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ProGT109 (EarP)

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ProGT ID	ProGT109 (EarP)
Organism Information
Organism Name	Neisseria meningitidis HT1125
Clinical Implication	Pathogenic
Domain	Bacteria
Classification	Phylum : Proteobacteria Class : BetaProteobacteria Orders : Neisseriales Family : Nesseriaceae Genus : Neisseria Species : meningitidis Strain : HT1125
Taxonomic ID (NCBI)	487
Genome Information
Gene Bank	AE002098.2
EMBL	AE002098.2
Gene Information
Gene Name	earP
Protein information
Protein Name	EarP
UniProtKB/ SwissProt ID	A0A0T7AQA7
NCBI Ref Seq	YP_008920709.1
UniProtKB Sequence	>tr\|A0A0T7AQA7\|A0A0T7AQA7_NEIME DUF2331 OS=Neisseria meningitidis GN=efp PE=4 SV=1 MNTPPFVCWIFCKVIDNFGDIGVSLRLARVLHRELGWQVHLWTDDVSALRALCPDLPDVP CVHQDIHVRTWHSDAADIDTAPVPDAVIETFACDLPENVLHIIRRHKPLWLNWEYLSAEE SNERLHLMPSPQEGVQKYFWFMGFSEKSGGLIRERDYRDAVRFDTEALRQRLMLPEKNAP EWLLFGYRSDVWAKWLEMWQQAGSPMTLLLAGAQIIDSLKQSGIIPQNALQNDGDVFQTA SVRLVKIPFVPQQDFDQLLHLADCAVIRGEDSFVRAQLAGKPFFWHIYPQDEHVHLDKLH AFWDKAHGFYTPETASAHRCLSDDLNGGEALSATQRLECWQILQQHQNGWRQGAGAWSRY LFGQPSASEKLAAFVSKHQKIR
EMBL CDS	BAU19337
Sequence length	382 AA
Function in Native Organism	1) The N. meningitidis efp gene is essential for cell viability.
Potential Application	1) EF-P and Arg32 are essential for the viability of the Neisseria meningitidis therefore, EarP should be a promising target for antibacterial drug development specifically against N. meningitidis.
Additional Information	1) Rhamnose modified EF-P rescues ribosomes stalled at proline stretches in proteins.
Glycosyltransferase Information
Glycosylation Type	N- (Arg) linked
EC Number (BRENDA)	2.4.1.-
Mechanism of Glycan Transfer	Sequential
Donor Type	dTDP-l-Rhamnose
Donor Specificity	Nucleotide activated sugars
Glycan Information
Glycan transferred	Monosaccharide (Rha)
Method of Glycan Indentification	MALDI-TOF MS and ESI-MS
Experimental_strategies	In vivo and In vitro
Acceptor Subtrate Information
Acceptor Substrate name	EF-P
ProGPdb ID	ProGP521
Litrature
Year Of Validation	2016
Reference	Yanagisawa, T., Takahashi, H., Suzuki, T., Masuda, A., Dohmae, N. and Yokoyama, S., 2016. Neisseria meningitidis translation elongation factor P and its active-site arginine residue are essential for cell viability. PloS one, 11(2), p.e0147907.
Corresponding Author	RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi, Yokohama 230-0045, Japan