Empowering Pseudomonas putida with surface-displayed designer
protein scaffolds

k 2019

Empowering Pseudomonas putida with surface-displayed designer protein scaffolds

DVOŘÁK, Pavel, Esteban MARTÍNEZ-GARCÍA and Victor DE LORENZO

Basic information

Original name

Empowering Pseudomonas putida with surface-displayed designer protein scaffolds

Name in Czech

Konstrukce bakterie Pseudomonas putida se syntetickými proteinovými lešeními na povrchu

Authors

DVOŘÁK, Pavel, Esteban MARTÍNEZ-GARCÍA and Victor DE LORENZO

Edition

FEMS 2019: 8th Congress of European Microbiologists, 2019

Other information

Language

English

Type of outcome

Prezentace na konferencích

Country of publisher

Czech Republic

Confidentiality degree

není předmětem státního či obchodního tajemství

References:

URL

Organization unit

Faculty of Science

Keywords (in Czech)

Pseudomonas putida, syntetická biologie, celulozomy

Keywords in English

Pseudomonas putida, cellulosomes, synthetic biology, surface display

Abstract

V originále

Pseudomonas putida KT2440, the best-characterized and safe pseudomonad, belongs among the most promising bacterial hosts for synthetic biology and biotechnology endeavours. P. putida-based applications would greatly benefit from novel catalytic activities displayed on its surface. However, recombinant protein secretion in this G- host is inefficient and not well established. We sought to meet this challenge by developing a system for efficient display of recombinant proteins on P. putida surface by employing a synthetic biology approach. New engineered P. putida strains EM42 and EM371, with reduced genomes and altered physiological properties, were combined with surface display of small anchoring protein scaffolds inspired by natural cellulosomes. These synthetic scaffolds served as docks for recombinant proteins tagged with complementary binding domains. Attachment of the proteins to the P. putida surface was verified by enzyme assays, confocal microscopy, fluorescence spectroscopy, and flow cytometry. Synthetic scaffolds containing one or two cohesin binding domains were successfully displayed on the surface of both P. putida strains with one of four tested autotransporter systems. Beta-glucosidase and two different fluorescent proteins were anchored to the surface of P. putida EM42 and EM371 with high efficiency especially in the latter case. This study shows the benefits of the strain EM371 for the surface display of recombinant proteins and introduces designer cellulosome strategy tailored for P. putida.

Citovat

DVOŘÁK, Pavel, Esteban MARTÍNEZ-GARCÍA and Victor DE LORENZO. Empowering Pseudomonas putida with surface-displayed designer protein scaffolds. In FEMS 2019: 8th Congress of European Microbiologists. 2019.

@proceedings{1620396,
   author = {Dvořák, Pavel and MartínezandGarcía, Esteban and de Lorenzo, Victor},
   booktitle = {FEMS 2019: 8th Congress of European Microbiologists},
   keywords = {Pseudomonas putida, cellulosomes, synthetic biology, surface display},
   language = {eng},
   title = {Empowering Pseudomonas putida with surface-displayed designer protein scaffolds},
   url = {https://fems2019.org/},
   year = {2019}
}

TY  - CONF
ID  - 1620396
AU  - Dvořák, Pavel - Martínez-García, Esteban - de Lorenzo, Victor
PY  - 2019
TI  - Empowering Pseudomonas putida with surface-displayed designer protein scaffolds
KW  - Pseudomonas putida, cellulosomes, synthetic biology, surface display
UR  - https://fems2019.org/
N2  - Pseudomonas putida KT2440, the best-characterized and safe pseudomonad, belongs among the most promising bacterial hosts for synthetic biology and biotechnology endeavours. P. putida-based applications would greatly benefit from novel catalytic activities displayed on its surface. However, recombinant protein secretion in this G- host is inefficient and not well established. We sought to meet this challenge by developing a system for efficient display of recombinant proteins on P. putida surface by employing a synthetic biology approach. New engineered P. putida strains EM42 and EM371, with reduced genomes and altered physiological properties, were combined with surface display of small anchoring protein scaffolds inspired by natural cellulosomes. These synthetic scaffolds served as docks for recombinant proteins tagged with complementary binding domains. Attachment of the proteins to the P. putida surface was verified by enzyme assays, confocal microscopy, fluorescence spectroscopy, and flow cytometry. Synthetic scaffolds containing one or two cohesin binding domains were successfully displayed on the surface of both P. putida strains with one of four tested autotransporter systems. Beta-glucosidase and two different fluorescent proteins were anchored to the surface of P. putida EM42 and EM371 with high efficiency especially in the latter case. This study shows the benefits of the strain EM371 for the surface display of recombinant proteins and introduces designer cellulosome strategy tailored for P. putida.
ER  -

DVOŘÁK, Pavel, Esteban MARTÍNEZ-GARCÍA and Victor DE LORENZO. Empowering Pseudomonas putida with surface-displayed designer protein scaffolds. In \textit{FEMS 2019: 8th Congress of European Microbiologists}. 2019.

Detailed Information on Publication Record