Ubiquitin fusion expression and tissue-dependent targeting of hG-CSF in transgenic tobacco

<p>Abstract</p> <p>Background</p> <p>Human granulocyte colony-stimulating factor (hG-CSF) is an important human cytokine which has been widely used in oncology and infection protection. To satisfy clinical needs, expression of recombinant hG-CSF has been studied in several organisms, including rice cell suspension culture and transient expression in tobacco leaves, but there was no published report on its expression in stably transformed plants which can serve as a more economical expression platform with potential industrial application.</p> <p>Results</p> <p>In this study, hG-CSF expression was investigated in transgenic tobacco leaves and seeds in which the accumulation of hG-CSF could be enhanced through fusion with ubiquitin by up to 7 fold in leaves and 2 fold in seeds, leading to an accumulation level of 2.5 mg/g total soluble protein (TSP) in leaves and 1.3 mg/g TSP in seeds, relative to hG-CSF expressed without a fusion partner. Immunoblot analysis showed that ubiquitin was processed from the final protein product, and ubiquitination was up-regulated in all transgenic plants analyzed. Driven by <it>CaMV </it>35S promoter and phaseolin signal peptide, hG-CSF was observed to be secreted into apoplast in leaves but deposited in protein storage vacuole (PSV) in seeds, indicating that targeting of the hG-CSF was tissue-dependent in transgenic tobacco. Bioactivity assay showed that hG-CSF expressed in both seeds and leaves was bioactive to support the proliferation of NFS-60 cells.</p> <p>Conclusions</p> <p>In this study, the expression of bioactive hG-CSF in transgenic plants was improved through ubiquitin fusion strategy, demonstrating that protein expression can be enhanced in both plant leaves and seeds through fusion with ubiquitin and providing a typical case of tissue-dependent expression of recombinant protein in transgenic plants.</p

Cross-national variations in reported discrimination among people treated for major depression worldwide: The ASPEN/INDIGO international study

Background: No study has so far explored differences in discrimination reported by people with major depressive disorder (MDD) across countries and cultures. Aims: To (a) compare reported discrimination across different countries, and (b) explore the relative weight of individual and contextual factors in explaining levels of reported discrimination in people with MDD. Method: Cross-sectional multisite international survey (34 countries worldwide) of 1082 people with MDD. Experienced and anticipated discrimination were assessed by the Discrimination and Stigma Scale (DISC). Countries were classified according to their rating on the Human Development Index (HDI). Multilevel negative binomial and Poisson models were used. Results: People living in 'very high HDI' countries reported higher discrimination than those in 'medium/low HDI' countries. Variation in reported discrimination across countries was only partially explained by individual-level variables. The contribution of country-level variables was significant for anticipated discrimination only. Conclusions: Contextual factors play an important role in anticipated discrimination. Country-specific interventions should be implemented to prevent discrimination towards people with MDD

Re-publication of a translation of &apos;The vegetative organs of Monotropa hypopitys L.&apos; published by F. Kamienski in 1882, with an update on Monotropa mycorrhizas

Abstract This paper begins with a brief comparison of Franz Kamienski&apos;s 1882 view of the fungus-root associations and nutrition of Monotropa hypopitys with our current understanding. The rest of this paper is a re-publication of Shannon Berch&apos;s 1985 translation of Kamienski&apos;s breakthrough paper in which it was asserted that Monotropa forms a mutualistic symbiosis and is nourished by fungi associated with the roots of neighbouring trees

Cysteine-accessibility analysis of transmembrane domains 11–13 of human concentrative nucleoside transporter 3

hCNT3 (human concentrative nucleoside transporter 3) is a nucleoside–sodium symporter that transports a broad range of naturally occurring purine and pyrimidine nucleosides as well as anticancer nucleoside drugs. To understand its uridine binding and translocation mechanisms, a cysteine-less version of hCNT3 was constructed and used for cysteine-accessibility and permeant-protection assays. Cysteine-less hCNT3, with 14 endogenous cysteine residues changed to serine, displayed wild-type properties in a yeast expression system, indicating that endogenous cysteine residues are not essential for hCNT3-mediated nucleoside transport. A series of cysteine-substitution mutants spanning predicted TMs (transmembrane domains) 11–13 was constructed and tested for accessibility to thiol-specific reagents. Mutants M496C, G498C, F563C, A594C, G598C and A606C had no detectable transport activity, indicating that a cysteine substitution at each of these positions was not tolerated. Two functional mutants in putative TM 11 (L480C and S487C) and four in putative TM 12 (N565C, T557C, G567C and I571C) were partially inhibited by MTS (methanethiosulphonate) reagent and high concentrations of uridine protected against inhibition, indicating that TMs 11 and 12 may form part of the nucleoside translocation pathway. The lack of accessibility of MTS reagents to TM 13 mutants suggests that TM 13 is not exposed to the nucleoside translocation pathway. Furthermore, G567C, N565C and I571C mutants were only sensitive to MTSEA (MTS-ethylammonium), a membranepermeant thiol reagent, indicating that these residues may be accessible from the cytoplasmic side of the membrane, providing evidence in support of the predicted orientation of TM 12 in the current putative topology model of hCNT3