RESULTSThe highest rhGH and cell concentrations were achieved, respectively, as 0.64gL(-1) and 105gL(-1) at t=42h of induction phase, with the strategy where methanol was fed to the
system at a pre-determined feeding rate of (M0)=0.03h(-1), and sorbitol concentration was kept at 50gL(-1) at t=0-15h of the rhGH production phase where the specific growth rate on sorbitol was (S0)=0.025h(-1). The overall cell and product yield on total substrate were found as 0.26gg(-1) and 2.26mgg(-1), respectively. CONCLUSIONThis work demonstrates that co-carbon source, sorbitol, feeding strategy is as important as methanol feeding selleck strategy in recombinant protein production by Mut(+) strains of P. pastoris. (c) 2012 Society of Chemical Industry”
“Social insect colonies contain attractive resources for many organisms. Cleptoparasites sneak into their nests and steal food resources. Social parasites sneak into their social organisations and exploit them for reproduction. Both cleptoparasites ACY-1215 and social parasites overcome the ability of social insects to detect intruders, which is mainly based on chemoreception. Here we compared the chemical strategies of social parasites and cleptoparasites that target the same host and analyse the
implication of the results for the understanding of nestmate recognition mechanisms. The social parasitic wasp Polistes atrimandibularis (Hymenoptera: Vespidae), and the cleptoparasitic velvet ant Mutilla europaea (Hymenoptera: Mutillidae), both target the colonies of the paper wasp Polistes biglumis (Hymenoptera: Vespidae). There is no chemical mimicry with hosts in the cuticular chemical profiles of velvet ants and pre-invasion social parasites, but both have lower concentrations of recognition cues (chemical insignificance) and lower proportions of branched alkanes than their hosts. Additionally, they both have larger proportions
of alkenes JAK inhibitor than their hosts. In contrast, post-invasion obligate social parasites have proportions of branched hydrocarbons as large as those of their hosts and their overall cuticular profiles resemble those of their hosts. These results suggest that the chemical strategies for evading host detection vary according to the lifestyles of the parasites. Cleptoparasites and pre-invasion social parasites that sneak into host colonies limit host overaggression by having few recognition cues, whereas post-invasion social parasites that sneak into their host social structure facilitate social integration by chemical mimicry with colony members. (C) 2012 Elsevier Ltd. All rights reserved.