Christian J T Bollinger

Publications (5)10.25 Total impact

• Article: Novel Hemoglobins to Enhance Microaerobic Growth and Substrate Utilization in Escherichiacoli

  Christian J. T. Bollinger, James E. Bailey, Pauli T. Kallio
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  ABSTRACT: Limited oxygen availability is a prevalent problem in microbial biotechnology. Recombinant Escherichia coli expressing the hemoglobin from Vitreoscilla (VHb) or the flavohemoglobin from Ralstonia eutropha (formerly Alcaligenes eutrophus) (FHP) demonstrate significantly increased cell growth and productivity under microaerobic conditions. We identify novel bacterial hemoglobin-like proteins and examine if these novel bacterial hemoglobins can elicit positive effects similar to VHb and FHP and if these hemoglobins alleviate oxygen limitation under microaerobic conditions when expressed in E. coli. Several finished and unfinished bacterial genomes were screened using R. eutropha FHP as a query sequence for genes (hmp) encoding hemoglobin-like proteins. Novel hmp genes were identified in Pseudomonas aeruginosa, Salmonella typhi, Klebsiellapneumoniae, Deinococcus radiodurans, and Campylobacter jejuni. Previously characterized hmp genes from E. coli and Bacillus subtilis and the novel hmpgenes from P. aeruginosa, S. typhi, C. jejuni, K.pneumoniae, and D. radiodurans were PCR amplified and introduced into a plasmid for expression in E. coli. Biochemically active hemoproteins were expressed in all constructs, as judged by the ability to abduct carbon monoxide. Growth behavior and byproduct formation of E. coli K-12 MG1655 cells expressing various hemoglobins were analyzed in microaerobic fed-batch cultivations and compared to plasmid-bearing control and to E. coli cells expressing VHb. The clones expressing hemoglobins from E. coli, D. radiodurans, P.aeruginosa, and S. typhi reached approximately 10%, 27%, 23%, and 36% higher final optical density values, respectively, relative to the plasmid bearing E. coli control (A600 5.5). E. coli cells expressing hemoproteins from P. aeruginosa, S. typhi, and D. radiodurans grew to similar final cell densities as did the strain expressing VHb (A600 7.5), although none of the novel constructs was able to outgrow the VHb-expressing E. coli strain. Additionally, increased yield of biomass on glucose was measured for all recombinant strains, and an approximately 2-fold yield enhancement was obtained with D.radiodurans hemoprotein-expressing E. colirelative to the E. coli control carrying the parental plasmid without any hemoglobin gene.
  Biotechnology Progress 09/2008; 17(5):798 - 808. · 2.34 Impact Factor
• Article: Assessment of biotechnologically relevant characteristics of heterologous hemoglobins in E. coli.

  Pauli T Kallio, Christian J T Bollinger, Taija Koskenkorva, Alexander D Frey
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  ABSTRACT: The use of the heterologous bacterial hemoglobin (VHb) from Vitreoscilla to enhance growth and productivity of Escherichia coli under conditions of oxygen limitation has been one of the foremost examples of metabolic engineering. Although VHb has earned its merits during the last two decades by providing enhanced physiological enhancements to organisms from all kingdoms of life, it has been the candidate of choice primarily for historical reasons. Findings made during the last years, however, suggest that hemoglobin and flavohemoglobin proteins from bacterial species other than Vitreoscilla or artificially generated mutant proteins or fusion variants of hemoglobins and flavohemoglobins may be better suited for use in biotechnological processes. This account provides guidelines for the assessment of biotechnologically relevant characteristics conferred by such novel heterologous hemoglobins and flavohemoglobins in E. coli.
  Methods in Enzymology 02/2008; 436:255-72. · 2.04 Impact Factor
• Article: Impact of the small RNA RyhB on growth, physiology and heterologous protein expression in Escherichia coli.

  Christian J T Bollinger, Pauli T Kallio
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  ABSTRACT: The small noncoding RNA RyhB is a regulator of iron homeostasis in Escherichia coli. During iron limitation, it downregulates the expression of a number of iron-containing proteins, including enzymes of the tricarboxylic acid cycle and the respiratory chain. Because this infers a potential for RyhB to limit energy metabolism and biosynthetic capacity, the effect of knocking out ryhB on the physiology and heterologous protein productivity of E. coli has been analyzed. During iron limitation, induced either through insufficient extracellular supply or through overexpression of an iron-containing protein, ryhB mutants showed unaltered growth and substrate consumption. They did, however, exhibit significantly lowered acetate production rates. Plasmid-based expression of green fluorescent protein and the heterologous Vitreoscilla hemoglobin VHb was negatively affected by the ryhB knock-out.
  FEMS Microbiology Letters 11/2007; 275(2):221-8. · 2.04 Impact Factor
• Article: Bacterial hemoglobins and flavohemoglobins for alleviation of nitrosative stress in Escherichia coli.

  Alexander D Frey, Judith Farrés, Christian J T Bollinger, Pauli T Kallio
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  ABSTRACT: Escherichia coli MG1655 cells expressing novel bacterial hemoglobin and flavohemoglobin genes from a medium-copy-number plasmid were grown in shake flask cultures under nitrosative and oxidative stress. E. coli cells expressing these proteins display enhanced resistance against the NO(.) releaser sodium nitroprusside (SNP) relative to that of the control strain bearing the parental plasmid. Expression of bacterial hemoglobins originating from Campylobacter jejuni (CHb) and Vitreoscilla sp. (VHb) conferred resistance on SNP-challenged cells. In addition, it has been shown that NO(.) detoxification is also a common feature of flavohemoglobins originating from different taxonomic groups and can be transferred to a heterologous host. These observations have been confirmed in a specific in vitro NO(.) consumption assay. Protein extracts isolated from E. coli strains overexpressing flavohemoglobins consumed authentic NO(.) more readily than protein extracts from the wild-type strain. Oxidative challenge to the cells evoked nonuniform responses from the various cell cultures. Improved oxidative-stress-sustaining properties had also been observed when the flavohemoglobins from E. coli, Klebsiella pneumoniae, Deinococcus radiodurans, and Pseudomonas aeruginosa were expressed in E. coli.
  Applied and Environmental Microbiology 11/2002; 68(10):4835-40. · 3.83 Impact Factor
• Article: Assessment of Biotechnologically Relevant Characteristics of Heterologous Hemoglobins in E. coli

  Pauli T. Kallio, Christian J.T. Bollinger, Taija Koskenkorva, Alexander D. Frey
  [show abstract] [hide abstract]
  ABSTRACT: The use of the heterologous bacterial hemoglobin (VHb) from Vitreoscilla to enhance growth and productivity of Escherichia coli under conditions of oxygen limitation has been one of the foremost examples of metabolic engineering. Although VHb has earned its merits during the last two decades by providing enhanced physiological enhancements to organisms from all kingdoms of life, it has been the candidate of choice primarily for historical reasons. Findings made during the last years, however, suggest that hemoglobin and flavohemoglobin proteins from bacterial species other than Vitreoscilla or artificially generated mutant proteins or fusion variants of hemoglobins and flavohemoglobins may be better suited for use in biotechnological processes. This account provides guidelines for the assessment of biotechnologically relevant characteristics conferred by such novel heterologous hemoglobins and flavohemoglobins in E. coli.
  Methods in Enzymology.