978). This close relationship is also illustrated by DNA sequence comparisons that show that interspecific silent divergence between these species does not exceed 2%, which is comparable to intraspecific polymorphism in S. latifolia (Ironside and Filatov 2005). S. diclinis is a rare and restricted endemic, found only in Southern Valencia, Spain in an area smaller than 18 × 9 km (Prentice 1976; Montesinos et al. 2006). Of the other four Elisanthe species, only S. latifolia occurs in this region, and experimental crosses between these two species are the least successful (Prentice 1978). Hybrids between S. latifolia and S. dioica occur naturally in regions where their populations coincide (Baker 1948) but no natural hybrids of S. diclinis and S. latifolia have been reported.Cytogenetic analysis of S. diclinis has been limited. Examination of mitotic metaphase spreads in root tip squash preparations from adult male and female plants indicated that the male had one X and one Y chromosome. Both chromosomes were large but the difference between them was slight (van Nigtevecht and Prentice 1985). Regular pairing of chromosomes with 12 bivalents at metaphase I in pollen mother cells has been reported (Morisset and Bozman 1969). However, these observations were made without the benefit of a marker for the Y chromosome. Recently, sequences with homology to an Ogre retrotransposon have been isolated from S. latifolia and used as probes in fluorescence in situ hybridization (FISH) experiments on mitotic (Cermak et al. 2008) and both mitotic and meiotic (Filatov et al. 2009) chromosome spreads. The pattern of hybridization showed that these sequences are widespread over the X chromosome and all of the autosomes but are mainly confined to a small section at the pairing region of the Y chromosome in S. latifolia. Therefore, these probes “paint” all the chromosomes apart from the Y, providing a “negative paint” for the Y chromosome. By using one of these probes (clone 4.2) on meiotic spreads of S. dioica and S. marizii, we confirmed that these species have sex chromosomes similar to those of S. latifolia (Filatov et al. 2009). The X and Y formed a rod bivalent and the Y chromosome was larger than both the X and autosomes.In this article we report our FISH experiments with S. diclinis using the negative paint probe together with probes containing S. latifolia sex-linked gene sequences. We demonstrate that S. diclinis males have two Y chromosomes that differ in the distribution of the paint signal and these gene sequences. In meiotic metaphase I, one Y pairs with the X and an autosome while the second Y pairs with the other arm of this autosome, forming a chain of four chromosomes. We suggest that an autosome–Y reciprocal translocation was involved in the evolution of neo-sex chromosomes in this species.     

Universal nuclear domains of somatic and germ cells: some lessons from oocyte interchromatin granule cluster and Cajal body structure and molecular composition

It is now clear that two prominent nuclear domains, interchromatin granule clusters (IGCs) and Cajal bodies (CBs), contribute to the highly ordered organization of the extrachromosomal space of the cell nucleus. These functional domains represent structurally stable but highly dynamic nuclear organelles enriched in factors that are required for different nuclear activities, especially RNA biogenesis. IGCs are considered to be the main sites for storage, assembly, and/or recycling of the essential spliceosome components. CBs are involved in the biogenesis of several classes of small RNPs as well as the modification of newly assembled small nuclear RNA. We have summarized data on the molecular composition, structure, and functional roles of IGCs and CBs in the nuclei of mammalian somatic cells and oocytes of some animals with a special focus on insects. We have focused on similarities and differences between the IGCs and CBs of oocytes and the well‐studied CBs and IGCs of cultured mammalian somatic cells. We have shown the heterogeneous character of oocyte IGCs and CBs, both in structure and molecular content. We have also demonstrated the unique capacity of oocytes to form close structural interactions between IGC and CB components. We proposed to consider these joint structures as integrated entities, sharing the features of both IGCs and CBs.     

Orthologous gene-expression profiling in multi-species models: search for candidate genes

Microarray-driven gene-expression profiles are generally produced and analyzed for a single specific experimental model. We have assessed an analytical approach that simultaneously evaluates multi-species experimental models within a particular biological condition using orthologous genes as linkers for the various Affymetrix microarray platforms on multi-species models of ventilator-associated lung injury. The results suggest that this approach may be a useful tool in the evaluation of biological processes of interest and selection of process-related candidate genes.     

On the correct use of ‘data’

Acknowledgement  Thanks are due to Drs. Paul Johnston (P.Johnston@ exeter.ac.uk) and E. William Beese (ebeese@t-online.de) for kindly providing dictionary definitions and for sharing their thoughts about the correct use of ‘data’.