CPLM-002930

CPLM 1.0 - Compendium of Protein Lysine Modification

Tag

Content

CPLM ID

CPLM-002930

UniProt Accession

DER_ECOLI; P0A6P5; P77254; Q8X4Y1

Genbank Protein ID

U00096; AP009048

Genbank Nucleotide ID

AAC75564.2; BAA16397.2

Protein Name

GTPase Der

Protein Synonyms/Alias

Double era-like domain protein; GTP-binding protein EngA

Gene Name

der

Gene Synonyms/Alias

engA; yfgK; b2511; JW5403

Created Date

July 27, 2013

Organism

Escherichia coli (strain K12)

NCBI Taxa ID

83333

Lysine Modification

Position	Peptide	Type	References
104	PADEAIAKHLRSREK	acetylation	[1]
272	KITDAVEKFSVIKTL	acetylation	[1]
331	DGLSQEVKEQVKETL	acetylation	[1]
335	QEVKEQVKETLDFRL	acetylation	[1]
408	RGRRVKLKYAHAGGY	acetylation	[1]
428	VIHGNQVKDLPDSYK	acetylation	[1]
444	YLMNYFRKSLDVMGS	acetylation	[1]
458	SPIRIQFKEGENPYA	acetylation	[1]

Reference

[1] Acetyl-Phosphate Is a Critical Determinant of Lysine Acetylation in E. coli.
Weinert BT, Iesmantavicius V, Wagner SA, Schölz C, Gummesson B, Beli P, Nyström T, Choudhary C.
Mol Cell. 2013 Jul 25;51(2):265-72. [PMID: 23830618]

Functional Description

GTPase that plays an essential role in the late steps of ribosome biogenesis. GTPase point mutations (but not a deletion mutant) are suppressed by mild overexpression of RelA, probably due to increased levels of the stringent response mediator (p)ppGpp. 50S subunits assembled in the absence of Der are defective and unable to assemble into 70S ribosomes. GTPase activity is stimulated by YihI. Overexpression rescues an rrmJ deletion, stabilizing the 70S ribosome. Der and RrmJ are likely to share a mechanism to stabilize 50S ribosomal subunits at a very late stage of 50S subunit maturation possibly by interacting with 23S rRNA or 23S rRNA/r-protein complex.

Sequence Annotation

DOMAIN 14 119 G 1.
DOMAIN 214 322 G 2.
DOMAIN 376 461 KH-like.
NP_BIND 9 16 GTP 1 (Potential).
NP_BIND 56 60 GTP 1 (Potential).
NP_BIND 118 121 GTP 1 (Potential).
NP_BIND 209 216 GTP 2 (Potential).
NP_BIND 256 260 GTP 2 (Potential).
NP_BIND 321 324 GTP 2 (Potential).

Keyword

Complete proteome; GTP-binding; Nucleotide-binding; Reference proteome; Repeat; Ribosome biogenesis.

Sequence Source

UniProt (SWISSPROT/TrEMBL); GenBank; EMBL

Protein Length

490 AA

Protein Sequence

MVPVVALVGR PNVGKSTLFN RLTRTRDALV ADFPGLTRDR KYGRAEIEGR EFICIDTGGI 60
DGTEDGVETR MAEQSLLAIE EADVVLFMVD ARAGLMPADE AIAKHLRSRE KPTFLVANKT 120
DGLDPDQAVV DFYSLGLGEI YPIAASHGRG VLSLLEHVLL PWMEDLAPQE EVDEDAEYWA 180
QFEAEENGEE EEEDDFDPQS LPIKLAIVGR PNVGKSTLTN RILGEERVVV YDMPGTTRDS 240
IYIPMERDGR EYVLIDTAGV RKRGKITDAV EKFSVIKTLQ AIEDANVVML VIDAREGISD 300
QDLSLLGFIL NSGRSLVIVV NKWDGLSQEV KEQVKETLDF RLGFIDFARV HFISALHGSG 360
VGNLFESVRE AYDSSTRRVG TSMLTRIMTM AVEDHQPPLV RGRRVKLKYA HAGGYNPPIV 420
VIHGNQVKDL PDSYKRYLMN YFRKSLDVMG SPIRIQFKEG ENPYANKRNT LTPTQMRKRK 480
RLMKHIKKNK 490

Gene Ontology

GO:0005829; C:cytosol; IDA:EcoCyc.
GO:0005525; F:GTP binding; IEA:HAMAP.
GO:0003924; F:GTPase activity; IDA:EcoCyc.
GO:0043022; F:ribosome binding; IDA:EcoCyc.
GO:0000027; P:ribosomal large subunit assembly; IMP:EcoCyc.

Interpro

IPR016484; GTP-bd_EngA.
IPR006073; GTP_binding_domain.
IPR015946; KH_dom-like_a/b.
IPR027417; P-loop_NTPase.
IPR005225; Small_GTP-bd_dom.

Pfam

PF01926; MMR_HSR1

SMART

PROSITE

PRINTS

PR00326; GTP1OBG.