Multiscale Hy3S: Hybrid stochastic simulation for supercomputers

Background

DNA copy number alterations are one of the main characteristics of the cancer cell karyotype and can contribute to the complex phenotype of these cells. These alterations can lead to gains in cellular oncogenes as well as losses in tumor suppressor genes and can span small intervals as well as involve entire chromosomes. The ability to accurately detect these changes is central to understanding how they impact the biology of the cell.

Results

We describe a novel algorithm called CARAT (Copy Number Analysis with Regression And Tree) that uses probe intensity information to infer copy number in an allele-specific manner from high density DNA oligonuceotide arrays designed to genotype over 100, 000 SNPs. Total and allele-specific copy number estimations using CARAT are independently evaluated for a subset of SNPs using quantitative PCR and allelic TaqMan reactions with several human breast cancer cell lines. The sensitivity and specificity of the algorithm are characterized using DNA samples containing differing numbers of X chromosomes as well as a test set of normal individuals. Results from the algorithm show a high degree of agreement with results from independent verification methods.

Conclusion

Overall, CARAT automatically detects regions with copy number variations and assigns a significance score to each alteration as well as generating allele-specific output. When coupled with SNP genotype calls from the same array, CARAT provides additional detail into the structure of genome wide alterations that can contribute to allelic imbalance.     

Towards a noninvasive anatomical and functional diagnostic work-up of patients with suspected coronary artery disease

Combining multidetector computed tomography and cardiovascular magnetic resonance imaging provides the clinician a strategy to comprehensively evaluate coronary morphology and function noninvasively. In the MARCC trial (Magnetic Resonance and CT in suspected CAD) a new noninvasive diagnostic work-up for patients with suspected coronary artery disease will be developed, involving the sequential use of both imaging techniques. (Neth Heart J 2010;18:270-3.)     

Reduced ethanol tolerance: One of the pleiotropic effects of the pep4.3 mutation in Saccharomyces cerevisiae

Yeast strains carrying the single nuclear mutation pep4.3 are deficient in the activity of a number of vacuolar hydrolases. This paper demonstrates that the pep4.3 mutation also renders yeast more sensitive to the growth inhibitory effects of ethanol. This sensitivity to ethanol is a temperature-conditional phenomenon and suggests some general effect of the pep4.3 mutation on yeast membranes.     

A proof of the DBRF-MEGN method, an algorithm for deducing minimum equivalent gene networks

Background

We previously developed the DBRF-MEGN (difference-based regulation finding-minimum equivalent gene network) method, which deduces the most parsimonious signed directed graphs (SDGs) consistent with expression profiles of single-gene deletion mutants. However, until the present study, we have not presented the details of the method's algorithm or a proof of the algorithm.

Results

We describe in detail the algorithm of the DBRF-MEGN method and prove that the algorithm deduces all of the exact solutions of the most parsimonious SDGs consistent with expression profiles of gene deletion mutants.

Conclusions

The DBRF-MEGN method provides all of the exact solutions of the most parsimonious SDGs consistent with expression profiles of gene deletion mutants.     

Purification,characterization, and cloning of the gene for a biodegradable plastic-degrading enzyme from Paraphoma-related fungal strain B47-9

Paraphoma-related fungal strain B47-9 secreted a biodegradable plastic (BP)-degrading enzyme which amounted to 68 % (w/w) of the total secreted proteins in a culture medium containing emulsified poly(butylene succinate-co-adipate) (PBSA) as sole carbon source. The gene for this enzyme was found to be composed of an open reading frame consisting of 681 nucleotides encoding 227 amino acids and two introns. Southern blot analysis showed that this gene exists as a single copy. The deduced amino acid sequence suggested that this enzyme belongs to the cutinase (E.C.3.1.1.74) family; thus, it was named P araphoma-related fungus cutinase-like enzyme (PCLE). It degraded various types of BP films, such as poly(butylene succinate), PBSA, poly(butylene adipate-co-terephthalate), poly(ε-caprolactone), and poly(dl-lactic acid). It has a molecular mass of 19.7 kDa, and an optimum pH and temperature for degradation of emulsified PBSA of 7.2 and 45 °C, respectively. Ca²⁺ ion at a concentration of about 1.0 mM markedly enhanced the degradation of emulsified PBSA.     

A special issue on DNA damage response and genome stability

A novel, cancer-fighting function was recently discovered for Smad ubiquitination regulatory factor 2 (Smurf2).     

Identification and characterization of SHI family genes from Brassica rapa L. ssp. pekinensis

SHI (short internodes) is a negative regulator of gibberellin-induced cell elongation. Extensive searches in the Brassica rapa genome allowed for the prediction of at least six different SHI-related genes on six chromosomes in the genome. Genome structural examination revealed that these genes had one intron each in their corresponding open reading frames. Protein structure comparisons using the CLUSTALW program and based on alignments of all BrSRS (B. r apa SHI-related sequence) proteins revealed broad conservation of the RING finger-like zinc finger and IGGH motifs. According to the phylogenetic relationship based on deduced amino acid sequences, the six BrSRS proteins were most closely related to Arabidopsis SRS (AtSRS) proteins; however, BrSRS proteins were dispersed in the phylogenetic tree. Semi-quantitative RT-PCR analysis indicated that the six BrSRS genes exhibited different expression patterns in various tissues and responded differently to growth phytohormones. The differences among the six BrSRS genes with respect to gene structure and expression pattern suggest that these genes may play diverse physiological roles in the developmental process of B. rapa.     

The balance of Polo-like kinase 1 in tumorigenesis

RBX1 (also known as ROC1) is a RING subunit of SCF (Skp1, Cullins, F-box proteins) E3 ubiquitin ligases, required for SCF to direct a timely degradation of diverse substrates, thereby regulating numerous cellular processes under both physiological and pathological conditions. Previous studies have shown that RBX1 is essential for growth in yeast, Caenorhabditis elegans and Drosophila. The role of RBX1 in mouse development and in regulation of cancer cell survival was unknown. Our recent work demonstrated that RBX1 is an essential gene for mouse embryogenesis, and targeted disruption of RBX1 causes embryonic lethality at E7.5 due to hypoproliferation as a result of p27 accumulation. We also showed that RBX1 is overexpressed in a number of human cancers, and siRNA silencing of RBX1 caused cancer cell death as a result of sequential induction of G2-M arrest, senescence and apoptosis. These findings reveal a physiological role of RBX1 during mouse development and a pathological role for the survival of human cancer cells. Differential outcomes between normal (growth arrest) and cancer cells (cell death) upon RBX1 disruption/silencing suggest RBX1 as a valid anticancer target. Comments on: Tan M, Davis SW, Saunders TL, Zhu Y, Sun Y. RBX1/ROC1 disruption results in early embryonic lethality due to proliferation failure, partially rescued by simultaneous loss of p27. Proc Natl Acad Sci USA. 2009; 106:6203–6208 Jia L, Soengas MS, Sun Y. ROC1/RBX1 E3 ubiquitin ligase silencing suppresses tumor cell growth via sequential induction of G2-M arrest, apoptosis, and senescence. Cancer Res. 2009; 69:4974–82     

GFT projection NMR for efficient 1H/13C sugar spin system identification in nucleic acids

A newly implemented G-matrix Fourier transform (GFT) (4,3)D HC(C)CH experiment is presented in conjunction with (4,3)D HCCH to efficiently identify ¹H/¹³C sugar spin systems in ¹³C labeled nucleic acids. This experiment enables rapid collection of highly resolved relay 4D HC(C)CH spectral information, that is, shift correlations of ¹³C?C¹H groups separated by two carbon bonds. For RNA, (4,3)D HC(C)CH takes advantage of the comparably favorable 1??- and 3??-CH signal dispersion for complete spin system identification including 5??-CH. The (4,3)D HC(C)CH/HCCH based strategy is exemplified for the 30-nucleotide 3??-untranslated region of the pre-mRNA of human U1A protein.     

The isolation and identification of some toxic constituents ofAspergillus wentii wehmer

Extraction of a maize culture of a toxinogenic strain ofA. wentii led to the isolation and characterization of three anthraquinones, three bianthrones, a xanthone and a benzophenone. The structures were derived from spectroscopic data and were supported by chemical degradation. Of these, emodin, 1,6-di-0-methylemodin, 5-0-methylsulochrine and 1,3-di-0-methylemodin bianthrone were mildly toxic to ducklings.     

Molecular characterization of soybean GmDjp1 encoding a type III J-protein induced by abiotic stress

Heat stress severely affects plant growth and development causing crop loss worldwide. Classical type I DnaJ proteins (also called as J-proteins, J-domain proteins or HSP40 proteins) function as molecular co-chaperones for the HSP70 proteins. In this study, we have cloned and characterized a novel gene GmDjp1 (G lycine m ax DnaJ protein 1) encoding a type III J-protein of which function has not been identified in plant. Deduced amino acid sequences of GmDjp1 show the highest homology with a J-protein from Medicago truncatula legume plant (83 %) and with Arabidopsis thaliana type III J-class proteins, atDjC53 (77 %) and atDjC32 (50 %). DNA blot analysis revealed that GmDjp1 exists as a 2-copy gene in soybean genome. GmDjp1 mRNA was induced by a broad spectrum of abiotic stresses, including wounding, heat-shock, dehydration, cold or high-salinity stress, suggesting its role in the signaling events in the abiotic stress-related defense response. Subcellular localization studies demonstrated that the GmDjp1-GFP fusion protein was localized in the nucleus. Differential RNA expression of GmDjp1 by heat-shock stress inspired us to test heat-shock tolerance of GmDjp1in E. coli. Heterologous expression of GmDjp1 conferred tolerance to high temperature stress in E. coli. This report provides strong evidence that GmDjp1 may play a critical role during heat-shock stress in cell.     

The self-incompatibility mating system of the olive (Olea europaea L.) functions with dominance between S-alleles

The self-incompatibility type is of key importance to understanding pollination in orchards, because most olive cultivars are partially self-incompatible and thus require pollinizers to ensure fruit set. The gametophytic model has been advocated to function in the olive, but no allele pair has been attributed to any variety. The GSI model failed in most combinations to explain fruit set. Olive growers must screen experimentally and empirically to look for inter-compatible pair-wise combinations of varieties for optimum pollination. The sporophytic model, with given dominance relationships for six S-alleles matches 98 % of the experimental data of the two sets investigated. We propose a method to analyze data from controlled crosses between olive cultivars applied to two experiments for varieties crossed in a diallel design. Furthermore, the dominance between the S-allele pair allows rational prediction of olive variety self-incompatibility levels. The S-allele pairs were unraveled for more than 60 cultivars. To go further, crosses between reference varieties—those in which the S-allele pair was unraveled—and varieties under experimentation (VarE) with an unknown S-allele pair will enable an increase in knowledge and the choice of the best pollinizers in silico. Nevertheless, we pose outstanding questions in orchards where open-pollination efficiency with varieties harboring the R2R3, R1R3, R1R5, or R3R5 pairs. These S-allele pairs require pollen grains without R2 or R3 , R1 or R3, and R3 or R5 determinants. Such pollinizer varieties are not abundant in France and Italy, and this questions whether their spread is sufficient for optimal pollination of main varieties.     

Somatic embryogenesis of tissue cultures of Papaver somniferum and Papaver orientale and its relationship to alkaloid and lipid metabolism

Transfer from complete to 2,4-D free Gamborg's B5-medium efficiently induced somatic embryogenesis in Papaver tissue cultures (P. somniferum and P. orientale). Embryogenesis was preceded by a strong temporary accumulation of triacylglycerols. In both tissue cultures large amounts of sanguinarine type alkaloids were present, which disappeared during regeneration in the P. orientale cultures but persisted in the P. somniferum cultures. In the P. somniferum cultures protopine and morphine type alkaloids (morphine, codeine, thebaine) appeared about 45 days after exchanging the medium. Thebaine was the main alkaloid in the P. somniferum embryoids accumulating up to 0.2 % of dry weight.     

Agarose plating and a bead type culture technique enable and stimulate development of protoplast-derived colonies in a number of plant species

Two novel techniques improve division and colony formation from protoplasts:

1. Plating in agarose stimulates colony formation of protoplasts from a wide range of species. Protoplasts from Nicotiana tabacum developed to colonies from lower initial population densities in agarose than in agar or liquid. Protoplasts from Hyoscyamus muticus which do not divide in agar divided and formed colonies in agarose at higher efficiencies than in liquid medium.
2. Culture of gel embedded protoplasts in large volumes of liquid medium on a gyrotatory shaker (‘bead culture’) further improved plating efficiencies in some species (e.g. Lycopersicon esculentum and Crepis capillaris) and enabled sustained proliferation of protoplasts which had not previously developed beyond the few cell colony stage (Brassica rapa and a mutator gene variety of Petunia hybrida).

The combination of ‘agarose plating’ and ‘bead culture’ dramatically improved plating efficiencies of protoplasts in all species tested.