Manfred Suckow scite author profile

The bZIP regions of the eukaryotic transcription factors GCN4 and C/EBP have similar protein sequences but they recognize different DNA sequences. In order to understand their specificity, a vector was constructed which permits overexpression in Escherichia coli of those domains of GCN4 that are necessary and sufficient for specific DNA binding i.e. the basic region and the leucine zipper. Specific DNA binding was monitored with gel shift experiments. The residues of the basic region of GCN4 were systematically replaced by those of C/EBP to transform GCN4 into C/EBP with respect to DNA binding. Residues −17, −16 and −14 were found to be responsible for switching GCN4 to C/EBP binding specificity (we define as residue +1 the first leucine of the first leucine heptad repeat of GCN4). We broadened the specificity of GCN4 to TAF‐1 by replacing residues −15 and −17 and we changed the specificity of C/EBP to TAF‐1 by swapping residue −17 of a particular hybrid. Thus residues positioned from −14 to −17 of the basic region play a key role in recognizing specific DNA sequences.

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High-throughput screening ofHansenula polymorphaclones in the batch compared with the controlled-release fed-batch mode on a small scale

Scheidle

Jeude

Dittrich

et al. 2010

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Most large-scale production processes in biotechnology are performed in fed-batch operational mode. In contrast, the screenings for microbial production strains are run in batch mode, which results in the microorganisms being subjected to different physiological conditions. This significantly affects strain selection. To demonstrate differences in ranking during strain selection depending on the operational mode, screenings were performed in batch and fed-batch modes. Two model populations of the methylotrophic yeast Hansenula polymorpha RB11 with vector pC10-FMD (P(FMD)-GFP) (220 clones) and vector pC10-MOX (P(MOX)-GFP) (224 clones) were applied. For fed-batch cultivations in deep-well microtiter plates, a controlled-release system made of silicone elastomer discs containing glucose was used. Three experimental set-ups were investigated: batch cultivation with (1) glucose as a substrate, which catabolite represses product formation, and (2) glycerol as a carbon source, which is partially repressing, respectively, and (3) fed-batch cultivation with glucose as a limiting substrate using the controlled-release system. These three experimental set-ups showed significant variations in green fluorescent protein (GFP) yield. Interestingly, screenings in fed-batch mode with glucose as a substrate resulted in the selection of yeast strains different from those cultivated in batch mode with glycerol or glucose. Ultimately, fed-batch screening is considerably better than screening in batch mode for fed-batch production processes with glucose as a carbon source.

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Replacement of invariant bzip residuces within the basic region of the yeast transcriptional activator GCN4 can Change its DNA binding specificity

Suckow¹,

Schwamborn²,

Kisters‐Woike³

et al. 1994

Nucl Acids Res

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Two residues are invariant in all bZip basic regions: asparagine -18 and arginine -10 (we define the first leucine of the leucine zipper of GCN4 as +1). X-ray structures of two specific GCN4-DNA complexes (Ellenberger et al., Cell, 71, 1223-1237, 1992; König & Richmond, J. Mol. Biol., 233, 139-154, 1993) demonstrate the involvement of both residues in specific base pair recognition. We replaced either asparagine -18 or arginine -10 with all other amino acids and tested the DNA binding properties of the resulting mutant peptides by gel mobility shift assays. Peptides with histidine -18 or tyrosine -10 bind with changed specificities to variants of the ATF/CREB site 5'A4T3G2A1C0*G0'T1'C2'A3'T4'3' with symmetric exchanges in positions 2/2' or 0/0', respectively. The double mutant with histidine -18 and tyrosine -10 combines the features of the parental single mutants and binds specifically to the respective double exchange target. Furthermore, the tyrosine -10 mutant clearly prefers the palindrome 5'ATGATATCAT3' over the corresponding pseudo-palindrome 5'ATGATTCA-T3', whereas the lysine -10 mutant binds better to the pseudo-palindromic AP1 site 5'ATGACTCAT3' than to the palindromic ATF/CREB site. Thus, although invariant within natural bZip proteins, asparagine -18 or arginine -10 can be functionally replaced by other amino acids, and their replacement can lead to new DNA binding specificities.

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Establishment of a yeast-based VLP platform for antigen presentation

et al. 2018

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BackgroundChimeric virus-like particles (VLP) allow the display of foreign antigens on their surface and have proved valuable in the development of safe subunit vaccines or drug delivery. However, finding an inexpensive production system and a VLP scaffold that allows stable incorporation of diverse, large foreign antigens are major challenges in this field.ResultsIn this study, a versatile and cost-effective platform for chimeric VLP development was established. The membrane integral small surface protein (dS) of the duck hepatitis B virus was chosen as VLP scaffold and the industrially applied and safe yeast Hansenula polymorpha (syn. Pichia angusta, Ogataea polymorpha) as the heterologous expression host. Eight different, large molecular weight antigens of up to 412 amino acids derived from four animal-infecting viruses were genetically fused to the dS and recombinant production strains were isolated. In all cases, the fusion protein was well expressed and upon co-production with dS, chimeric VLP containing both proteins could be generated. Purification was accomplished by a downstream process adapted from the production of a recombinant hepatitis B VLP vaccine. Chimeric VLP were up to 95% pure on protein level and contained up to 33% fusion protein. Immunological data supported surface exposure of the foreign antigens on the native VLP. Approximately 40 mg of chimeric VLP per 100 g dry cell weight could be isolated. This is highly comparable to values reported for the optimized production of human hepatitis B VLP. Purified chimeric VLP were shown to be essentially stable for 6 months at 4 °C.ConclusionsThe dS-based VLP scaffold tolerates the incorporation of a variety of large molecular weight foreign protein sequences. It is applicable for the display of highly immunogenic antigens originating from a variety of pathogens. The yeast-based production system allows cost-effective production that is not limited to small-scale fundamental research. Thus, the dS-based VLP platform is highly efficient for antigen presentation and should be considered in the development of future vaccines.

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A wide-range integrative yeast expression vector system based on Arxula adeninivorans-derived elements

Terentiev

Pico

Böer

et al. 2004

J IND MICROBIOL BIOTECHNOL

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An Arxula adeninivorans integration vector was applied to a range of alternative yeast species including Saccharomyces cerevisiae, Debaryomyces hansenii, Debaryomyces polymorphus, Hansenula polymorpha and Pichia pastoris. The vector harbours a conserved A. adeninivorans-derived 25S rDNA sequence for targeting, the A. adeninivorans-derived TEF1 promoter for expression control of the reporter sequence, and the Escherichia coli-derived hph gene conferring resistance against hygromycin B for selection of recombinants. Heterologous gene expression was assessed using a green fluorescent protein (GFP) reporter gene. The plasmid was found to be integrated into the genome of the various hosts tested; recombinant strains of all species exhibited heterologous gene expressions of a similar high level.

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Manfred Suckow

Identification of three residues in the basic regions of the bZIP proteins GCN4, C/EBP and TAF-1 that are involved in specific DNA binding.

High-throughput screening ofHansenula polymorphaclones in the batch compared with the controlled-release fed-batch mode on a small scale

Replacement of invariant bzip residuces within the basic region of the yeast transcriptional activator GCN4 can Change its DNA binding specificity

Establishment of a yeast-based VLP platform for antigen presentation

A wide-range integrative yeast expression vector system based on Arxula adeninivorans-derived elements

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