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3.A.6.2.1 Flagellar protein export system. Infrequent ATP hydrolysis by the FliI₆FliJ ring is sufficient for gate activation, allowing processive translocation of export flagellar protein substrates for efficient flagellar assembly (Minamino et al. 2014). FliO has been identified as a flagellar basal body chaparone protein (Fabiani et al. 2017). The flagellar protein export apparatus switches its substrate specificity when hook length has reached approximately 55 nm, and the hydrophilic C-terminal domain of FlhB is involved in this switching process (Inoue et al. 2019). A positively chargef region of Salmonella FliI is required for ATPase formation and efficient flagellar protein export (Kinoshita et al. 2021).
Accession Number:	P0A1L1
Protein Name:	FliO aka FLBD aka FLAP aka STM1978
Length:	125
Molecular Weight:	13083.00
Species:	Salmonella typhimurium [90371]
Number of TMSs:	1
Location¹ / Topology² / Orientation³:	Cell membrane¹ / Single-pass membrane protein²
Substrate

RefSeq:	NP_460931.1
Entrez Gene ID:	1253499
BioCyc:	STYP99287:STM1978-MONOMER
KEGG:	stm:STM1978
Gene Ontology GO:0009425 C:bacterial-type flagellum basal body GO:0016021 C:integral to membrane GO:0005886 C:plasma membrane GO:0006935 P:chemotaxis GO:0001539 P:ciliary or flagellar motility GO:0043064 P:flagellum organization
References (2) [1] “The FliO, FliP, FliQ, and FliR proteins of Salmonella typhimurium: putative components for flagellar assembly.” Ohnishi K.et.al. 9324257 [2] “Complete genome sequence of Salmonella enterica serovar Typhimurium LT2.” McClelland M.et.al. 11677609

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FASTA formatted sequence

1:	MMKTEATVSQ PTAPAGSPLM QVSGALIGII ALILAAAWVI KRMGFAPKGN SVRGLKVSAS 
61:	ASLGPRERVV IVEVENARLV LGVTASQINL LHTLPPAEND TEAPVAPPAD FQNMMKSLLK 
121:	RSGRS

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Gene Ontology

References (2)

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