CPLM-020252

Position

Peptide

Type

References

FPEGPLLKLLPLDAR

ubiquitination

[1]

ARLGSAVKISLPDGG

ubiquitination

[1, 2]

247

AGPPGVGKTQLVRAV

ubiquitination

[1, 3, 4, 5]

372

VIGTPTLKQRKEILQ

ubiquitination

[1, 6]

375

TPTLKQRKEILQVIT

ubiquitination

[1]

425

HALLHSEKNQDNPVI

ubiquitination

[7]

442

IDFLEAFKNIQPSSF

ubiquitination

[3]

459

VIGLMDIKPVDWEEI

ubiquitination

[1, 6]

473

IGGLEDVKLKLKQSI

ubiquitination

[1]

475

GLEDVKLKLKQSIEW

ubiquitination

[1]

477

EDVKLKLKQSIEWPL

ubiquitination

[1, 6]

485

QSIEWPLKFPWEFVR

ubiquitination

[1, 3]

499

RMGLTQPKGVLLYGP

ubiquitination

[1, 4, 7]

511

YGPPGCAKTTLVRAL

ubiquitination

[1, 2, 7]

577

LGARSASKTGCDVQE

ubiquitination

[1]

600

ELDGVGLKTIERRGS

ubiquitination

[1, 3, 6]

608

TIERRGSKSSQQEFQ

ubiquitination

[1]

656

YIPPPDHKGRLSILK

ubiquitination

[1]

663

KGRLSILKVCTKTMP

ubiquitination

[1]

715

GLDATTVKQEHFLKS

ubiquitination

[1]

721

VKQEHFLKSLKTVKP

ubiquitination

[1]

724

EHFLKSLKTVKPSLS

acetylation

[8]

724

EHFLKSLKTVKPSLS

ubiquitination

[1]

727

LKSLKTVKPSLSCKD

ubiquitination

[1]

733

VKPSLSCKDLALYEN

ubiquitination

[1]

744

LYENLFKKEGFSNVE

ubiquitination

[1, 6]

[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] Integrated proteomic analysis of post-translational modifications by serial enrichment.
Mertins P, Qiao JW, Patel J, Udeshi ND, Clauser KR, Mani DR, Burgess MW, Gillette MA, Jaffe JD, Carr SA.
Nat Methods. 2013 Jul;10(7):634-7. [PMID: 23749302]
[3] 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]
[4] 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]
[5] 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]
[6] 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]
[7] Global identification of modular cullin-RING ligase substrates.
Emanuele MJ, Elia AE, Xu Q, Thoma CR, Izhar L, Leng Y, Guo A, Chen YN, Rush J, Hsu PW, Yen HC, Elledge SJ.
Cell. 2011 Oct 14;147(2):459-74. [PMID: 21963094]
[8] Spermidine and resveratrol induce autophagy by distinct pathways converging on the acetylproteome.
Morselli E, Mariño G, Bennetzen MV, Eisenberg T, Megalou E, Schroeder S, Cabrera S, Bénit P, Rustin P, Criollo A, Kepp O, Galluzzi L, Shen S, Malik SA, Maiuri MC, Horio Y, López-Otín C, Andersen JS, Tavernarakis N, Madeo F, Kroemer G.
J Cell Biol. 2011 Feb 21;192(4):615-29. [PMID: 21339330]