UniProt Accession

 RS2_HUMAN; P15880; B2R5G0; D3DU82; Q3MIB1 

Genbank Protein ID

 X17206; AK312173; CH471112; CH471112; BC001795; BC006559; BC008862; BC010165; BC012354; BC016178; BC016951; BC018993; BC021545; BC023541; BC025677; BC066321; BC068051; BC071922; BC071923; BC071924; BC073966; BC075830; BC103756; BC105985 

Genbank Nucleotide ID

 CAA35078.1; BAG35107.1; EAW85592.1; EAW85595.1; AAH01795.1; AAH06559.1; AAH08862.1; AAH10165.1; AAH12354.1; AAH16178.1; AAH16951.1; AAH18993.1; AAH21545.1; AAH23541.1; AAH25677.1; AAH66321.1; AAH68051.1; AAH71922.1; AAH71923.1; AAH71924.1; AAH73966.1; AAH75830.1; AAI03757.1; AAI05986.1 

Protein Name

 40S ribosomal protein S2 

Protein Synonyms/Alias

 40S ribosomal protein S4; Protein LLRep3 

Gene Name

 RPS2 

Gene Synonyms/Alias

 RPS4 

Created Date

 July 27, 2013 

Organism

 Homo sapiens (Human) 

NCBI Taxa ID

 9606 

Lysine Modification

Position	Peptide	Type	References
54	GRGARGGKAEDKEWM	ubiquitination	[1, 2]
58	RGGKAEDKEWMPVTK	ubiquitination	[1, 2, 3, 4, 5, 6, 7, 8]
65	KEWMPVTKLGRLVKD	ubiquitination	[1, 2, 3, 4, 6, 7, 8]
76	LVKDMKIKSLEEIYL	ubiquitination	[1, 2, 3, 4, 7, 8]
108	SLKDEVLKIMPVQKQ	ubiquitination	[3, 4, 7, 8]
114	LKIMPVQKQTRAGQR	ubiquitination	[1, 3, 8]
145	GLGVKCSKEVATAIR	ubiquitination	[1]
173	RRGYWGNKIGKPHTV	ubiquitination	[1]
176	YWGNKIGKPHTVPCK	ubiquitination	[1]
211	IVSAPVPKKLLMMAG	ubiquitination	[1, 6]
212	VSAPVPKKLLMMAGI	ubiquitination	[1]
238	ATLGNFAKATFDAIS	ubiquitination	[1, 6]
246	ATFDAISKTYSYLTP	ubiquitination	[1, 2, 3, 4, 8, 9]
257	YLTPDLWKETVFTKS	ubiquitination	[1, 2, 3, 4, 7, 8]
263	WKETVFTKSPYQEFT	acetylation	[10]
263	WKETVFTKSPYQEFT	ubiquitination	[1, 2, 3, 4, 6, 7, 8]
275	EFTDHLVKTHTRVSV	acetylation	[10]
275	EFTDHLVKTHTRVSV	ubiquitination	[1, 2, 3, 4, 6, 7, 8]

Reference

 [1] Refined preparation and use of anti-diglycine remnant (K-ε-GG) antibody enables routine quantification of 10,000s of ubiquitination sites in single proteomics experiments.
 Udeshi ND, Svinkina T, Mertins P, Kuhn E, Mani DR, Qiao JW, Carr SA.
 Mol Cell Proteomics. 2013 Mar;12(3):825-31. [PMID: 23266961]
 [2] Landscape of the PARKIN-dependent ubiquitylome in response to mitochondrial depolarization.
 Sarraf SA, Raman M, Guarani-Pereira V, Sowa ME, Huttlin EL, Gygi SP, Harper JW.
 Nature. 2013 Apr 18;496(7445):372-6. [PMID: 23503661]
 [3] A proteome-wide, quantitative survey of in vivo ubiquitylation sites reveals widespread regulatory roles.
 Wagner SA, Beli P, Weinert BT, Nielsen ML, Cox J, Mann M, Choudhary C.
 Mol Cell Proteomics. 2011 Oct;10(10):M111.013284. [PMID: 21890473]
 [4] Systematic and quantitative assessment of the ubiquitin-modified proteome.
 Kim W, Bennett EJ, Huttlin EL, Guo A, Li J, Possemato A, Sowa ME, Rad R, Rush J, Comb MJ, Harper JW, Gygi SP.
 Mol Cell. 2011 Oct 21;44(2):325-40. [PMID: 21906983]
 [5] Proteome-wide identification of ubiquitylation sites by conjugation of engineered lysine-less ubiquitin.
 Oshikawa K, Matsumoto M, Oyamada K, Nakayama KI.
 J Proteome Res. 2012 Feb 3;11(2):796-807. [PMID: 22053931]
 [6] Methods for quantification of in vivo changes in protein ubiquitination following proteasome and deubiquitinase inhibition.
 Udeshi ND, Mani DR, Eisenhaure T, Mertins P, Jaffe JD, Clauser KR, Hacohen N, Carr SA.
 Mol Cell Proteomics. 2012 May;11(5):148-59. [PMID: 22505724]
 [7] Systems-wide analysis of ubiquitylation dynamics reveals a key role for PAF15 ubiquitylation in DNA-damage bypass.
 Povlsen LK, Beli P, Wagner SA, Poulsen SL, Sylvestersen KB, Poulsen JW, Nielsen ML, Bekker-Jensen S, Mailand N, Choudhary C.
 Nat Cell Biol. 2012 Oct;14(10):1089-98. [PMID: 23000965]
 [8] hCKSAAP_UbSite: improved prediction of human ubiquitination sites by exploiting amino acid pattern and properties.
 Chen Z, Zhou Y, Song J, Zhang Z.
 Biochim Biophys Acta. 2013 Aug;1834(8):1461-7. [PMID: 23603789]
 [9] Ubiquitin ligase substrate identification through quantitative proteomics at both the protein and peptide levels.
 Lee KA, Hammerle LP, Andrews PS, Stokes MP, Mustelin T, Silva JC, Black RA, Doedens JR.
 J Biol Chem. 2011 Dec 2;286(48):41530-8. [PMID: 21987572]
 [10] Lysine acetylation targets protein complexes and co-regulates major cellular functions.
 Choudhary C, Kumar C, Gnad F, Nielsen ML, Rehman M, Walther TC, Olsen JV, Mann M.
 Science. 2009 Aug 14;325(5942):834-40. [PMID: 19608861] 

Functional Description

  

Sequence Annotation

 DOMAIN 102 165 S5 DRBM.
 MOD_RES 77 77 Phosphoserine (By similarity).
 MOD_RES 82 82 Phosphotyrosine (By similarity).
 MOD_RES 85 85 Phosphoserine (By similarity).
 MOD_RES 133 133 Phosphotyrosine (By similarity).
 MOD_RES 263 263 N6-acetyllysine.
 MOD_RES 264 264 Phosphoserine.
 MOD_RES 275 275 N6-acetyllysine.
 MOD_RES 281 281 Phosphoserine.  

Keyword

 3D-structure; Acetylation; Citrullination; Complete proteome; Direct protein sequencing; Phosphoprotein; Reference proteome; Repeat; Ribonucleoprotein; Ribosomal protein. 

Sequence Source

 UniProt (SWISSPROT/TrEMBL); GenBank; EMBL 

Protein Length

 293 AA 

Protein Sequence

Gene Ontology

 GO:0022627; C:cytosolic small ribosomal subunit; IDA:UniProtKB.
 GO:0005654; C:nucleoplasm; IDA:UniProtKB.
 GO:0003723; F:RNA binding; IEA:InterPro.
 GO:0003735; F:structural constituent of ribosome; IDA:UniProtKB.
 GO:0000184; P:nuclear-transcribed mRNA catabolic process, nonsense-mediated decay; TAS:Reactome.
 GO:0006614; P:SRP-dependent cotranslational protein targeting to membrane; TAS:Reactome.
 GO:0006414; P:translational elongation; TAS:Reactome.
 GO:0006413; P:translational initiation; TAS:Reactome.
 GO:0006415; P:translational termination; TAS:Reactome.
 GO:0019083; P:viral transcription; TAS:Reactome. 

Interpro

 IPR014720; dsRNA-bd-like_dom.
 IPR000851; Ribosomal_S5.
 IPR005324; Ribosomal_S5_C.
 IPR020568; Ribosomal_S5_D2-typ_fold.
 IPR014721; Ribosomal_S5_D2-typ_fold_subgr.
 IPR005711; Ribosomal_S5_euk/arc.
 IPR013810; Ribosomal_S5_N.
 IPR018192; Ribosomal_S5_N_CS. 

Pfam

 PF00333; Ribosomal_S5
 PF03719; Ribosomal_S5_C 

SMART

  

PROSITE

 PS00585; RIBOSOMAL_S5
 PS50881; S5_DSRBD 

PRINTS