Efficient yeast cell-surface display of an endoglucanase of <Emphasis Type="Italic">Aspergillus flavus</Emphasis> and functional characterization of the whole-cell enzyme

The endoglucanase gene endo753 from Aspergillus flavus NRRL3357 strains was cloned, and the recombinant Endo753 was displayed on the cell surface of Saccharomyces cerevisiae EBY100 strain by the C-terminal fusion using Aga2p protein as anchor attachment tag. The results of indirect immunofluorescence and Western blot confirmed the expression and localization of Endo753 on the yeast cell surface. The hydrolytic activity test of the whole-cell enzyme revealed that Endo753 immobilized on the yeast cell surface had high endoglucanase activity. The functional characterization of the whole-cell enzyme was investigated, and the whole-cell enzyme displayed the maximum activity at pH 8 and 50 °C. The enzyme was stable in a pH range of 7.0–10.0. Furthermore, the whole-cell enzyme displayed high thermostability below 50 °C and moderate stability between 50 and 70 °C. These properties make endo753 a good candidate in bioethanol production from lignocellulosic materials after displaying on the yeast cell surface.     

Expression of three reporter genes in four cell lines developed from <Emphasis Type="Italic">Papilio demoleus</Emphasis> Linnaeus (Lepidoptera: Papilionidae)

This paper used recombinant baculoviruses that carried three reporter genes, green fluorescent protein (GFP), β-galactosidase, and secreted alkaline phosphatase (SEAP), to infect four new cell lines from Papilio demoleus Linnaeus larvae (named RIRI-PaDe-1, RIRI-PaDe-2, RIRI-PaDe-3, and RIRI-PaDe-4). The expression levels of the three recombinant proteins were detected at 24, 48, 72, 96, 120, and 144 h after infection and compared with Sf9 and High Five cells to evaluate the characteristics of these four cell lines as host cells. The inoculation densities of the tested cell lines were 2?×?10⁴ cells/well (96-well plate) and 1?×?10⁵ cells/well (24-well plate), and adding a volume of virus stock resulted in an MOI of 5.0. The results showed that the four cell lines could be infected by recombinant baculovirus and that cell lysis occurred 96 h after infection. In the four tested cell lines, only a small number of RIRI-PaDe-1 and RIRI-PaDe-3 cells expressed recombinant GFP and showed green fluorescence. The expression was much lower than that of Sf9 and High Five. Comparing the intracellular and extracellular activity of β-galactosidase indicated that the P. demoleus cell system was more suitable for the expression of secreted proteins, and its extracellular β-galactosidase level was close to that of Sf9, but the expression level of SEAP was far lower than those of Sf9 and High Five.     

Efficient protoplast isolation and transient gene expression system for <Emphasis Type="Italic">Phalaenopsis</Emphasis> hybrid cultivar ‘Ruili Beauty’

With the release of the Phalaenopsis equestris (Schauer) Rchb.f. genome database, more in-depth studies of Phalaenopsis spp. will be carried out in the future. Transient gene expression in protoplasts is a useful system for gene function analysis, which is especially true for Phalaenopsis, whose stable genetic transformation is difficult and extremely time-consuming. In this study, juvenile leaves from aseptic Phalaenopsis seedlings were used as the starting material for protoplast isolation. After protocol refinement, the highest yield of viable protoplasts [5.94 × 10⁶ protoplasts g^?1 fresh weight (FW)] was achieved with 1.0% (w/v) Cellulase Onozuka R-10, 0.7% (w/v) Macerozyme R-10, and 0.4 M D-mannitol, with an enzymolysis duration of 6 h. As indicated by transient expression of green fluorescent protein (GFP), a transformation efficiency of 41.7% was achieved with 20% (w/v) polyethylene glycol (PEG-4000), 20 μg plasmid DNA, 2 × 10⁵ mL^?1 protoplasts, and a transfection duration of 30 min. The protocol established here will be valuable for functional studies of Phalaenopsis genes.     

Bimolecular fluorescence complementation based on the red fluorescent protein FusionRed

The aim of this work is to construct split variants of the red fluorescent protein FusionRed, each of which consists of two separate polypeptides, nonfluorescent parts of FusionRed, that can form functional fluorescent proteins upon reassociation. At the first stage, various circularly permuted FusionRed variants have been created (in circular permutants the protein polypeptide chain is divided into two parts, which change places so that the C-terminal part is followed by the N-terminal part). Two variants with the highest rate of chromophore maturation (fluorescence development) have been selected out of 23 tested permutation points. These proteins called cpFR76-73 and cpFR189-188 (the first number indicates the last amino acid residue of the N-terminal part; the second number, the first residue of the C-terminal part) are spectrally similar to parental FusionRed but possess lower fluorescence quantum yields. Split variants corresponding to these two circular permutants have been tested in mammalian cells. For reassembly of the fluorescent protein fragments, heterodimerizing leucine zippers have been used. It has been shown that split variant FR189-188 matures at 37°C and possesses fluorescence brightness similar to that of FusionRed. Consequently, FR189-188 is potentially suitable for a wide range of applications, for example, the study of protein–protein interactions or visualization of cell populations, in which two target gene promoters are simultaneously active.     

Dramatic secretion of recombinant protein expressed in tobacco cells with a designer glycopeptide tag is highly impacted by medium composition

Key message

Cell growth medium composition has profound impacts on the O -glycosylation of a “designer” arabinogalactan protein-based module; full glycosylation is essential in directing efficient extracellular secretion of the tagged recombinant protein.

Abstract

Expression of recombinant proteins in plant cells as fusion with a de novo designed hydroxyproline (Hyp)-O-glycosylated peptide (HypGP) tag, termed HypGP engineering technology, resulted in dramatically increased secreted protein yields. This is due to the function of the HypGP tag as a molecular carrier in promoting efficient transport of conjoined proteins into culture media. To optimize the cell culture to achieve the best secreted protein yields, the medium effects on the cell growth and protein secretion were investigated using as a model system the tobacco BY-2 cell expressing enhanced green fluorescence protein (EGFP) fused with a (SP)₃₂ tag (32 tandem repeats of “Ser-Pro” motif). The (SP)₃₂ tag was found to undergo two-stage Hyp-O-glycosylation in plant cells with the dramatic secretion of the conjoined EGFP correlating with the triggering of the second-stage glycosylation. The BY-2 cell culture in SH medium generated a high secreted protein yield (125 mg/L) with a low cell biomass accumulation (~7.5 gDW/L). In contrast, very low secreted protein yields (~1.5 mg/L) with a high cell biomass accumulation (13.5 gDW/L) were obtained in MS medium. The macronutrients, specifically, the nitrogen supply greatly impacted the glycosylation of the (SP)₃₂ tag and subsequent protein secretion. Modified MS medium with reduced nitrogen levels boosted the secreted EGFP yields to 168 mg/L. This study demonstrates the profound impacts of medium composition on the secreted yields of a HypGP-tagged protein, and provides a basis for medium design to achieve the highest productivity of the HypGP engineering technology.

     

Production of a therapeutic protein by fusing it with two fragments of the carboxyl-terminal peptide of human chorionic gonadotropin β-subunit in <Emphasis Type="Italic">Pichia pastoris</Emphasis>

Objective

To produce a therapeutic protein (endostatin) by fusion with two fragments of the carboxyl-terminal peptide (CTP) of the human chorionic gonadotropin β-subunit in Pichia pastoris.

Results

Two CTP sequences were fused to the C-terminal of human endostatin, and the fusion protein (endo-CTP) was expressed by P. pastoris. Endo-CTP inhibited proliferation of endothelial cells with an IC₅₀ of 7 μg ml^?1, and 30 % of cells were annexin V-positive after treatment with 20 μg endo-CTP ml^?1 for 48 h. Migration of endothelial cells was inhibited by endo-CTP in a concentration-dependent manner. The half-life of endo-CTP in Sprague–Dawley rats was much longer than that of its commercial counterpart (Endostar).

Conclusion

A long-acting endostatin can be produced using CTP technology.

     

Bifunctional protein conferring enhanced green fluorescence and puromycin resistance

A new genetic marker was created in which sequences from enhanced green fluorescent protein were fused to those of puromycin N-acetyl transferase. The resulting fusion protein (EGFP-puro) conferred both green fluorescence and resistance to puromycin when expressed in mammalian cells. The utility of EGFP-puro as a selectable/screenable marker was demonstrated by the ease with which a recombinant guinea pig cytomegalovirus containing EGFP-puro was isolated by a combination of puromycin selection and screening for green fluorescence. We conclude that EGFP-puro is a compact and versatile marker that should prove useful for recombinant virus and transgenic cell line construction, particularly in applications in which coding capacity is limited.     

Visualisation of plastid degradation in sperm cells of wheat pollen

Like most angiosperms, wheat (Triticum aestivum) shows maternal inheritance of plastids. It is thought that this takes place by cytoplasmic stripping at fertilisation rather than the absence of plastids in sperm cells. To determine the fate of plastids during sperm cell development, plastid-targeted green fluorescent protein was used to visualise these organelles in nuclear transgenic wheat lines. Fewer than thirty small 1–2-μm plastids were visible in early uninucleate pollen cells. These dramatically increased to several hundred larger (4 μm) plastids during pollen maturation and went through distinct morphological changes. Only small plastids were visible in generative cells (n?=?25) and young sperm cells (n?=?9). In mature sperm cells, these green fluorescent protein (GFP)-tagged plastids were absent. This is consistent with maternal inheritance of plastids resulting from their degradation in mature sperm cells in wheat.     

Backbone and Ile-δ1, Leu,Val methyl <Superscript>1</Superscript>H, <Superscript>15</Superscript>N,and <Superscript>13</Superscript>C,chemical shift assignments for <Emphasis Type="Italic">Rhizopus chinensis</Emphasis> lipase

Lipase r27RCL is a 296-residue, 33 kDa monomeric enzyme with high ester hydrolysis activity, which has significant applications in the baking, paper and leather industries. The lipase gene proRCL from Rhizopus microsporus var. chinensis (also Rhizopus chinensis) CCTCC M201021 was cloned as a fusion construct C-terminal to a maltose-binding protein (MBP) tag, and expressed as MBP-proRCL in an Escherichia coli BL21 trxB (DE3) expression system with uniform ²H,¹³C,¹⁵N-enrichment and Ile-δ1, Leu, and Val ¹³CH₃ methyl labeling. The fusion protein was hydrolyzed by Kex2 protease at the recognition site Lys-Arg between residues ?29 and ?28 of the prosequence, producing the enzyme form called r27RCL. Here we report extensive backbone ¹H, ¹⁵N, and ¹³C, as well as Ile-δ1, Leu, and Val side chain methyl, NMR resonance assignments for r27RCL.     

A Single and Robust Critical Nitrogen Dilution Curve for <Emphasis Type="Italic">Miscanthus</Emphasis> × <Emphasis Type="Italic">giganteus</Emphasis> and <Emphasis Type="Italic">Miscanthus sinensis</Emphasis>

The sustainable development of miscanthus as a bioenergy feedstock requires optimizing its fertilizer inputs and, therefore, determining its nitrogen (N) requirements. The ‘critical nitrogen dilution curve’ is a powerful tool to characterize such N requirements; it relates the N concentration ([N]) in aboveground organs to their biomass, defining two domains depending on whether the N factor limits biomass growth or not. We aimed to develop such a tool in miscanthus. Using a rhizome N depletion strategy with green cutting pre-treatment over several years before the start of the experiment, we grew, in 2014, two cultivated species, Miscanthus × giganteus (M×g) and Miscanthus sinensis (Msin), at four fertilizer levels (0, 80, 160 and 240 kg N ha^?1). We found a strong nitrogen fertilization effect. The shoot [N] decreased as the aboveground biomass increased in both species and in all of the treatments. [N] was strongly correlated with leaf/stem biomass ratio. The N treatments enabled the identification of the observed critical points, i.e. points with the maximum biomass (W) and the lowest [N], on each measurement date. These points could be fitted to the following critical dilution curve that was common between M×g and Msin: N concentration (Nc) (critical [N], g N kg^?1) = 27.0 W ^?0.48 when W > 1 t ha^?1 and Nc = 27.0 when W ≤ 1. This curve was validated by literature data, separated into N-limited or not-limited conditions. The similarity of the curves between the two species was due to compensation between leaf/stem biomass ratio and [N] in the stems. This curve is helpful to diagnose the crop N status and define the optimal fertilizer requirements of miscanthus crops.     

Establishment of insect cell lines expressing green fluorescent protein on cell surface based on AcMNPV GP64 membrane fusion characteristic

Displaying a protein on the surface of cells has been provided a very successful strategy to function research of exogenous proteins. Based on the membrane fusion characteristic of Autographa californica multiple nucleopolyhedrovirus envelope protein GP64, we amplified and cloned N-terminal signal peptide and C-terminal transmembrane domain as well as cytoplasmic tail domain of gp64 gene into vector pIZ/V5-His with multi-cloning sites to construct the cell surface expression vector pIZ/V5-gp64. To verify that the vector can be used to express proteins on the membrane of insect cells, a recombinant plasmid pIZ/V5-gp64-GFP was constructed by introducing the PCR amplified green fluorescent protein (GFP) gene and transfected into insect cell lines Sf9 and H5. The transected cells were screened with zeocin and cell cloning. PCR verification results showed that the GFP gene was successfully integrated into these cells. Green fluorescence in Sf9-GFP and H5-GFP cells was observed by using confocal laser scanning microscopy and immunofluorescence detection indicated that GFP protein was located on the cell membrane. Western blot results showed that a fusion protein GP64-GFP of about 40 kDa was expressed on the membrane of Sf9-GFP and H5-GFP cells. The expression system constructed in this paper can be used for localization and continuous expression of exogenous proteins on insect cell membrane.     

Subcellular localization defines modification and production of Δ<Superscript>9</Superscript>-tetrahydrocannabinolic acid synthase in transiently transformed <Emphasis Type="Italic">Nicotiana benthamiana</Emphasis>

Objective

Through heterologous expression of the tetrahydrocannabinolic acid synthase (THCAS) coding sequence from Cannabis sativa L. in Nicotiana benthamiana, we evaluated a transient plant-based expression system for the production of enzymes involved in cannabinoid biosynthesis.

Results

Thcas was modularized according to the GoldenBraid grammar and its expression tested upon alternative subcellular localization of the encoded catalyst with and without fusion to a fluorescent protein. THCAS was detected only when ER targeting was used; cytosolic and plastidal localization resulted in no detectable protein. Moreover, THCAS seems to be glycosylated in N. benthamiana, suggesting that this modification might have an influence on the stability of the protein. Activity assays with cannabigerolic acid as a substrate showed that the recombinant enzyme produced not only THCA (123 ± 12 fkat g _FW ^?1 activity towards THCA production) but also cannabichromenic acid (CBCA; 31 ± 2.6 fkat g _FW ^?1 activity towards CBCA production).

Conclusion

Nicotiana benthamiana is a suitable host for the generation of cannabinoid producing enzymes. To attain whole pathway integration, careful analysis of subcellular localization is necessary.

     

The structure of a human voltage-gated potassium Kv10.2 channel which lacks a cytoplasmic PAS domain

The three-dimensional structure of a human voltage-gated potassium Kv10.2 channel which lacks a cytoplasmic N-terminal PAS-domain was determined, and its distribution in eukaryotic cells was investigated. The channel protein was expressed in the COS7 cell line and purified by affinity chromatography. The channel distribution on the cell surface was determined by the immunofluorescence method using the antibodies against its C-terminus. PAS-domain truncation was shown to cause a decrease the expression of the channels on the cell surface. In order to reveal the positions of the channel cytoplasmic domains, the threedimensional structure of the protein lacking the cytoplasmic PAS-domain was compared to the previously obtained full-length structure. We demonstrated that the C-terminal CNBD-domain of the Kv10.2 channel undergoes conformational rearrangements in the absence of its N-terminal PAS-domain.     

Arabidopsis thaliana hairy roots for the production of heterologous proteins

To evaluate the ability of Arabidopsis thaliana hairy roots to produce heterologous proteins, hypocotyls were transformed with Rhizobium rhizogenes harbouring a green fluorescent protein gene (gfp) fused to a plant signal peptide sequence. Hairy root transgenic lines were generated from wild-type or mutant genotypes. A line secreted GFP at 130 mg/l of culture medium. Unlike as was previously found with turnip hairy roots, a His-tag was still attached to approximately 50?% of the protein. Control of the pH and addition of a protease inhibitor to the culture medium resulted in up to 87?% of the GFP retaining the His-tag. A. thaliana hairy roots expressing the human serpina1 (α-1-antitrypsin) gene secreted the protein, which was visible on a PAGE gel. Protein activity in the culture medium was demonstrated using an elastase inhibition assay. A. thaliana hairy roots can now be considered for the production of heterologous proteins, making it possible to mine the numerous genetic resources for enhancing protein production and quality.     

Mouse Nudt13 is a Mitochondrial Nudix Hydrolase with NAD(P)H Pyrophosphohydrolase Activity

The mammalian NUDT13 protein possesses a sequence motif characteristic of the NADH pyrophosphohydrolase subfamily of Nudix hydrolases. Due to the persistent insolubility of the recombinant product expressed in Escherichia coli, active mouse Nudt13 was expressed in insect cells from a baculovirus vector as a histidine-tagged recombinant protein. In vitro, it efficiently hydrolysed NADH to NMNH and AMP and NADPH to NMNH and 2′,5′-ADP and had a marked preference for the reduced pyridine nucleotides. Much lower activity was obtained with other nucleotide substrates tested. K _m and k _cat values for NADH were 0.34 mM and 7 s^?1 respectively. Expression of Nudt13 as an N-terminal fusion to green fluorescent protein revealed that it was targeted exclusively to mitochondria by the N-terminal targeting peptide, suggesting that Nudt13 may act to regulate the concentration of mitochondrial reduced pyridine nucleotide cofactors and the NAD(P)⁺/NAD(P)H ratio in this organelle and elsewhere. Future studies of the enzymology of pyridine nucleotide metabolism in relation to energy homeostasis, redox control, free radical production and cellular integrity should consider the possible regulatory role of Nudt13.     

A simple <Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation method for rapid transgene expression in <Emphasis Type="Italic">Medicago truncatula</Emphasis> root hairs

Medicago truncatula is widely used as a model legume for symbiotic and pathogenic microbial interaction studies. Although a number of Agrobacterium-mediated transformation methods have been developed for M. truncatula, a rapid root transformation system was not yet available for this model plant. Here, we describe an easy method for rapid transgene expression in root hairs of M. truncatula, using young seedlings co-cultivated with the disarmed hypervirulent A. tumefaciens strain AGL1. This method leads to efficient expression of various GUS and fluorescent reporters in M. truncatula root hairs. We showed that transgene expression is detected as soon as 2 days following co-culture, in root hairs of a particular responsive zone lying 0.5–2 cm behind the root tip. This method can be used with a variety of M. truncatula genotypes, and is particularly useful for rapid investigation of the sub-cellular localization of fluorescent fusion proteins. Moreover, combining distinct Agrobacterium strains during the initial co-culture step efficiently generates co-transformed root hairs, suitable for co-localization of different fluorescent fusion proteins in the same cell.     

Changes in growth and composition of the marine microalgae <Emphasis Type="Italic">Phaeodactylum tricornutum</Emphasis> and <Emphasis Type="Italic">Nannochloropsis salina</Emphasis> in response to changing sodium bicarbonate concentrations

Oils, carbohydrates, and fats generated by microalgae are being refined in an effort to produce biofuels. The research presented here examines two marine microalgae, Nannochloropsis salina (green alga) and Phaeodactylum tricornutum (diatom), when grown with 0 (no addition), 0.5, 1.0, 2.0, and 5.0 g L^?1 NaHCO₃ added to an f/2 medium during the growth phase (GP) and a nutrient induced (nitrate limitation) lipid formation phase (LP). We hypothesize that the addition of NaHCO₃ is a sustainable and practical strategy to increase cellular density and concentrations of lipids in microalgae as well as the rate of lipid accumulation. In N. salina, final cell densities were significantly (p?<?0.05) higher in the NaHCO₃-treated cells than the control while in P. tricornutum the cell densities were higher with >[NaHCO₃] during the GP. During the LP, cell densities were generally higher in the NaHCO₃-treated cells compared with controls. F _V/F _M (efficiency of photosystem II) patterns paralleled those for cell density with generally higher values with higher concentrations of NaHCO₃ and significantly different values between controls and 5.0 g L^?1 NaHCO₃ at the end of the GP (p?<?0.05). F _V/F _M was variable between treatments in P. tricornutum (0.3–0.65) but less so in N. salina for (0.5–0.7) regardless of [NaHCO₃]. The lipid index (measured with Nile red), used as a proxy for triacylglycerides (TAGs), was 10.2?±?6.5 and 4.4?±?2.9 (fluorescence units/OD cells ×1000) for N. salina and P. tricornutum, respectively, at the end of the GP. At the end of the LP, the lipid index was eight and four times higher than during the GP in the corresponding 5.0 g L^?1 NaHCO₃ treatments, revealing that N. salina was accumulating more lipid than P. tricornutum. Dry weights essentially doubled during LP compared with GP for N. salina; this was not the case for P. tricornutum. In general, the percentage of ash in dry weights was significantly higher in the LP relative to the corresponding GP treatments for P. tricornutum; this was not the case for N. salina. During the LP, there was also less soluble protein in N. salina compared to GP; differences were not significant in cells growing with 2.0 or 5.0 g L^?1 NaHCO₃. In P. tricornutum, faster growing cells had more soluble protein during the GP and LP; differences between treatments were significant. P. tricornutum generally accumulated significantly more crude protein than N. salina at higher [NaHCO₃]; there was three times more crude protein in the highest NaHCO₃ (5.0 g L^?1) treatment compared with the controls. C:N ratios (mol:mol) were similar across treatments during GP: 7.03?±?0.12 and 10.16?±?0.41 for N. salina and P. tricornutum, respectively. Further, C:N ratios increased with increasing [NaHCO₃] during LP. Species-specific fatty acid methyl ester (FAMEs) profiles were observed. While C16:0 was lower in P. tricornutum compared to N. salina, the diatom produced more C16:1 and C14 but not C18:3. Monounsaturated fatty acids (MUFA) significantly increased in N. salina in the LP compared to GP and in response to increasing [NaHCO₃] (t tests; p?<?0.05). Saturated fatty acids (SFA) responded similarly but to a lesser degree. There were more polyunsaturated fatty acids (PUFA) in N. salina than MUFAs or SFAs. In P. tricornutum, there were generally more SFAs, MUFAs and PUFAs in P. tricornutum during LP than GP in the corresponding NaHCO₃ treatments. These findings reveal the importance of considering NaHCO₃ as a supplemental carbon source in the culturing marine phytoplankton in large-scale production for biofuels.     

Trophic plasticity among spring vs. cave populations of <Emphasis Type="Italic">Gammarus minus:</Emphasis> examining functional niches using stable isotopes and C/N ratios

In some environments, species may exhibit trophic plasticity, which allows them to extend beyond their assigned functional group. For Gammarus minus, a freshwater amphipod classified as a shredder or detritivore, cave populations have been observed consuming heterotrophs as well as shredding leaves, and therefore may be exhibiting trophic plasticity. To test this possibility, we examined the C and N stable isotope and C/N ratios for cave and spring populations of G. minus. A 15-day feeding experiment using leaves and G. minus from a spring population established that the diet-tissue discrimination factor was 3.2 ‰ for δ¹⁵N. Cave G. minus were 8 ‰ higher in δ¹⁵N relative to cave leaves, indicating they did not derive nitrogen from leaves, whereas field collected spring populations were 2–3 ‰ higher than spring leaves, indicating that they did. Cave G. minus were 2.6 ‰ higher in δ¹⁵N than the cave isopod, Caecidotea holsingeri. Relative to spring populations, Organ Cave G. minus were ¹⁵N enriched by 6 ‰, suggesting they occupied a different trophic level, or incorporated an isotopically distinct N source. While stable isotopes cannot tell what the cave G. minus are eating, the isotopes certainly show that G. minus are not eating leaves and are trophically distinct form the surface populations. Differences in C/N ratios were observed, but reflect the size of the G. minus examined and not feeding group or habitat. The isotope data strongly support the hypothesis that cave populations of G. minus have become generalist or omnivorous by including animal protein in their diet.     

Production and cleavage of a fusion protein of porcine trypsinogen and enhanced green fluorescent protein (EGFP) in <Emphasis Type="Italic">Pichia pastoris</Emphasis>

Pharmaceutical grade trypsin is in ever-increasing demand for medical and industrial applications. Improving the efficiency of existing biotechnological manufacturing processes is therefore paramount. When produced biotechnologically, trypsinogen—the inactive precursor of trypsin—is advantageous, since active trypsin would impair cell viability. To study factors affecting cell physiology and the production of trypsinogen in fed-batch cultures, we built a fusion protein of porcine trypsinogen and enhanced green fluorescent protein (EGFP) in Pichia pastoris. The experiments were performed with two different pH values (5.0 and 5.9) and two constant specific growth rates (0.02 and 0.04 1/h), maintained using exponential addition of methanol. All the productivity data presented rely on an active determination of trypsin obtained by proteolysis of the trypsinogen produced. The pH of the medium did not affect cell growth, but significantly influenced specific production of trypsinogen: A 1.7-fold higher concentration of trypsinogen was achieved at pH 5.9 (64 mg/L at 0.02 1/h) compared to pH 5.0. EGFP was primarily used to facilitate detection of intracellular protein over the biosynthetic time course. Using flow cytometry with fluorescence detection, cell disruption was avoided, and protein extraction and purification prior to analysis were unnecessary. However, Western blot and SDS-PAGE showed that cleavage of EGFP-trypsinogen fusion protein occurred, probably caused by Pichia-endogenous proteases. The fluorescence analysis did therefore not accurately represent the actual trypsinogen concentration. However, we gained new experimentally-relevant insights, which can be used to avoid misinterpretation of tracking and quantifying as well as online-monitoring of proteins with the frequently used fluorescent tags.     

Does feeding behavior of a zoophytophagous mirid differ between host plant and insect prey items?

Many mirid bugs are omnivores, and several species are key pests of agricultural crops. While mirid feeding behavior on plant hosts is relatively well studied, little attention has been paid to foraging, acceptance, and consumption of insect prey items. In this study, we investigated the feeding behavior and stylet penetration of the green mirid bug Apolygus lucorum on insect prey (Helicoverpa armigera eggs), plant hosts (green bean Phaseolus vulgaris pod), and combined plant + prey diets. Direct observation and electrical penetration graph (EPG) assays were used to assess feeding on either food item. Overall feeding time was highest on combined diets (48.18 ± 4.92 % of total time) and plant foods (42.23 ± 3.36 %), compared with only 28.95 ± 2.27 % feeding time on H. armigera eggs. When exposed to combined diets, A. lucorum spent 3.8 times longer feeding on green bean pod than on H. armigera eggs. The overall duration of stylet penetration was 5866.27 ± 800.39 s on green bean pod versus 3644.81 ± 715.19 s on H. armigera eggs, representing a 37.87 % reduction in duration. Similarly, the duration of a single probing event was significantly higher on green bean pod (355.76 ± 50.13 s) versus H. armigera eggs (236.20 ± 25.17 s), with a 33.61 % reduction. This first work in which omnivory is studied by combined use of observational studies and EPG assays (1) provides further insights into A. lucorum omnivory, (2) further elucidates its trophic position in agroecosystems, and (3) guides the development of artificial diets for this pest species.