Accurate, precise modeling of cell proliferation kinetics from time-lapse imaging and automated image analysis of agar yeast culture arrays

Background  

Genome-wide mutant strain collections have increased demand for high throughput cellular phenotyping (HTCP). For example, investigators use HTCP to investigate interactions between gene deletion mutations and additional chemical or genetic perturbations by assessing differences in cell proliferation among the collection of 5000 S. cerevisiae gene deletion strains. Such studies have thus far been predominantly qualitative, using agar cell arrays to subjectively score growth differences. Quantitative systems level analysis of gene interactions would be enabled by more precise HTCP methods, such as kinetic analysis of cell proliferation in liquid culture by optical density. However, requirements for processing liquid cultures make them relatively cumbersome and low throughput compared to agar. To improve HTCP performance and advance capabilities for quantifying interactions, YeastXtract software was developed for automated analysis of cell array images.     

COMPARISON OF THE SENSORY PROPERTIES OF ULTRA-HIGH-TEMPERATURE (UHT) MILK FROM DIFFERENT COUNTRIES

Shelf-stable milk, also known as ultra-high-temperature (UHT) milk is the most common form of milk in many parts of the world. This study compared the differences in flavor and texture of 37 commercially available UHT and sterilized milk samples including whole, 2% reduced-fat and low-fat milk obtained from markets in seven countries: France ( n =  2), Italy ( n =  11), Japan ( n =  1), Korea ( n =  2), Peru ( n =  3), Thailand ( n =  13) and the U.S.A. ( n =  5). Five highly trained panelists used flavor and texture profiling to describe the sensory properties of each milk sample. Data were analyzed by principal component analysis and hierarchical cluster analysis. Higher levels of processed, chalky, brown and cooked flavor notes generally corresponded to lower levels of fresh dairy flavor characteristics. In general, samples did not vary consistently within a country. Fat content did not correlate with dairy fat flavor or with viscosity. This research suggests that companies' manufacturing processes for UHT milk may have more impact than country or fat content in determining sensory properties of UHT milk.

PRACTICAL APPLICATIONS

Sensory properties of UHT milk from different countries developed in this study could be used by the dairy industry to understand the similarities and differences of UHT milk characteristics from different regions and to modify UHT milk characteristics to meet consumers' criteria or expectation. The study suggests that manufacturers who want to improve quality of UHT milk by modify flavor and texture properties should focus on improvements to the manufacturing processes.     

Functional Interaction between the Fanconi Anemia D2 Protein and Proliferating Cell Nuclear Antigen (PCNA) via a Conserved Putative PCNA Interaction Motif

Fanconi Anemia (FA) is a rare recessive disease characterized by congenital abnormalities, bone marrow failure, and cancer susceptibility. The FA proteins and the familial breast cancer susceptibility gene products, BRCA1 and FANCD1/BRCA2, function cooperatively in the FA-BRCA pathway to repair damaged DNA and to prevent cellular transformation. Activation of this pathway occurs via the mono-ubiquitination of the FANCD2 protein, targeting it to nuclear foci where it co-localizes with FANCD1/BRCA2, RAD51, and PCNA. The regulation of the mono-ubiquitination of FANCD2, as well as its function in DNA repair remain poorly understood. In this study, we have further characterized the interaction between the FANCD2 and PCNA proteins. We have identified a highly conserved, putative FANCD2 PCNA interaction motif (PIP-box), and demonstrate that mutation of this motif disrupts FANCD2-PCNA binding and precludes the mono-ubiquitination of FANCD2. Consequently, the FANCD2 PIP-box mutant protein fails to correct the mitomycin C hypersensitivity of FA-D2 patient cells. Our results suggest that PCNA may function as a molecular platform to facilitate the mono-ubiquitination of FANCD2 and activation of the FA-BRCA pathway.Fanconi anemia (FA)² is a rare recessive disorder characterized by developmental abnormalities, progressive bone marrow failure, and pronounced cancer susceptibility (1). FA patients are particularly susceptible to early-onset acute myelogenous leukemia and squamous cell carcinoma of the head, neck, and gynecologic regions (2). FA patient cells are hypersensitive to the clastogenic effects of DNA cross-linking agents, e.g. mitomycin C (MMC), and agents that inhibit DNA replication, e.g. aphidicolin (APH) (3, 4). There are currently thirteen genetically defined FA complementation groups (A, B, C, D1, D2, E, F, G, I, J, L, M, and N), and all thirteen genes have been identified (5).A central step in the activation of the FA-BRCA pathway is the mono-ubiquitination of the FANCD2 and FANCI proteins, catalyzed by the core FA E2/E3 holoenzyme complex (5, 6). The mono-ubiquitination of FANCD2 and FANCI signals their translocation to discrete nuclear foci, where they co-localize with the BRCA1 and RAD51 DNA repair proteins, as well as the major cellular DNA polymerase processivity factor PCNA (3, 4, 7–9). Several studies have suggested an important role for the FA-BRCA pathway in a DNA replication-associated DNA repair process, e.g. homologous recombination (HR), and/or translesion DNA synthesis (TLS) (3, 4, 10–12). Accordingly, additional proteins with established roles in the DNA replication stress response, including ATR, CHK1, HCLK2, and RPA, modulate DNA damage-inducible FANCD2 mono-ubiquitination (13–15). Our understanding of the regulation of this critical post-translational modification, however, is incomplete.We, and others (4, 7) have previously reported an association between FANCD2 and PCNA. FANCD2 and PCNA co-localize in nuclear foci following treatment with agents that inhibit DNA replication. Like FANCD2, PCNA is mono-ubiquitinated following exposure to DNA-damaging agents (16, 17). While FANCD2 and PCNA are mono-ubiquitinated by different E3 ubiquitin ligases, FANCL and RAD18 (16–19), respectively, both proteins are de-ubiquitinated by the USP1 enzyme (20, 21). The functional significance of the FANCD2-PCNA interaction, however, has not been determined.In addition to its role as a DNA polymerase processivity factor, PCNA interacts with many DNA repair proteins, e.g. MSH3, XPG, and p21^Cip1/Waf1 (22). These interactions typically occur in a hydrophobic pocket of the PCNA homotrimer, termed the interdomain connecting loop (ICL). Proteins that interact with the PCNA ICL harbor a highly conserved PCNA-binding motif called the PIP-box, defined by the amino acid sequence QXXhXXaa, where h represents amino acids with moderately hydrophobic side chains, e.g. leucine, isoleucine, or methionine (L, I, M), a represents amino acids with highly hydrophobic, aromatic side chains, e.g. phenylalanine and tyrosine (F, Y), and X is any amino acid (23).Here, we describe an important functional interaction between FANCD2 and PCNA. We have identified a highly conserved putative PIP-box in FANCD2, and demonstrate that mutation of this motif disrupts the FANCD2-PCNA interaction, and precludes both the spontaneous and DNA damage-inducible mono-ubiquitination of FANCD2. Consequently, the FANCD2 PIP-box mutant fails to correct the MMC hypersensitivity of FA-D2 patient-derived cells. However, the mutant protein retains the ability to localize to chromatin, interact with FANCE, and undergo DNA damage-inducible phosphorylation. Our results suggest that PCNA may act as a molecular platform for the mono-ubiquitination of FANCD2 and for the activation of the FA-BRCA pathway.     

Variable reproductive success in fragmented populations

Marine habitats are naturally patchy and anthropogenic disturbance can further fragment them. Many marine animals are sessile as adults or obligate inhabitants of particular habitats, so populations living in isolated patches of habitat are linked largely by dispersal of planktonic larvae. Theoretically, larvae are more likely to find and settle into large patches of habitat than small patches, thus small habitat patches may experience a more discontinuous supply of recruits resulting in small populations with unusual size- or age-structures or odd sex ratios — conditions where Allee effects on reproductive success are likely. We tested this hypothesis for the Caribbean spotted spiny lobster (Panulirus guttatus), an obligate inhabitant of coral patch reefs whose mating dynamics are size-dependent. We found that P. guttatus were less abundant on small reefs where their size structure and per capita reproductive success were significantly more variable, particularly among large females that are susceptible to sperm limitation that diminishes fertilization rates. These results are indicative of Allee effects and provide a mechanistic understanding of how size-dependent mating dynamics influence reproductive success in ways that alter population dynamics in patchy habitats.     

An evaluation of commercial DNA extraction kits for the isolation of bacterial spore DNA from soil

Aims: To evaluate six commercial DNA extraction kits for their ability to isolate PCR‐quality DNA from Bacillus spores in various soil samples. Methods and Results: Three soils were inoculated with various amounts of Bacillus cereus spores to simulate an outbreak or intentional release of the threat agent Bacillus anthracis. DNA was isolated from soil samples using six commercial DNA extraction kits. Extraction and purification efficiencies were assessed using a duplex real‐time PCR assay that included an internal positive control. The FastDNA^® SPIN kit for Soil showed the highest DNA extraction yield, while the E.Z.N.A.^® Soil DNA and PowerSoil^® DNA Isolation kits showed the highest efficiencies in removing PCR inhibitors from loam soil extracts. Conclusions: The results of this study suggest that commercially available extraction kits can be used to extract PCR‐quality DNA from bacterial spores in soil. The selection of an appropriate extraction kit should depend on the characteristics of the soil sample and the intended downstream application. Significance and Impact of the Study: The results of this study aid in the selection of an appropriate DNA extraction kit for a given soil sample. Its application could expedite sample processing for real‐time PCR detection of a pathogen in soil.     

Filtration of a yeast suspension using an enclosed microporous metal filter

Summary A microporous (3 m) metal filter was very efficient for the recovery of Saccharomyces cerevisiae from a suspension. The filtration could be described by a cake filtration model, the cake resistance being dependent on the pressure drop applied and the concentration of bodyfeed added. The mean filtration capacity was 0.4 m³/m² h.     

An airlift loop reactor for the transformation of steroids by immobilized cells

Summary The flow behaviour of calcium alginate beads in an airlift reactor (ALR) with external loop was dependent on the airflow rate into and the amount of beads in the reactor. The performance of immobilizedArthrobacter simplex for the ¹-dehydrogenation of hydrocortisone in the ALR compared favourably to that in a stirred tank reactor. The physical stability of the calcium alginate beads was significantly greater in the ALR.