Conformational changes of short tail fibers enable genome
delivery of  Podoviridae phage SU10 (RICCEM-2021)

k 2021

Conformational changes of short tail fibers enable genome delivery of Podoviridae phage SU10 (RICCEM-2021)

ŠIBOROVÁ, Marta; Tibor FÜZIK; Michaela PROCHÁZKOVÁ; Jiří NOVÁČEK; Martin BENEŠÍK et al.

Základní údaje

Originální název

Conformational changes of short tail fibers enable genome delivery of Podoviridae phage SU10 (RICCEM-2021)

Autoři

ŠIBOROVÁ, Marta; Tibor FÜZIK ; Michaela PROCHÁZKOVÁ ; Jiří NOVÁČEK; Martin BENEŠÍK; AS. NILSSON a Pavel PLEVKA

Vydání

RUSSIAN INTERNATIONAL CONFERENCE ON CRYO-ELECTRON MICROSCOPY, 2021

Další údaje

Jazyk

angličtina

Typ výsledku

Prezentace na konferencích

Obor

10607 Virology

Stát vydavatele

Rusko

Utajení

není předmětem státního či obchodního tajemství

Odkazy

URL

Označené pro přenos do RIV

Ano

Kód RIV

RIV/00216224:14740/21:00123939

Organizační jednotka

Středoevropský technologický institut

Klíčová slova anglicky

bacteriophage; Podoviridae; genome delivery; localized reconstruction

Štítky

rivok

Příznaky

Mezinárodní význam

Změněno: 24. 1. 2022 16:21, Mgr. Pavla Foltynová, Ph.D.

Anotace

V originále

Phage SU10, infecting Escherichia coli, belongs to the family Podoviridae of phages with short non-contractile tails. The tails enable Podoviridae phages to attach at a cell surface and penetrate bacterial cell wall. However, there is limited information about conformational changes of tails of Podoviridae phages that are required for infection of a cell. We used cryo-electron microscopy to determine the structures of virion and genome release intermediate of phage SU10. The virion of SU10 is formed by a prolate capsid and a tail attached to a dodecameric portal complex. The tail, which is formed by a dodecamer of adaptor proteins, hexamer of tail proteins, and trimer of tail needle proteins, is decorated by long and short fibers. SU10 uses the long tail fibers for initial attachment to a cell. The binding of short tail fibers to a bacterial surface requires their rotation by 135°, which is connected to straightening of tail proteins. In the new conformation, the short tail fibers and tail proteins alternate to form a 20 nm long nozzle. Attachment of short tail fibers to the cell surface forces the tail needle, which protrudes from the tail nozzle, through the outer membrane of the bacterial cell. To open the tail channel, the tail needle dissociates from the baseplate. The head of SU10 contains inner core proteins that have a predicted transglycosylase activity to degrade cell wall peptidoglycan and may also attach to the tail nozzle to extend it across periplasm and inner membrane into bacterial cytoplasm. The nozzle with the putative extension formed by inner core proteins enable ejection of SU10 DNA into bacterial cytoplasm

Návaznosti

LL1906, projekt VaV

Název: Replikace fágů v bakteriálním biofilmu

Investor: Ministerstvo školství, mládeže a tělovýchovy ČR, Replikace fágů v bakteriálním biofilmu

Citovat

ŠIBOROVÁ, Marta; Tibor FÜZIK; Michaela PROCHÁZKOVÁ; Jiří NOVÁČEK; Martin BENEŠÍK; AS. NILSSON a Pavel PLEVKA. Conformational changes of short tail fibers enable genome delivery of Podoviridae phage SU10 (RICCEM-2021). In RUSSIAN INTERNATIONAL CONFERENCE ON CRYO-ELECTRON MICROSCOPY. 2021.

@proceedings{1826512,
   author = {Šiborová, Marta and Füzik, Tibor and Procházková, Michaela and Nováček, Jiří and Benešík, Martin and Nilsson, AS. and Plevka, Pavel},
   booktitle = {RUSSIAN INTERNATIONAL CONFERENCE ON CRYO-ELECTRON MICROSCOPY},
   keywords = {bacteriophage; Podoviridae; genome delivery; localized reconstruction},
   language = {eng},
   title = {Conformational changes of short tail fibers enable genome delivery of Podoviridae phage SU10 (RICCEM-2021)},
   url = {https://riccem.org/wp-content/uploads/2021/05/RICCEM-2021-Book-of-Abstracts.pdf},
   year = {2021}
}

TY  - CONF
ID  - 1826512
AU  - Šiborová, Marta - Füzik, Tibor - Procházková, Michaela - Nováček, Jiří - Benešík, Martin - Nilsson, AS. - Plevka, Pavel
PY  - 2021
TI  - Conformational changes of short tail fibers enable genome delivery of Podoviridae phage SU10 (RICCEM-2021)
KW  - bacteriophage
KW  - Podoviridae
KW  - genome delivery
KW  - localized reconstruction
UR  - https://riccem.org/wp-content/uploads/2021/05/RICCEM-2021-Book-of-Abstracts.pdf
N2  - Phage SU10, infecting Escherichia coli, belongs to the family Podoviridae of phages with short non-contractile tails. The tails enable Podoviridae phages to attach at a cell surface and penetrate bacterial cell wall. However, there is limited information about conformational changes of tails of Podoviridae phages that are required for infection of a cell. We used cryo-electron microscopy to determine the structures of virion and genome release intermediate of phage SU10. The virion of SU10 is formed by a prolate capsid and a tail attached to a dodecameric portal complex. The tail, which is formed by a dodecamer of adaptor proteins, hexamer of tail proteins, and trimer of tail needle proteins, is decorated by long and short fibers. SU10 uses the long tail fibers for initial attachment to a cell. The binding of short tail fibers to a bacterial surface requires their rotation by 135°, which is connected to straightening of tail proteins. In the new conformation, the short tail fibers and tail proteins alternate to form a 20 nm long nozzle. Attachment of short tail fibers to the cell surface forces the tail needle, which protrudes from the tail nozzle, through the outer membrane of the bacterial cell. To open the tail channel, the tail needle dissociates from the baseplate. The head of SU10 contains inner core proteins that have a predicted transglycosylase activity to degrade cell wall peptidoglycan and may also attach to the tail nozzle to extend it across periplasm and inner membrane into bacterial cytoplasm. The nozzle with the putative extension formed by inner core proteins enable ejection of SU10 DNA into bacterial cytoplasm
ER  -

ŠIBOROVÁ, Marta; Tibor FÜZIK; Michaela PROCHÁZKOVÁ; Jiří NOVÁČEK; Martin BENEŠÍK; AS. NILSSON a Pavel PLEVKA. Conformational changes of short tail fibers enable genome delivery of Podoviridae phage SU10 (RICCEM-2021). In \textit{RUSSIAN INTERNATIONAL CONFERENCE ON CRYO-ELECTRON MICROSCOPY}. 2021.

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