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1.
JACS Au ; 3(2): 378-383, 2023 Feb 27.
Article in English | MEDLINE | ID: mdl-36873680

ABSTRACT

The fundamental biology and application of bacterial exopolysaccharides is gaining increasing attention. However, current synthetic biology efforts to produce the major component of Escherichia sp. slime, colanic acid, and functional derivatives thereof have been limited. Herein, we report the overproduction of colanic acid (up to 1.32 g/L) from d-glucose in an engineered strain of Escherichia coli JM109. Furthermore, we report that chemically synthesized l-fucose analogues containing an azide motif can be metabolically incorporated into the slime layer via a heterologous fucose salvage pathway from Bacteroides sp. and used in a click reaction to attach an organic cargo to the cell surface. This molecular-engineered biopolymer has potential as a new tool for use in chemical, biological, and materials research.

2.
Microb Biotechnol ; 15(7): 2126-2139, 2022 07.
Article in English | MEDLINE | ID: mdl-35312165

ABSTRACT

The methylotrophic yeast Pichia pastoris is commonly used for the production of recombinant proteins at scale. The identification of an optimally overexpressing strain following transformation can be time and reagent consuming. Fluorescent reporters like GFP have been used to assist identification of superior producers, but their relatively big size, maturation requirements and narrow temperature range restrict their applications. Here, we introduce the use of iLOV, a flavin-based fluorescent protein, as a fluorescent marker to identify P. pastoris high-yielding strains easily and rapidly. The use of this fluorescent protein as a fusion partner is exemplified by the production of the antimicrobial peptide NI01, a difficult target to overexpress in its native form. iLOV fluorescence correlated well with protein expression level and copy number of the chromosomally integrated gene. An easy and simple medium-throughput plate-based screen directly following transformation is demonstrated for low complexity screening, while a high-throughput method using fluorescence-activated cell sorting (FACS) allowed for comprehensive library screening. Both codon optimization of the iLOV_NI01 fusion cassettes and different integration strategies into the P. pastoris genome were tested to produce and isolate a high-yielding strain. Checking the genetic stability, process reproducibility and following the purification of the active native peptide are eased by visualization of and efficient cleavage from the iLOV reporter. We show that this system can be used for expression and screening of several different antimicrobial peptides recombinantly produced in P. pastoris.


Subject(s)
Antimicrobial Peptides , Pichia , Pichia/genetics , Pichia/metabolism , Recombinant Proteins/metabolism , Reproducibility of Results , Saccharomycetales
3.
Phys Chem Chem Phys ; 20(25): 16949-16955, 2018 Jun 27.
Article in English | MEDLINE | ID: mdl-29873653

ABSTRACT

LOV-domains are ubiquitous photosensory proteins that are commonly re-engineered to serve as powerful and versatile fluorescent proteins and optogenetic tools. The photoactive, flavin chromophore, however, is excited using short wavelengths of light in the blue and UV regions, which have limited penetration into biological samples and can cause photodamage. Here, we have used non-linear spectroscopy and microscopy of the fluorescent protein, iLOV, to reveal that functional variants of LOV can be activated to great effect by two non-resonant photons of lower energy, near infrared light, not only in solution but also in biological samples. The two photon cross section of iLOV has a significantly blue-shifted S0 → S1 transition compared with the one photon absorption spectrum, suggesting preferential population of excited vibronic states. It is highly likely, therefore, that the two photon absorption wavelength of engineered, LOV-based tools is tuneable. We also demonstrate for the first time two photon imaging using iLOV in human epithelial kidney cells. Consequently, two photon absorption by engineered, flavin-based bio-molecular tools can enable non-invasive activation with high depth resolution and the potential for not only improved image clarity but also enhanced spatiotemporal control for optogenetic applications.


Subject(s)
Flavoproteins/chemistry , Fluorescent Dyes/chemistry , Luminescent Proteins/chemistry , Optical Imaging/methods , Escherichia coli , Flavins/chemistry , Flavoproteins/genetics , HEK293 Cells , Humans , Infrared Rays , Microscopy, Fluorescence, Multiphoton/methods , Photons , Protein Conformation , Spectrometry, Fluorescence/methods
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