Alien Registration- Cloney, Edwin L. (Calais, Washington County)

https://digitalmaine.com/alien_docs/1208/thumbnail.jp

Expression of plant chaperonin-60 genes in Escherichia coli.

We have examined the expression in Escherichia coli of genes encoding a plant chloroplast molecular chaperone, chaperonin-60. Purified plant chaperonin-60 is distinct in that it contains two polypeptides, p60cpn-60 alpha and p60cpn-60 beta, which have divergent amino acid sequences (Hemmingsen, S. M., and Ellis, R. J. (1986) Plant Physiol. 80, 269-276; Martel, R., Cloney, L. P., Pelcher, L. E., and Hemmingsen, S. M. (1990) Gene (Amst.) 94, 181-187). The precise polypeptide composition(s) of the active tetradecameric specie(s) (cpn60(14)) has not been determined. Genes encoding the mature forms of the Brassica napus chaperonin polypeptides have been expressed separately and in combination in E. coli to produce three novel strains: alpha, beta, and alpha beta. The plant cpn60 polypeptides accumulated in soluble forms and to similar high levels in each. There was no conclusive evidence that p60cpn-60 alpha assembled into cpn60(14) species in alpha cells. In beta and alpha beta cells, the plant gene products assembled efficiently into cpn60(14) species. Thus, the assembly of p60cpn-60 alpha required the presence of p60cpn-60 beta, whereas the assembly of p60cpn-60 beta could occur in the absence of p60cpn-60 alpha. Significant proportions of the endogenous groEL polypeptides were not assembled into tetradecameric groEL14 in beta and alpha beta cells. Analysis of the tetradecameric species that did form indicated the presence of novel hybrid cpn6014 species that contained both plant and bacterial cpn60 polypeptides

Assessment of plant chaperonin-60 gene function in Escherichia coli.

Brassica napus chaperonin-60 alpha and chaperonin-60 beta genes expressed separately and in combination produce three novel Escherichia coli strains: alpha, beta, and alpha beta. In beta and alpha beta cells, the plant gene products assemble efficiently into tetradecameric cpn60(14) species, including novel hybrids containing both bacterial and plant gene products. The levels of authentic groEL14 are reduced in these cells (Cloney, L. P., Wu, H. B., and Hemmingsen, S. M. (1992) J. Biol. Chem. 267, 23327-23332). The assembly of cyanobacterial ribulose-P2 carboxylase (rubisco) in E. coli requires the activities of the endogenous chaperonin proteins. Furthermore, the extent to which assembly occurs is limited by the normal levels of expression of the groE operon (Goloubinoff, P., Gatenby, A. A., and Lorimer, G. H. (1989) Nature 337, 44-47). We have now monitored the accumulation of cyanobacterial rubisco in E. coli alpha, beta, and alpha beta cells to assess the activity of the plant cpn60 gene products and effects on endogenous chaperonin functions. Expression of cpn-60 alpha alone did not enhance rubisco assembly, which is consistent with our previous observation that p60cpn-60 alpha required the presence of p60cpn-60 beta for assembly into cpn60(14) species. In contrast, expression of cpn-60 beta alone resulted in markedly enhanced rubisco assembly in cells that accumulated normal levels of both endogenous chaperonin polypeptides (groEL and groES). This demonstrates that assembled p60cpn-60 beta is functional as a chaperonin in E. coli. Co-expression of cpn-60 alpha and cpn-60 beta in cells with normal levels of expression of groES and groEL suppressed rubisco assembly. Increased expression of groES in cells in which cpn-60 alpha and cpn-60 beta were co-expressed relieved this suppression and resulted in enhanced rubisco assembly. Implications with respect to dependence of chloroplast cpn60 function on cpn10 are discussed

BAF180 promotes cohesion and prevents genome instability and aneuploidy

BAF180, a subunit of the PBAF chromatin remodeling complex, is frequently mutated in cancer. Although PBAF regulates transcription, it remains unclear whether this is what drives tumorigenesis in cells lacking BAF180. Based on data from yeast, we hypothesized that BAF180 may prevent tumorigenesis by promoting cohesion. Here, we show BAF180 is required for centromeric cohesion in mouse and human cells. Mutations identified in tumor samples are unable to support this activity, and also compromise cohesion-dependent functions in yeast. We provide evidence of genome instability in line with loss of cohesion, and importantly, we find dynamic chromosome instability following DNA damage in cells lacking BAF180. These data demonstrate a function for BAF180 in promoting genome stability that is distinct from its well-characterized role in transcriptional regulation, uncovering a potent mechanism for its tumor-suppressor activity

Changes in reflectin protein phosphorylation are associated with dynamic iridescence in squid

Author Posting. © The Author(s), 2009. This is the author's version of the work. It is posted here by permission of The Royal Society for personal use, not for redistribution. The definitive version was published in Journal of The Royal Society Interface 6 (2010): 549-560, doi:10.1098/rsif.2009.0299.Many cephalopods exhibit remarkable dermal iridescence, a component of their complex, dynamic camouflage and communication. In the species Euprymna scolopes, the light-organ iridescence is static and is due to reflectin protein-based platelets assembled into lamellar thin-film reflectors called iridosomes, contained within iridescent cells called iridocytes. Squid in the family Loliginidae appear to be unique in that the dermis possesses a dynamic iridescent component, with reflective, colored structures that are assembled and disassembled under the control of the muscarinic cholinergic system and the associated neurotransmitter acetylcholine (Mathger et al. 2004). Here we present the sequences and characterization of three new members of the reflectin family associated with the dynamically changeable iridescence in Loligo and not found in static Euprymna iridophores. In addition, we show that application of genistein, a protein tyrosine kinase inhibitor, suppresses acetylcholine- and calcium-induced iridescence in Loligo. We further demonstrate that two of these novel reflectins are extensively phosphorylated in concert with the activation of iridescence by exogenous acetylcholine. This phosphorylation and the correlated iridescence can be blocked with genistein. Our results suggest that tyrosine phosphorylation of reflectin proteins is involved in the regulation of dynamic iridescence in Loligo.We gratefully acknowledge support from Anteon contract F33615-03-D-5408 to the Marine Biological Laboratory, Woods Hole, MA and grant # W911NF-06-1-0285 from the Army Research Office to D.E.M

Initial characteristics of RbcX proteins from Arabidopsis thaliana

Form I of Rubisco (ribulose-1,5-bisphosphate carboxylase/oxygenase) is composed of eight large (RbcL) and eight small (RbcS) subunits. Assembly of these subunits into a functional holoenzyme requires the assistance of additional assembly factors. One such factor is RbcX, which has been demonstrated to act as a chaperone in the assembly of most cyanobacterial Rubisco complexes expressed in heterologous system established in Escherichia coli cells. Analysis of Arabidopsis thaliana genomic sequence revealed the presence of two genes encoding putative homologues of cyanobacterial RbcX protein: AtRbcX1 (At4G04330) and AtRbcX2 (At5G19855). In general, both RbcX homologues seem to have the same function which is chaperone activity during Rubisco biogenesis. However, detailed analysis revealed slight differences between them. AtRbcX2 is localized in the stromal fraction of chloroplasts whereas AtRbcX1 was found in the insoluble fraction corresponding with thylakoid membranes. Search for putative “partners” using mass spectrometry analysis suggested that apart from binding to RbcL, AtRbcX1 may also interact with β subunit of chloroplast ATP synthase. Quantitative RT-PCR analysis of AtRbcX1 and AtRbcX2 expression under various stress conditions indicated that AtRbcX2 is transcribed at a relatively stable level, while the transcription level of AtRbcX1 varies significantly. In addition, we present the attempts to elucidate the secondary structure of AtRbcX proteins using CD spectroscopy. Presented results are the first known approach to elucidate the role of RbcX proteins in Rubisco assembly in higher plants

Directing the evolution of Rubisco and Rubisco activase: first impressions of a new tool for photosynthesis research

During the last decade the practice of laboratory-directed protein evolution has become firmly established as a versatile tool in biochemical research by enabling molecular evolution toward desirable phenotypes or detection of novel structure–function interactions. Applications of this technique in the field of photosynthesis research are still in their infancy, but recently first steps have been reported in the directed evolution of the CO2-fixing enzyme Rubisco and its helper protein Rubisco activase. Here we summarize directed protein evolution strategies and review the progressive advances that have been made to develop and apply suitable selection systems for screening mutant forms of these enzymes that improve the fitness of the host organism. The goal of increasing photosynthetic efficiency of plants by improving the kinetics of Rubisco has been a long-term goal scoring modest successes. We discuss how directed evolution methodologies may one day be able to circumvent the problems encountered during this venture

Evaluation of appendicitis risk prediction models in adults with suspected appendicitis

Background Appendicitis is the most common general surgical emergency worldwide, but its diagnosis remains challenging. The aim of this study was to determine whether existing risk prediction models can reliably identify patients presenting to hospital in the UK with acute right iliac fossa (RIF) pain who are at low risk of appendicitis. Methods A systematic search was completed to identify all existing appendicitis risk prediction models. Models were validated using UK data from an international prospective cohort study that captured consecutive patients aged 16–45 years presenting to hospital with acute RIF in March to June 2017. The main outcome was best achievable model specificity (proportion of patients who did not have appendicitis correctly classified as low risk) whilst maintaining a failure rate below 5 per cent (proportion of patients identified as low risk who actually had appendicitis). Results Some 5345 patients across 154 UK hospitals were identified, of which two‐thirds (3613 of 5345, 67·6 per cent) were women. Women were more than twice as likely to undergo surgery with removal of a histologically normal appendix (272 of 964, 28·2 per cent) than men (120 of 993, 12·1 per cent) (relative risk 2·33, 95 per cent c.i. 1·92 to 2·84; P < 0·001). Of 15 validated risk prediction models, the Adult Appendicitis Score performed best (cut‐off score 8 or less, specificity 63·1 per cent, failure rate 3·7 per cent). The Appendicitis Inflammatory Response Score performed best for men (cut‐off score 2 or less, specificity 24·7 per cent, failure rate 2·4 per cent). Conclusion Women in the UK had a disproportionate risk of admission without surgical intervention and had high rates of normal appendicectomy. Risk prediction models to support shared decision‐making by identifying adults in the UK at low risk of appendicitis were identified

Gene expression: chemical synthesis and molecular cloning of a bacteriophage T5 (T5P25) early promoter.

A sixty base pair DNA duplex containing the nucleotide sequence of the bacteriophage T5 early (T5P25) promoter has been constructed using a combination of chemical synthesis and enzymatic methods. Subsequent to cloning into pBR322, the promoter has been demonstrated to be biologically active being capable of directing the efficient expression of genes under its control. This serves as a prototype for an approach to the study of the in vivo structure-function relationships and efficiency of promoters