TY - JOUR
T1 - Systematic identification of hypothetical bacteriophage proteins targeting key protein complexes of Pseudomonas aeruginosa
AU - Van Den Bossche, An
AU - Ceyssens, Pieter Jan
AU - De Smet, Jeroen
AU - Hendrix, Hanne
AU - Bellon, Hannelore
AU - Leimer, Nadja
AU - Wagemans, Jeroen
AU - Delattre, Anne Sophie
AU - Cenens, William
AU - Aertsen, Abram
AU - Landuyt, Bart
AU - Minakhin, Leonid
AU - Severinov, Konstantin
AU - Noben, Jean Paul
AU - Lavigne, Rob
N1 - Publisher Copyright:
© 2014 American Chemical Society.
PY - 2014/10/3
Y1 - 2014/10/3
N2 - Addressing the functionality of predicted genes remains an enormous challenge in the postgenomic era. A prime example of genes lacking functional assignments are the poorly conserved, early expressed genes of lytic bacteriophages, whose products are involved in the subversion of the host metabolism. In this study, we focused on the composition of important macromolecular complexes of Pseudomonas aeruginosa involved in transcription, DNA replication, fatty acid biosynthesis, RNA regulation, energy metabolism, and cell division during infection with members of seven distinct clades of lytic phages. Using affinity purifications of these host protein complexes coupled to mass spectrometric analyses, 37 host complex-associated phage proteins could be identified. Importantly, eight of these show an inhibitory effect on bacterial growth upon episomal expression, suggesting that these phage proteins are potentially involved in hijacking the host complexes. Using complementary protein-protein interaction assays, we further mapped the inhibitory interaction of gp12 of phage 14-1 to the α subunit of the RNA polymerase. Together, our data demonstrate the powerful use of interactomics to unravel the biological role of hypothetical phage proteins, which constitute an enormous untapped source of novel antibacterial proteins. (Data are available via ProteomeXchange with identifier PXD001199.)
AB - Addressing the functionality of predicted genes remains an enormous challenge in the postgenomic era. A prime example of genes lacking functional assignments are the poorly conserved, early expressed genes of lytic bacteriophages, whose products are involved in the subversion of the host metabolism. In this study, we focused on the composition of important macromolecular complexes of Pseudomonas aeruginosa involved in transcription, DNA replication, fatty acid biosynthesis, RNA regulation, energy metabolism, and cell division during infection with members of seven distinct clades of lytic phages. Using affinity purifications of these host protein complexes coupled to mass spectrometric analyses, 37 host complex-associated phage proteins could be identified. Importantly, eight of these show an inhibitory effect on bacterial growth upon episomal expression, suggesting that these phage proteins are potentially involved in hijacking the host complexes. Using complementary protein-protein interaction assays, we further mapped the inhibitory interaction of gp12 of phage 14-1 to the α subunit of the RNA polymerase. Together, our data demonstrate the powerful use of interactomics to unravel the biological role of hypothetical phage proteins, which constitute an enormous untapped source of novel antibacterial proteins. (Data are available via ProteomeXchange with identifier PXD001199.)
KW - Bacteriophages
KW - P. aeruginosa
KW - affinity purifications
KW - functional annotation
KW - interactomics
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U2 - 10.1021/pr500796n
DO - 10.1021/pr500796n
M3 - Article
C2 - 25185497
AN - SCOPUS:84907821771
VL - 13
SP - 4446
EP - 4456
JO - Journal of Proteome Research
JF - Journal of Proteome Research
SN - 1535-3893
IS - 10
ER -